Test Report

Summary

116
111 passed 5 skipped

Warnings

Warnings 185

  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning numpy.core is deprecated and has been renamed to numpy._core. The numpy._core namespace contains private NumPy internals and its use is discouraged, as NumPy internals can change without warning in any release. In practice, most real-world usage of numpy.core is to access functionality in the public NumPy API. If that is the case, use the public NumPy API. If not, you are using NumPy internals. If you would still like to access an internal attribute, use numpy._core._multiarray_umath.
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/dill/_dill.py:1065
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • DeprecationWarning This process (pid=133) is multi-threaded, use of fork() may lead to deadlocks in the child.
    /opt/conda/envs/ci_env/lib/python3.13/multiprocessing/popen_fork.py:67
  • FutureWarning Tip: In future versions of Ray, Ray will no longer override accelerator visible devices env var if num_gpus=0 or num_gpus=None (default). To enable this behavior and turn off this error message, set RAY_ACCEL_ENV_VAR_OVERRIDE_ON_ZERO=0
    /opt/conda/envs/ci_env/lib/python3.13/site-packages/ray/_private/worker.py:2052
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:201
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:201
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:201
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:201
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:201
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:268
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:268
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:268
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:268
  • VisibleDeprecationWarning dtype(): align should be passed as Python or NumPy boolean but got `align=0`. Did you mean to pass a tuple to create a subarray type? (Deprecated NumPy 2.4)
    /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_spatial_transform.py:268

Tests

tests/test_cli_parser.py 7 0:00:00.597339

PASSED Test_CLIParser::test_json_opts 0:00:00.166896

Setup

Call

Teardown

PASSED Test_CLIParser::test_output_nodata_value 0:00:00.096793

Setup

Call

Teardown

PASSED Test_CLIParser::test_param_acceptance 0:00:00.064763

Setup

Call

Teardown

PASSED Test_CLIParser::test_param_boolean 0:00:00.097943

Setup

Call

Teardown

PASSED Test_CLIParser::test_param_list 0:00:00.037413

Setup

Call

Teardown

PASSED Test_CLIParser::test_tgtepsg 0:00:00.065948

Setup

Call

Teardown

PASSED Test_CLIParser::test_tgtprj 0:00:00.067582

Setup

Call

Teardown

tests/test_config.py 13 0:00:00.310234

PASSED Test_get_options::test_target_is_file_no_validation 0:00:00.006128

Setup

Call

Teardown

PASSED Test_get_options::test_target_is_file_validation 0:00:00.014685

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_invalid_filepath 0:00:00.030601

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_file 0:00:00.035519

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_param_acceptance 0:00:00.030010

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_str_allfine 0:00:00.030295

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_str_badcomment 0:00:00.014293

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_str_nojson 0:00:00.013613

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_str_schema_violation 0:00:00.022167

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_jsonconfig_str_undecodable_val 0:00:00.013645

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_plain_args 0:00:00.029868

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_to_dict_validity 0:00:00.038384

Setup

Call

Teardown

PASSED Test_EnPTConfig::test_to_jsonable_dict 0:00:00.031027

Setup

Call

Teardown

tests/test_controller.py 3 0:03:25.146730

PASSED Test_EnPT_Controller::test_run_all_processors 0:00:48.974945

Setup

Call

Captured stdout call
EnPT Controller received the following configuration:
{'general_opts': {'CPUs': 24,
                  'create_logfile': True,
                  'disable_progress_bars': False,
                  'drop_bad_bands': True,
                  'log_level': 'DEBUG',
                  'n_lines_to_append': 50,
                  'path_dem': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__tile2__DEM_ASTER.bsq',
                  'path_l1b_enmap_image': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/EnMAP_Level_1B/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__rows700-799.zip',
                  'path_l1b_enmap_image_gapfill': '',
                  'path_l1b_snr_model': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/EnMAP_Sensor/EnMAP_Level_1B_SNR.zip',
                  'working_dir': '/tmp/tmp49vc6j70'},
 'output': {'output_dir': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs',
            'output_format': 'GTiff',
            'output_interleave': 'pixel',
            'output_nodata_value': -32768},
 'processors': {'atmospheric_correction': {'auto_download_ecmwf': True,
                                           'blocksize': 100,
                                           'enable_ac': True,
                                           'enable_segmentation': True,
                                           'isofit_surface_category': 'multicomponent_surface',
                                           'land_ac_alg': 'SICOR',
                                           'mode_ac': 'land',
                                           'path_isofit_surface_config': '',
                                           'path_isofit_surface_priors': '',
                                           'polymer_additional_results': True,
                                           'polymer_root': '',
                                           'scale_factor_boa_ref': 10000,
                                           'threads': -1},
                'dead_pixel': {'algorithm': 'spatial',
                               'interp_method_spatial': 'linear',
                               'interp_method_spectral': 'linear',
                               'run_processor': False},
                'destriping': {'enable_along_track_destriping': True},
                'geometry': {'enable_absolute_coreg': True,
                             'enable_keystone_correction': False,
                             'enable_vnir_swir_coreg': False,
                             'path_reference_image': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/../tests/data/T30TXQ_20170218T110111_B05__sub.tif'},
                'orthorectification': {'resamp_alg': 'bilinear',
                                       'target_coord_grid': {'x': array([ 0, 30]),
                                                             'y': array([ 0, 30])},
                                       'target_epsg': None,
                                       'target_projection_type': 'UTM',
                                       'vswir_overlap_algorithm': 'swir_only'},
                'smile': {'run_processor': False},
                'toa_ref': {'path_earthSunDist': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/earth_sun_distance/Earth_Sun_distances_per_day_edited__1980_2030.csv',
                            'path_solar_irr': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/solar_irradiance/SUNp1fontenla__350-2500nm_@0.1nm_converted.txt',
                            'scale_factor_toa_ref': 10000}}}
2026/06/17 17:00:38:   Reading metadata for VNIR detector...
2026/06/17 17:00:38:   Calculating solar irradiance...
2026/06/17 17:00:38:   Reading metadata for SWIR detector...
2026/06/17 17:00:38:   Calculating solar irradiance...
2026/06/17 17:00:38:   Pre-processing user-provided DEM...
2026/06/17 17:00:38:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:00:39:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:00:39:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:00:39:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:00:40:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:00:40:   Computing VNIR geolayer...
2026/06/17 17:00:40:   Time for VNIR geolayer computation: 0.17 seconds
2026/06/17 17:00:40:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:00:40:   Computing SWIR geolayer...
2026/06/17 17:00:40:   Time for SWIR geolayer computation: 0.14 seconds
2026/06/17 17:00:40:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:00:41:   Running along-track de-striping to correct for horizontal image stripes in the VNIR detector...
2026/06/17 17:00:50:   Along-track de-striping of VNIR detector took 8.94 seconds
2026/06/17 17:00:50:   Running along-track de-striping to correct for horizontal image stripes in the SWIR detector...
2026/06/17 17:00:50:   Along-track de-striping of SWIR detector took 0.76 seconds
2026/06/17 17:00:50:   Temporarily transforming EnMAP band 40 to map geometry for co-registration.
2026/06/17 17:00:51:   Temporarily transforming EnMAP water mask to map geometry for co-registration.
2026/06/17 17:00:51:   Preparing reference image for co-registration.
2026/06/17 17:00:51:   Computing tie points between the EnMAP image and the given spatial reference image.
Calculating footprint polygon and actual data corner coordinates for reference image...
Bounding box of calculated footprint for reference image:
	(637005.0, 4940640.0, 666300.0, 4949895.0)
Bounding box of calculated footprint for image to be shifted:
	(637009.9236523756, 4940648.633479693, 666298.6703669054, 4949893.375184522)
Matching window position (X,Y): 651655.4222751356/4945271.096554121
Target window size (256, 256) not possible due to too small overlap area or window position too close to an image edge. New matching window size: (164, 164).
Initializing tie points grid...
With respect to the provided bad data mask(s) 81 points of initially 242 have been excluded.
Calculating tie point grid (161 points) using 24 CPU cores...
Found 131 matches.
Performing validity checks...
41 tie points flagged by level 1 filtering (reliability).
11 tie points flagged by level 2 filtering (SSIM).
9 tie points flagged by level 3 filtering (RANSAC)
81 valid tie points remain after filtering.
2026/06/17 17:00:53:   Generating misregistration array.
interpolation runtime: 0.23s
interpolation runtime: 0.22s
2026/06/17 17:00:53:   Transforming spatial optimization results back to sensor geometry.
2026/06/17 17:00:53:   Applying results of spatial optimization to geolayer.
2026/06/17 17:00:54:   Transforming the 'mask_landwater' attribute from VNIR to SWIR sensor geometry.
2026/06/17 17:00:54:   Starting atmospheric correction for VNIR and SWIR detector in 'land' mode. Source radiometric unit code is 'TOARad'.
2026/06/17 17:00:54:   Running atmospheric correction in 'land' mode, i.e., SICOR is applied to ALL surfaces. Uncertainty is expected for water surfaces because SICOR is designed for land only.
2026/06/17 17:00:54:   SICOR AC configuration: 
{'processing': {'Exception': None,
                'Exception_type': '',
                'clear_fraction': None,
                'interface': {'args': (), 'kwargs': {}},
                'status': 1,
                'tIO': 0.0,
                'tRT': 0.0,
                'uncertainties': {}},
 'retrieval': {'cpu': 24,
               'default_aot_value': 0.192,
               'disable_progressbars': False,
               'fn_LUT': '',
               'inversion': {'eps': 0.01,
                             'full': False,
                             'gnform': 'n',
                             'maxiter': 35},
               'land_only': False,
               'n_pca': 5,
               'segmentation': True,
               'segs': 200,
               'smoothing_sigma': 50,
               'sol_model': 'fontenla',
               'state_vector': {'ice': {'ll': 0.001,
                                        'prior_mean': 0.02,
                                        'prior_sigma': 1000.0,
                                        'ul': 0.499,
                                        'use_prior_mean': False},
                                'intercept': {'ll': 0.001,
                                              'prior_mean': 0.3,
                                              'prior_sigma': 1000.0,
                                              'ul': 0.999,
                                              'use_prior_mean': False},
                                'liquid_water': {'ll': 0.001,
                                                 'prior_mean': 0.02,
                                                 'prior_sigma': 1000.0,
                                                 'ul': 0.499,
                                                 'use_prior_mean': False},
                                'slope': {'ll': -0.0004,
                                          'prior_mean': 0.0002,
                                          'prior_sigma': 1000.0,
                                          'ul': 0.0004,
                                          'use_prior_mean': False},
                                'water_vapor': {'ll': 0.001,
                                                'prior_mean': 2.5,
                                                'prior_sigma': 1000.0,
                                                'ul': 4.999,
                                                'use_prior_mean': False}},
               'unknowns': {'ice_absorption_coefficients': {'sigma': 2.39e-07},
                            'liquid_water_absorption_coefficients': {'sigma': 2.43e-07},
                            'skyview': {'sigma': 0.1},
                            'water_vapor_absorption_coefficients': {'sigma': 0.01}}},
 'sensor': {'fit': {'idx': [14,
                            15,
                            16,
                            17,
                            18,
                            19,
                            20,
                            21,
                            22,
                            23,
                            24,
                            25,
                            26,
                            27,
                            28,
                            29,
                            30,
                            31],
                    'snr': [322.94254006,
                            313.45752342,
                            313.32464722,
                            306.19455173,
                            281.35641378,
                            227.9759974,
                            157.22390595,
                            148.93620623,
                            154.40197388,
                            182.60431866,
                            232.89644996,
                            250.1244036,
                            252.2267179,
                            272.16592448,
                            299.71964816,
                            316.11909184,
                            326.33202741,
                            312.28461288]},
            'name': 'EnMAP',
            'resamp_alg': 'nearest'}}
2026/06/17 17:00:54:   Setting up forward operator...
2026/06/17 17:00:54:   SICOR is applied to land AND water pixels.
2026/06/17 17:00:54:   Transforming VNIR data to SWIR sensor geometry to enable first guess retrievals for liquid water and ice...
2026/06/17 17:00:56:   Getting observation metadata...
2026/06/17 17:00:56:   Checking if observation metadata values are within LUT value ranges...
2026/06/17 17:00:56:   Loading solar irradiance model...
2026/06/17 17:00:56:   Loading RT LUT...
2026/06/17 17:00:56:   LUT file was not found locally. Try to download it from Git repository...
2026/06/17 17:01:00:   LUT file was properly downloaded and is available for AC!
2026/06/17 17:01:00:   Converting LUT to Fontenla solar model...
2026/06/17 17:01:01:   Resampling LUT to EnMAP wavelengths...
2026/06/17 17:01:05:   Reducing grid dimensionality of LUT to increase interpolation speed...
2026/06/17 17:01:06:   Calculating absorption coefficients of liquid water and ice...
2026/06/17 17:01:07:   Performing first guess water vapor retrieval based on a common band ratio using VNIR data...
2026/06/17 17:01:09:   Transforming CWV first guess map to SWIR sensor geometry to enable segmentation and 3 phases of water retrieval...
2026/06/17 17:01:09:   Performing first guess liquid water retrieval based on the NDWI...
2026/06/17 17:01:09:   Performing first guess ice retrieval based on the NDSI...
2026/06/17 17:01:09:   Calculating first guess for intercept and slope of absorption feature continuum...
2026/06/17 17:01:09:   Segmenting SWIR L1B spectra to enhance processing speed...
2026/06/17 17:01:10:   Preparing segmented SWIR L1B data cube...
2026/06/17 17:01:11:   Performing 3 phases of water retrieval...
2026/06/17 17:01:11:   Setting up multiprocessing...
2026/06/17 17:01:11:   Multiprocessing on 24 cpu's
2026/06/17 17:01:11:   Preparing optimal estimation input...
2026/06/17 17:01:11:   Optimization...
2026/06/17 17:01:15:   Done!
2026/06/17 17:01:15:   Runtime: 3.54 s
2026/06/17 17:01:15:   Smoothing segmented CWV retrieval map...
2026/06/17 17:01:15:   Transforming smoothed CWV retrieval map to VNIR sensor geometry to enable AC of VNIR data...
2026/06/17 17:01:16:   Starting surface reflectance retrieval...
2026/06/17 17:01:16:   Calculating surface reflectance for vnir detector...
2026/06/17 17:01:18:   Calculating surface reflectance for swir detector...
2026/06/17 17:01:20:   Smoothing segmented liquid water and ice maps...
2026/06/17 17:01:20:   SICOR atmospheric correction for EnMAP in land mode successfully finished!
2026/06/17 17:01:20:   Joining results of atmospheric correction.
2026/06/17 17:01:20:   Starting orthorectification...
2026/06/17 17:01:20:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 32630): (636990.0, 4940670.0, 666150.0, 4949310.0)
2026/06/17 17:01:20:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:01:21:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:01:22:   Merging VNIR and SWIR data...
2026/06/17 17:01:22:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:01:23:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:01:23:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:01:23:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:01:23:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:01:24:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:01:24:   Orthorectifying 'sicor_cwv' attribute...
2026/06/17 17:01:24:   Orthorectifying 'sicor_liq' attribute...
2026/06/17 17:01:24:   Orthorectifying 'sicor_ice' attribute...
2026/06/17 17:01:25:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:01:25:   Generating L2A metadata...
2026/06/17 17:01:26:   Pre-processing DEM to match EnMAP grid...
2026/06/17 17:01:26:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (288, 972, 202) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (288, 972, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.TIF.
Writing GeoArray of size (288, 972, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_CWV.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_LIQ.TIF.
Writing GeoArray of size (288, 972) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_ICE.TIF.
2026/06/17 17:01:27:   Writing metadata to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-METADATA.XML
2026/06/17 17:01:27:   L2A product successfully written!
2026/06/17 17:01:27:   Total runtime of the processing chain: 0:00:48.921191
Captured stderr call
2026/06/17 17:00:38:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:00:50:   Statically using band 40 for co-registration.

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2026/06/17 17:01:20:   VNIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
2026/06/17 17:01:20:   SWIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
2026/06/17 17:01:26:   Currently, L2A dead pixel masks cannot be saved yet.
2026/06/17 17:01:26:   The 'isofit_atm_state' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:01:26:   The 'isofit_uncertainty' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:01:26:   Currently, the L2A metadata XML file does not contain all relevant keys and contains not updated values!

Teardown

PASSED Test_EnPT_Controller_ACWater::test_run_all_processors 0:02:15.719424

Setup

Call

Captured stdout call
EnPT Controller received the following configuration:
{'general_opts': {'CPUs': 24,
                  'create_logfile': True,
                  'disable_progress_bars': False,
                  'drop_bad_bands': True,
                  'log_level': 'DEBUG',
                  'n_lines_to_append': None,
                  'path_dem': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__tile2__DEM_ASTER.bsq',
                  'path_l1b_enmap_image': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/EnMAP_Level_1B/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__rows700-730.zip',
                  'path_l1b_enmap_image_gapfill': '',
                  'path_l1b_snr_model': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/EnMAP_Sensor/EnMAP_Level_1B_SNR.zip',
                  'working_dir': '/tmp/tmpweo5fcis'},
 'output': {'output_dir': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs',
            'output_format': 'GTiff',
            'output_interleave': 'pixel',
            'output_nodata_value': -32768},
 'processors': {'atmospheric_correction': {'auto_download_ecmwf': True,
                                           'blocksize': 100,
                                           'enable_ac': True,
                                           'enable_segmentation': True,
                                           'isofit_surface_category': 'multicomponent_surface',
                                           'land_ac_alg': 'SICOR',
                                           'mode_ac': 'combined',
                                           'path_isofit_surface_config': '',
                                           'path_isofit_surface_priors': '',
                                           'polymer_additional_results': True,
                                           'polymer_root': '/opt/conda/envs/ci_env/lib/python3.13/site-packages',
                                           'scale_factor_boa_ref': 10000,
                                           'threads': -1},
                'dead_pixel': {'algorithm': 'spectral',
                               'interp_method_spatial': 'linear',
                               'interp_method_spectral': 'linear',
                               'run_processor': True},
                'destriping': {'enable_along_track_destriping': False},
                'geometry': {'enable_absolute_coreg': False,
                             'enable_keystone_correction': False,
                             'enable_vnir_swir_coreg': False,
                             'path_reference_image': ''},
                'orthorectification': {'resamp_alg': 'bilinear',
                                       'target_coord_grid': {'x': array([ 0, 30]),
                                                             'y': array([ 0, 30])},
                                       'target_epsg': None,
                                       'target_projection_type': 'UTM',
                                       'vswir_overlap_algorithm': 'swir_only'},
                'smile': {'run_processor': False},
                'toa_ref': {'path_earthSunDist': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/earth_sun_distance/Earth_Sun_distances_per_day_edited__1980_2030.csv',
                            'path_solar_irr': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/solar_irradiance/SUNp1fontenla__350-2500nm_@0.1nm_converted.txt',
                            'scale_factor_toa_ref': 10000}}}
2026/06/17 17:01:27:   Reading metadata for VNIR detector...
2026/06/17 17:01:27:   Calculating solar irradiance...
2026/06/17 17:01:27:   Reading metadata for SWIR detector...
2026/06/17 17:01:27:   Calculating solar irradiance...
2026/06/17 17:01:27:   Pre-processing user-provided DEM...
2026/06/17 17:01:28:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:01:28:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:01:28:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:01:28:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:01:28:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:01:28:   Computing VNIR geolayer...
2026/06/17 17:01:28:   Time for VNIR geolayer computation: 0.07 seconds
2026/06/17 17:01:28:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:01:28:   Computing SWIR geolayer...
2026/06/17 17:01:28:   Time for SWIR geolayer computation: 0.10 seconds
2026/06/17 17:01:28:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:01:28:   Correcting dead pixels of VNIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:01:28:   Percentage of defective pixels: 0.49
2026/06/17 17:01:28:   Percentage of pixels with a defect in any band: 35.60
2026/06/17 17:01:29:   Correcting dead pixels of SWIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:01:29:   Percentage of defective pixels: 0.50
2026/06/17 17:01:29:   Percentage of pixels with a defect in any band: 44.50
2026/06/17 17:01:29:   Transforming the 'mask_landwater' attribute from VNIR to SWIR sensor geometry.
2026/06/17 17:01:29:   Starting atmospheric correction for VNIR and SWIR detector in 'combined' mode. Source radiometric unit code is 'TOARad'.
2026/06/17 17:01:29:   SICOR AC configuration: 
{'processing': {'Exception': None,
                'Exception_type': '',
                'clear_fraction': None,
                'interface': {'args': (), 'kwargs': {}},
                'status': 1,
                'tIO': 0.0,
                'tRT': 0.0,
                'uncertainties': {}},
 'retrieval': {'cpu': 24,
               'default_aot_value': 0.192,
               'disable_progressbars': False,
               'fn_LUT': '',
               'inversion': {'eps': 0.01,
                             'full': False,
                             'gnform': 'n',
                             'maxiter': 35},
               'land_only': True,
               'n_pca': 5,
               'segmentation': True,
               'segs': 200,
               'smoothing_sigma': 50,
               'sol_model': 'fontenla',
               'state_vector': {'ice': {'ll': 0.001,
                                        'prior_mean': 0.02,
                                        'prior_sigma': 1000.0,
                                        'ul': 0.499,
                                        'use_prior_mean': False},
                                'intercept': {'ll': 0.001,
                                              'prior_mean': 0.3,
                                              'prior_sigma': 1000.0,
                                              'ul': 0.999,
                                              'use_prior_mean': False},
                                'liquid_water': {'ll': 0.001,
                                                 'prior_mean': 0.02,
                                                 'prior_sigma': 1000.0,
                                                 'ul': 0.499,
                                                 'use_prior_mean': False},
                                'slope': {'ll': -0.0004,
                                          'prior_mean': 0.0002,
                                          'prior_sigma': 1000.0,
                                          'ul': 0.0004,
                                          'use_prior_mean': False},
                                'water_vapor': {'ll': 0.001,
                                                'prior_mean': 2.5,
                                                'prior_sigma': 1000.0,
                                                'ul': 4.999,
                                                'use_prior_mean': False}},
               'unknowns': {'ice_absorption_coefficients': {'sigma': 2.39e-07},
                            'liquid_water_absorption_coefficients': {'sigma': 2.43e-07},
                            'skyview': {'sigma': 0.1},
                            'water_vapor_absorption_coefficients': {'sigma': 0.01}}},
 'sensor': {'fit': {'idx': [14,
                            15,
                            16,
                            17,
                            18,
                            19,
                            20,
                            21,
                            22,
                            23,
                            24,
                            25,
                            26,
                            27,
                            28,
                            29,
                            30,
                            31],
                    'snr': [322.94254006,
                            313.45752342,
                            313.32464722,
                            306.19455173,
                            281.35641378,
                            227.9759974,
                            157.22390595,
                            148.93620623,
                            154.40197388,
                            182.60431866,
                            232.89644996,
                            250.1244036,
                            252.2267179,
                            272.16592448,
                            299.71964816,
                            316.11909184,
                            326.33202741,
                            312.28461288]},
            'name': 'EnMAP',
            'resamp_alg': 'nearest'}}
2026/06/17 17:01:29:   Setting up forward operator...
2026/06/17 17:01:29:   SICOR is applied to land pixels only. This may result in edge effects, e.g., at coastlines...
2026/06/17 17:01:29:   Transforming VNIR data to SWIR sensor geometry to enable first guess retrievals for liquid water and ice...
2026/06/17 17:01:30:   Getting observation metadata...
2026/06/17 17:01:30:   Checking if observation metadata values are within LUT value ranges...
2026/06/17 17:01:30:   Loading solar irradiance model...
2026/06/17 17:01:30:   Loading RT LUT...
2026/06/17 17:01:30:   LUT file was properly downloaded and is available for AC!
2026/06/17 17:01:30:   Converting LUT to Fontenla solar model...
2026/06/17 17:01:31:   Resampling LUT to EnMAP wavelengths...
2026/06/17 17:01:33:   Reducing grid dimensionality of LUT to increase interpolation speed...
2026/06/17 17:01:33:   Calculating absorption coefficients of liquid water and ice...
2026/06/17 17:01:34:   Performing first guess water vapor retrieval based on a common band ratio using VNIR data...
2026/06/17 17:01:35:   Transforming CWV first guess map to SWIR sensor geometry to enable segmentation and 3 phases of water retrieval...
2026/06/17 17:01:35:   Performing first guess liquid water retrieval based on the NDWI...
2026/06/17 17:01:35:   Performing first guess ice retrieval based on the NDSI...
2026/06/17 17:01:35:   Calculating first guess for intercept and slope of absorption feature continuum...
2026/06/17 17:01:35:   Segmenting SWIR L1B spectra to enhance processing speed...
2026/06/17 17:01:35:   Preparing segmented SWIR L1B data cube...
2026/06/17 17:01:35:   Performing 3 phases of water retrieval...
2026/06/17 17:01:35:   Setting up multiprocessing...
2026/06/17 17:01:35:   Multiprocessing on 24 cpu's
2026/06/17 17:01:35:   Preparing optimal estimation input...
2026/06/17 17:01:35:   Optimization...
2026/06/17 17:01:37:   Done!
2026/06/17 17:01:37:   Runtime: 1.43 s
2026/06/17 17:01:37:   Smoothing segmented CWV retrieval map...
2026/06/17 17:01:37:   Transforming smoothed CWV retrieval map to VNIR sensor geometry to enable AC of VNIR data...
2026/06/17 17:01:37:   Starting surface reflectance retrieval...
2026/06/17 17:01:37:   Calculating surface reflectance for vnir detector...
2026/06/17 17:01:39:   Calculating surface reflectance for swir detector...
2026/06/17 17:01:40:   Smoothing segmented liquid water and ice maps...
2026/06/17 17:01:40:   SICOR atmospheric correction for EnMAP in combined mode successfully finished!
vnir
2026/06/17 17:01:52:   Running polymer...
Initializing ENMAP product of size (30, 1000)
2026/06/17 17:01:52:   Landmask is EnMAP L1B
Download 2017-02-18 11:00:00 -> /root/.cache/polymer/auxdata/ancillary/ERA5/2017/02/18/era5_20170218_110000.nc
Download 2017-02-18 12:00:00 -> /root/.cache/polymer/auxdata/ancillary/ERA5/2017/02/18/era5_20170218_120000.nc
Starting processing at 2026-06-17 17:02:40.924685
Processing block: size (30, 1000), offset (0, 0)
Done in 0:00:56.128709
2026/06/17 17:03:37:   Joining results of atmospheric correction.
2026/06/17 17:03:37:   Re-applying dead pixel correction to correct for spectral spikes due to fringe effect.
2026/06/17 17:03:37:   Correcting dead pixels of VNIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:37:   Percentage of defective pixels: 0.49
2026/06/17 17:03:37:   Percentage of pixels with a defect in any band: 35.60
2026/06/17 17:03:37:   Correcting dead pixels of SWIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:37:   Percentage of defective pixels: 0.50
2026/06/17 17:03:37:   Percentage of pixels with a defect in any band: 44.50
2026/06/17 17:03:37:   Starting orthorectification...
2026/06/17 17:03:37:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 32630): (637410.0, 4942680.0, 666180.0, 4949340.0)
2026/06/17 17:03:37:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:03:37:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:03:38:   Merging VNIR and SWIR data...
2026/06/17 17:03:38:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:03:38:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:03:38:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:03:39:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:03:39:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:03:39:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:03:39:   Orthorectifying 'sicor_cwv' attribute...
2026/06/17 17:03:39:   Orthorectifying 'sicor_liq' attribute...
2026/06/17 17:03:39:   Orthorectifying 'sicor_ice' attribute...
2026/06/17 17:03:40:   Orthorectifying 'polymer_logchl' attribute...
2026/06/17 17:03:40:   Orthorectifying 'polymer_logfb' attribute...
2026/06/17 17:03:40:   Orthorectifying 'polymer_rgli' attribute...
2026/06/17 17:03:40:   Orthorectifying 'polymer_rnir' attribute...
2026/06/17 17:03:40:   Orthorectifying 'polymer_bitmask' attribute...
2026/06/17 17:03:40:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:03:41:   Generating L2A metadata...
2026/06/17 17:03:41:   Pre-processing DEM to match EnMAP grid...
2026/06/17 17:03:41:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (222, 959, 202) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (222, 959, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.TIF.
Writing GeoArray of size (222, 959, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_CWV.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_LIQ.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_ICE.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_POLYMER_LOGCHL.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_POLYMER_LOGFB.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_POLYMER_RGLI.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_POLYMER_RNIR.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_POLYMER_BITMASK.TIF.
2026/06/17 17:03:42:   Writing metadata to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-METADATA.XML
2026/06/17 17:03:42:   L2A product successfully written!
2026/06/17 17:03:42:   Total runtime of the processing chain: 0:02:15.672447
Captured stderr call
2026/06/17 17:01:27:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.

	progress: |==========----------------------------------------| 19.5% Complete  => 0:00:00
	progress: |===========================-----------------------| 53.7% Complete  => 0:00:00
	progress: |==================================================| 100.0% Complete  => 0:00:00
2026/06/17 17:01:40:   VNIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
2026/06/17 17:01:40:   SWIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
(i) 17:01:41 Downloading:http://download.hygeos.com/POLYMER/auxdata/generic/LUT.hdf
(i) 17:01:41 To: /root/.cache/polymer/auxdata/static/generic/LUT.hdf
--2026-06-17 17:01:42--  http://download.hygeos.com/POLYMER/auxdata/generic/LUT.hdf
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:80... connected.
HTTP request sent, awaiting response... 301 Moved Permanently
Location: https://download.hygeos.com/POLYMER/auxdata/generic/LUT.hdf [following]
--2026-06-17 17:01:42--  https://download.hygeos.com/POLYMER/auxdata/generic/LUT.hdf
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 97540482 (93M) [application/x-hdf]
Saving to: ‘/tmp/tmp77worec7/LUT.hdf’

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  8700K .......... .......... .......... .......... ..........  9% 96.7M 3s
  8750K .......... .......... .......... .......... ..........  9% 95.2M 3s
  8800K .......... .......... .......... .......... ..........  9% 97.2M 3s
  8850K .......... .......... .......... .......... ..........  9%  103M 3s
  8900K .......... .......... .......... .......... ..........  9% 97.1M 3s
  8950K .......... .......... .......... .......... ..........  9% 73.3M 3s
  9000K .......... .......... .......... .......... ..........  9% 97.1M 3s
  9050K .......... .......... .......... .......... ..........  9% 96.9M 3s
  9100K .......... .......... .......... .......... ..........  9% 94.6M 3s
  9150K .......... .......... .......... .......... ..........  9% 97.6M 3s
  9200K .......... .......... .......... .......... ..........  9% 97.5M 3s
  9250K .......... .......... .......... .......... ..........  9%  100M 3s
  9300K .......... .......... .......... .......... ..........  9%  101M 2s
  9350K .......... .......... .......... .......... ..........  9% 75.0M 2s
  9400K .......... .......... .......... .......... ..........  9% 97.7M 2s
  9450K .......... .......... .......... .......... ..........  9% 98.8M 2s
  9500K .......... .......... .......... .......... .......... 10% 96.7M 2s
  9550K .......... .......... .......... .......... .......... 10% 97.3M 2s
  9600K .......... .......... .......... .......... .......... 10%  100M 2s
  9650K .......... .......... .......... .......... .......... 10% 97.6M 2s
  9700K .......... .......... .......... .......... .......... 10%  100M 2s
  9750K .......... .......... .......... .......... .......... 10% 78.8M 2s
  9800K .......... .......... .......... .......... .......... 10%  101M 2s
  9850K .......... .......... .......... .......... .......... 10% 95.4M 2s
  9900K .......... .......... .......... .......... .......... 10% 97.8M 2s
  9950K .......... .......... .......... .......... .......... 10%  101M 2s
 10000K .......... .......... .......... .......... .......... 10% 98.6M 2s
 10050K .......... .......... .......... .......... .......... 10% 97.7M 2s
 10100K .......... .......... .......... .......... .......... 10%  100M 2s
 10150K .......... .......... .......... .......... .......... 10% 76.4M 2s
 10200K .......... .......... .......... .......... .......... 10% 97.5M 2s
 10250K .......... .......... .......... .......... .......... 10% 98.5M 2s
 10300K .......... .......... .......... .......... .......... 10%  101M 2s
 10350K .......... .......... .......... .......... .......... 10%  101M 2s
 10400K .......... .......... .......... .......... .......... 10%  104M 2s
 10450K .......... .......... .......... .......... .......... 11%  101M 2s
 10500K .......... .......... .......... .......... .......... 11% 97.9M 2s
 10550K .......... .......... .......... .......... .......... 11% 74.3M 2s
 10600K .......... .......... .......... .......... .......... 11%  104M 2s
 10650K .......... .......... .......... .......... .......... 11%  102M 2s
 10700K .......... .......... .......... .......... .......... 11%  105M 2s
 10750K .......... .......... .......... .......... .......... 11%  101M 2s
 10800K .......... .......... .......... .......... .......... 11% 96.3M 2s
 10850K .......... .......... .......... .......... .......... 11%  102M 2s
 10900K .......... .......... .......... .......... .......... 11% 96.2M 2s
 10950K .......... .......... .......... .......... .......... 11% 73.4M 2s
 11000K .......... .......... .......... .......... .......... 11% 97.9M 2s
 11050K .......... .......... .......... .......... .......... 11% 88.8M 2s
 11100K .......... .......... .......... .......... .......... 11% 96.0M 2s
 11150K .......... .......... .......... .......... .......... 11% 99.6M 2s
 11200K .......... .......... .......... .......... .......... 11% 98.5M 2s
 11250K .......... .......... .......... .......... .......... 11%  100M 2s
 11300K .......... .......... .......... .......... .......... 11%  100M 2s
 11350K .......... .......... .......... .......... .......... 11% 77.0M 2s
 11400K .......... .......... .......... .......... .......... 12% 98.2M 2s
 11450K .......... .......... .......... .......... .......... 12% 96.7M 2s
 11500K .......... .......... .......... .......... .......... 12%  102M 2s
 11550K .......... .......... .......... .......... .......... 12%  104M 2s
 11600K .......... .......... .......... .......... .......... 12%  105M 2s
 11650K .......... .......... .......... .......... .......... 12%  100M 2s
 11700K .......... .......... .......... .......... .......... 12%  101M 2s
 11750K .......... .......... .......... .......... .......... 12% 73.8M 2s
 11800K .......... .......... .......... .......... .......... 12% 98.9M 2s
 11850K .......... .......... .......... .......... .......... 12% 96.7M 2s
 11900K .......... .......... .......... .......... .......... 12% 99.1M 2s
 11950K .......... .......... .......... .......... .......... 12% 94.5M 2s
 12000K .......... .......... .......... .......... .......... 12% 97.6M 2s
 12050K .......... .......... .......... .......... .......... 12%  101M 2s
 12100K .......... .......... .......... .......... .......... 12%  100M 2s
 12150K .......... .......... .......... .......... .......... 12% 74.8M 2s
 12200K .......... .......... .......... .......... .......... 12% 95.9M 2s
 12250K .......... .......... .......... .......... .......... 12%  101M 2s
 12300K .......... .......... .......... .......... .......... 12%  101M 2s
 12350K .......... .......... .......... .......... .......... 13%  101M 2s
 12400K .......... .......... .......... .......... .......... 13%  101M 2s
 12450K .......... .......... .......... .......... .......... 13% 97.4M 2s
 12500K .......... .......... .......... .......... .......... 13% 95.8M 2s
 12550K .......... .......... .......... .......... .......... 13% 74.7M 2s
 12600K .......... .......... .......... .......... .......... 13% 95.0M 2s
 12650K .......... .......... .......... .......... .......... 13% 96.4M 2s
 12700K .......... .......... .......... .......... .......... 13%  101M 2s
 12750K .......... .......... .......... .......... .......... 13%  104M 2s
 12800K .......... .......... .......... .......... .......... 13% 97.6M 2s
 12850K .......... .......... .......... .......... .......... 13%  101M 2s
 12900K .......... .......... .......... .......... .......... 13% 99.8M 2s
 12950K .......... .......... .......... .......... .......... 13% 76.6M 2s
 13000K .......... .......... .......... .......... .......... 13% 95.2M 2s
 13050K .......... .......... .......... .......... .......... 13% 99.8M 2s
 13100K .......... .......... .......... .......... .......... 13% 97.2M 2s
 13150K .......... .......... .......... .......... .......... 13% 99.5M 2s
 13200K .......... .......... .......... .......... .......... 13%  104M 2s
 13250K .......... .......... .......... .......... .......... 13%  104M 2s
 13300K .......... .......... .......... .......... .......... 14%  102M 2s
 13350K .......... .......... .......... .......... .......... 14% 75.4M 2s
 13400K .......... .......... .......... .......... .......... 14% 89.3M 2s
 13450K .......... .......... .......... .......... .......... 14%  104M 2s
 13500K .......... .......... .......... .......... .......... 14% 97.8M 2s
 13550K .......... .......... .......... .......... .......... 14% 99.5M 2s
 13600K .......... .......... .......... .......... .......... 14%  105M 2s
 13650K .......... .......... .......... .......... .......... 14%  100M 2s
 13700K .......... .......... .......... .......... .......... 14%  104M 2s
 13750K .......... .......... .......... .......... .......... 14% 72.7M 2s
 13800K .......... .......... .......... .......... .......... 14% 99.8M 2s
 13850K .......... .......... .......... .......... .......... 14% 97.5M 2s
 13900K .......... .......... .......... .......... .......... 14% 99.7M 2s
 13950K .......... .......... .......... .......... .......... 14%  101M 2s
 14000K .......... .......... .......... .......... .......... 14%  101M 2s
 14050K .......... .......... .......... .......... .......... 14% 96.8M 2s
 14100K .......... .......... .......... .......... .......... 14% 97.4M 2s
 14150K .......... .......... .......... .......... .......... 14% 76.6M 2s
 14200K .......... .......... .......... .......... .......... 14% 98.3M 2s
 14250K .......... .......... .......... .......... .......... 15% 97.6M 2s
 14300K .......... .......... .......... .......... .......... 15%  103M 2s
 14350K .......... .......... .......... .......... .......... 15%  101M 2s
 14400K .......... .......... .......... .......... .......... 15% 96.4M 2s
 14450K .......... .......... .......... .......... .......... 15% 96.5M 2s
 14500K .......... .......... .......... .......... .......... 15% 97.6M 2s
 14550K .......... .......... .......... .......... .......... 15% 73.9M 2s
 14600K .......... .......... .......... .......... .......... 15%  101M 2s
 14650K .......... .......... .......... .......... .......... 15% 99.4M 2s
 14700K .......... .......... .......... .......... .......... 15% 96.6M 2s
 14750K .......... .......... .......... .......... .......... 15%  101M 2s
 14800K .......... .......... .......... .......... .......... 15%  104M 2s
 14850K .......... .......... .......... .......... .......... 15%  101M 2s
 14900K .......... .......... .......... .......... .......... 15% 99.3M 2s
 14950K .......... .......... .......... .......... .......... 15% 75.5M 2s
 15000K .......... .......... .......... .......... .......... 15%  101M 2s
 15050K .......... .......... .......... .......... .......... 15% 97.7M 2s
 15100K .......... .......... .......... .......... .......... 15% 97.1M 2s
 15150K .......... .......... .......... .......... .......... 15%  100M 2s
 15200K .......... .......... .......... .......... .......... 16%  105M 2s
 15250K .......... .......... .......... .......... .......... 16%  100M 2s
 15300K .......... .......... .......... .......... .......... 16% 97.7M 2s
 15350K .......... .......... .......... .......... .......... 16% 73.9M 2s
 15400K .......... .......... .......... .......... .......... 16% 96.4M 2s
 15450K .......... .......... .......... .......... .......... 16%  101M 2s
 15500K .......... .......... .......... .......... .......... 16%  101M 2s
 15550K .......... .......... .......... .......... .......... 16%  104M 2s
 15600K .......... .......... .......... .......... .......... 16%  100M 2s
 15650K .......... .......... .......... .......... .......... 16% 97.5M 2s
 15700K .......... .......... .......... .......... .......... 16% 93.2M 2s
 15750K .......... .......... .......... .......... .......... 16% 73.2M 2s
 15800K .......... .......... .......... .......... .......... 16%  101M 2s
 15850K .......... .......... .......... .......... .......... 16%  100M 2s
 15900K .......... .......... .......... .......... .......... 16% 99.6M 2s
 15950K .......... .......... .......... .......... .......... 16%  101M 2s
 16000K .......... .......... .......... .......... .......... 16%  100M 2s
 16050K .......... .......... .......... .......... .......... 16%  104M 2s
 16100K .......... .......... .......... .......... .......... 16%  100M 2s
 16150K .......... .......... .......... .......... .......... 17% 71.4M 2s
 16200K .......... .......... .......... .......... .......... 17% 99.9M 2s
 16250K .......... .......... .......... .......... .......... 17%  104M 2s
 16300K .......... .......... .......... .......... .......... 17% 97.6M 2s
 16350K .......... .......... .......... .......... .......... 17%  104M 2s
 16400K .......... .......... .......... .......... .......... 17% 99.4M 2s
 16450K .......... .......... .......... .......... .......... 17% 97.3M 2s
 16500K .......... .......... .......... .......... .......... 17% 98.6M 2s
 16550K .......... .......... .......... .......... .......... 17% 75.9M 2s
 16600K .......... .......... .......... .......... .......... 17% 97.5M 2s
 16650K .......... .......... .......... .......... .......... 17% 95.9M 2s
 16700K .......... .......... .......... .......... .......... 17%  100M 2s
 16750K .......... .......... .......... .......... .......... 17% 97.4M 2s
 16800K .......... .......... .......... .......... .......... 17%  102M 2s
 16850K .......... .......... .......... .......... .......... 17%  104M 2s
 16900K .......... .......... .......... .......... .......... 17% 88.1M 2s
 16950K .......... .......... .......... .......... .......... 17% 77.5M 2s
 17000K .......... .......... .......... .......... .......... 17% 97.2M 2s
 17050K .......... .......... .......... .......... .......... 17% 99.8M 2s
 17100K .......... .......... .......... .......... .......... 18%  100M 2s
 17150K .......... .......... .......... .......... .......... 18% 99.7M 2s
 17200K .......... .......... .......... .......... .......... 18%  101M 2s
 17250K .......... .......... .......... .......... .......... 18%  103M 2s
 17300K .......... .......... .......... .......... .......... 18% 98.6M 2s
 17350K .......... .......... .......... .......... .......... 18% 73.0M 2s
 17400K .......... .......... .......... .......... .......... 18% 95.9M 2s
 17450K .......... .......... .......... .......... .......... 18% 99.8M 2s
 17500K .......... .......... .......... .......... .......... 18% 99.9M 2s
 17550K .......... .......... .......... .......... .......... 18%  105M 2s
 17600K .......... .......... .......... .......... .......... 18%  103M 2s
 17650K .......... .......... .......... .......... .......... 18%  101M 2s
 17700K .......... .......... .......... .......... .......... 18% 93.3M 2s
 17750K .......... .......... .......... .......... .......... 18% 74.9M 2s
 17800K .......... .......... .......... .......... .......... 18%  104M 2s
 17850K .......... .......... .......... .......... .......... 18%  100M 2s
 17900K .......... .......... .......... .......... .......... 18% 96.4M 2s
 17950K .......... .......... .......... .......... .......... 18%  104M 2s
 18000K .......... .......... .......... .......... .......... 18%  101M 2s
 18050K .......... .......... .......... .......... .......... 19%  100M 2s
 18100K .......... .......... .......... .......... .......... 19%  101M 2s
 18150K .......... .......... .......... .......... .......... 19% 75.9M 2s
 18200K .......... .......... .......... .......... .......... 19%  101M 2s
 18250K .......... .......... .......... .......... .......... 19%  100M 2s
 18300K .......... .......... .......... .......... .......... 19%  100M 2s
 18350K .......... .......... .......... .......... .......... 19%  104M 2s
 18400K .......... .......... .......... .......... .......... 19% 99.8M 2s
 18450K .......... .......... .......... .......... .......... 19%  100M 2s
 18500K .......... .......... .......... .......... .......... 19% 94.7M 2s
 18550K .......... .......... .......... .......... .......... 19% 76.2M 2s
 18600K .......... .......... .......... .......... .......... 19% 97.0M 2s
 18650K .......... .......... .......... .......... .......... 19% 96.2M 2s
 18700K .......... .......... .......... .......... .......... 19% 96.7M 1s
 18750K .......... .......... .......... .......... .......... 19%  105M 1s
 18800K .......... .......... .......... .......... .......... 19%  100M 1s
 18850K .......... .......... .......... .......... .......... 19% 99.5M 1s
 18900K .......... .......... .......... .......... .......... 19% 99.2M 1s
 18950K .......... .......... .......... .......... .......... 19% 75.8M 1s
 19000K .......... .......... .......... .......... .......... 19%  101M 1s
 19050K .......... .......... .......... .......... .......... 20% 97.9M 1s
 19100K .......... .......... .......... .......... .......... 20% 99.6M 1s
 19150K .......... .......... .......... .......... .......... 20%  101M 1s
 19200K .......... .......... .......... .......... .......... 20% 99.7M 1s
 19250K .......... .......... .......... .......... .......... 20% 89.8M 1s
 19300K .......... .......... .......... .......... .......... 20%  104M 1s
 19350K .......... .......... .......... .......... .......... 20% 73.0M 1s
 19400K .......... .......... .......... .......... .......... 20% 97.5M 1s
 19450K .......... .......... .......... .......... .......... 20%  102M 1s
 19500K .......... .......... .......... .......... .......... 20% 99.7M 1s
 19550K .......... .......... .......... .......... .......... 20%  102M 1s
 19600K .......... .......... .......... .......... .......... 20% 97.2M 1s
 19650K .......... .......... .......... .......... .......... 20%  102M 1s
 19700K .......... .......... .......... .......... .......... 20%  103M 1s
 19750K .......... .......... .......... .......... .......... 20% 73.7M 1s
 19800K .......... .......... .......... .......... .......... 20% 97.0M 1s
 19850K .......... .......... .......... .......... .......... 20%  103M 1s
 19900K .......... .......... .......... .......... .......... 20%  101M 1s
 19950K .......... .......... .......... .......... .......... 20% 97.5M 1s
 20000K .......... .......... .......... .......... .......... 21%  101M 1s
 20050K .......... .......... .......... .......... .......... 21% 95.4M 1s
 20100K .......... .......... .......... .......... .......... 21%  101M 1s
 20150K .......... .......... .......... .......... .......... 21% 74.7M 1s
 20200K .......... .......... .......... .......... .......... 21%  103M 1s
 20250K .......... .......... .......... .......... .......... 21%  103M 1s
 20300K .......... .......... .......... .......... .......... 21% 82.9M 1s
 20350K .......... .......... .......... .......... .......... 21% 82.3M 1s
 20400K .......... .......... .......... .......... .......... 21% 91.7M 1s
 20450K .......... .......... .......... .......... .......... 21% 91.9M 1s
 20500K .......... .......... .......... .......... .......... 21% 97.0M 1s
 20550K .......... .......... .......... .......... .......... 21% 74.3M 1s
 20600K .......... .......... .......... .......... .......... 21% 98.0M 1s
 20650K .......... .......... .......... .......... .......... 21% 99.7M 1s
 20700K .......... .......... .......... .......... .......... 21% 99.6M 1s
 20750K .......... .......... .......... .......... .......... 21% 97.8M 1s
 20800K .......... .......... .......... .......... .......... 21% 94.6M 1s
 20850K .......... .......... .......... .......... .......... 21%  104M 1s
 20900K .......... .......... .......... .......... .......... 21%  103M 1s
 20950K .......... .......... .......... .......... .......... 22% 74.4M 1s
 21000K .......... .......... .......... .......... .......... 22% 96.9M 1s
 21050K .......... .......... .......... .......... .......... 22% 96.7M 1s
 21100K .......... .......... .......... .......... .......... 22%  101M 1s
 21150K .......... .......... .......... .......... .......... 22%  101M 1s
 21200K .......... .......... .......... .......... .......... 22% 99.9M 1s
 21250K .......... .......... .......... .......... .......... 22%  104M 1s
 21300K .......... .......... .......... .......... .......... 22% 98.0M 1s
 21350K .......... .......... .......... .......... .......... 22% 72.6M 1s
 21400K .......... .......... .......... .......... .......... 22% 97.5M 1s
 21450K .......... .......... .......... .......... .......... 22%  102M 1s
 21500K .......... .......... .......... .......... .......... 22%  100M 1s
 21550K .......... .......... .......... .......... .......... 22% 94.6M 1s
 21600K .......... .......... .......... .......... .......... 22% 94.3M 1s
 21650K .......... .......... .......... .......... .......... 22% 96.8M 1s
 21700K .......... .......... .......... .......... .......... 22% 99.2M 1s
 21750K .......... .......... .......... .......... .......... 22% 76.3M 1s
 21800K .......... .......... .......... .......... .......... 22%  101M 1s
 21850K .......... .......... .......... .......... .......... 22% 97.3M 1s
 21900K .......... .......... .......... .......... .......... 23%  100M 1s
 21950K .......... .......... .......... .......... .......... 23% 97.8M 1s
 22000K .......... .......... .......... .......... .......... 23%  102M 1s
 22050K .......... .......... .......... .......... .......... 23%  105M 1s
 22100K .......... .......... .......... .......... .......... 23%  100M 1s
 22150K .......... .......... .......... .......... .......... 23% 74.3M 1s
 22200K .......... .......... .......... .......... .......... 23% 98.4M 1s
 22250K .......... .......... .......... .......... .......... 23% 97.2M 1s
 22300K .......... .......... .......... .......... .......... 23% 99.3M 1s
 22350K .......... .......... .......... .......... .......... 23% 96.3M 1s
 22400K .......... .......... .......... .......... .......... 23% 99.5M 1s
 22450K .......... .......... .......... .......... .......... 23% 96.5M 1s
 22500K .......... .......... .......... .......... .......... 23%  100M 1s
 22550K .......... .......... .......... .......... .......... 23% 78.1M 1s
 22600K .......... .......... .......... .......... .......... 23%  100M 1s
 22650K .......... .......... .......... .......... .......... 23% 97.1M 1s
 22700K .......... .......... .......... .......... .......... 23% 99.0M 1s
 22750K .......... .......... .......... .......... .......... 23%  100M 1s
 22800K .......... .......... .......... .......... .......... 23% 96.6M 1s
 22850K .......... .......... .......... .......... .......... 24% 97.5M 1s
 22900K .......... .......... .......... .......... .......... 24%  104M 1s
 22950K .......... .......... .......... .......... .......... 24% 73.5M 1s
 23000K .......... .......... .......... .......... .......... 24%  100M 1s
 23050K .......... .......... .......... .......... .......... 24%  100M 1s
 23100K .......... .......... .......... .......... .......... 24%  104M 1s
 23150K .......... .......... .......... .......... .......... 24% 96.0M 1s
 23200K .......... .......... .......... .......... .......... 24%  100M 1s
 23250K .......... .......... .......... .......... .......... 24% 99.7M 1s
 23300K .......... .......... .......... .......... .......... 24% 99.4M 1s
 23350K .......... .......... .......... .......... .......... 24% 78.6M 1s
 23400K .......... .......... .......... .......... .......... 24% 97.0M 1s
 23450K .......... .......... .......... .......... .......... 24%  103M 1s
 23500K .......... .......... .......... .......... .......... 24% 99.9M 1s
 23550K .......... .......... .......... .......... .......... 24% 95.3M 1s
 23600K .......... .......... .......... .......... .......... 24% 97.4M 1s
 23650K .......... .......... .......... .......... .......... 24% 99.9M 1s
 23700K .......... .......... .......... .......... .......... 24% 96.2M 1s
 23750K .......... .......... .......... .......... .......... 24% 76.7M 1s
 23800K .......... .......... .......... .......... .......... 25%  101M 1s
 23850K .......... .......... .......... .......... .......... 25% 99.6M 1s
 23900K .......... .......... .......... .......... .......... 25% 98.1M 1s
 23950K .......... .......... .......... .......... .......... 25%  102M 1s
 24000K .......... .......... .......... .......... .......... 25%  100M 1s
 24050K .......... .......... .......... .......... .......... 25%  101M 1s
 24100K .......... .......... .......... .......... .......... 25%  100M 1s
 24150K .......... .......... .......... .......... .......... 25% 72.9M 1s
 24200K .......... .......... .......... .......... .......... 25% 99.3M 1s
 24250K .......... .......... .......... .......... .......... 25%  104M 1s
 24300K .......... .......... .......... .......... .......... 25% 97.1M 1s
 24350K .......... .......... .......... .......... .......... 25%  100M 1s
 24400K .......... .......... .......... .......... .......... 25%  100M 1s
 24450K .......... .......... .......... .......... .......... 25% 99.9M 1s
 24500K .......... .......... .......... .......... .......... 25% 96.0M 1s
 24550K .......... .......... .......... .......... .......... 25% 78.5M 1s
 24600K .......... .......... .......... .......... .......... 25%  104M 1s
 24650K .......... .......... .......... .......... .......... 25% 97.8M 1s
 24700K .......... .......... .......... .......... .......... 25% 97.0M 1s
 24750K .......... .......... .......... .......... .......... 26% 99.8M 1s
 24800K .......... .......... .......... .......... .......... 26% 90.8M 1s
 24850K .......... .......... .......... .......... .......... 26% 73.6M 1s
 24900K .......... .......... .......... .......... .......... 26%  103M 1s
 24950K .......... .......... .......... .......... .......... 26% 76.1M 1s
 25000K .......... .......... .......... .......... .......... 26%  100M 1s
 25050K .......... .......... .......... .......... .......... 26%  103M 1s
 25100K .......... .......... .......... .......... .......... 26% 92.9M 1s
 25150K .......... .......... .......... .......... .......... 26% 97.6M 1s
 25200K .......... .......... .......... .......... .......... 26% 97.2M 1s
 25250K .......... .......... .......... .......... .......... 26% 99.3M 1s
 25300K .......... .......... .......... .......... .......... 26%  100M 1s
 25350K .......... .......... .......... .......... .......... 26% 76.4M 1s
 25400K .......... .......... .......... .......... .......... 26%  105M 1s
 25450K .......... .......... .......... .......... .......... 26% 91.1M 1s
 25500K .......... .......... .......... .......... .......... 26% 99.6M 1s
 25550K .......... .......... .......... .......... .......... 26% 96.5M 1s
 25600K .......... .......... .......... .......... .......... 26%  104M 1s
 25650K .......... .......... .......... .......... .......... 26% 97.6M 1s
 25700K .......... .......... .......... .......... .......... 27% 96.9M 1s
 25750K .......... .......... .......... .......... .......... 27% 74.4M 1s
 25800K .......... .......... .......... .......... .......... 27% 91.4M 1s
 25850K .......... .......... .......... .......... .......... 27% 93.5M 1s
 25900K .......... .......... .......... .......... .......... 27% 86.6M 1s
 25950K .......... .......... .......... .......... .......... 27%  104M 1s
 26000K .......... .......... .......... .......... .......... 27% 99.1M 1s
 26050K .......... .......... .......... .......... .......... 27% 97.1M 1s
 26100K .......... .......... .......... .......... .......... 27% 96.0M 1s
 26150K .......... .......... .......... .......... .......... 27% 74.9M 1s
 26200K .......... .......... .......... .......... .......... 27% 93.4M 1s
 26250K .......... .......... .......... .......... .......... 27% 95.3M 1s
 26300K .......... .......... .......... .......... .......... 27% 99.7M 1s
 26350K .......... .......... .......... .......... .......... 27%  101M 1s
 26400K .......... .......... .......... .......... .......... 27% 99.8M 1s
 26450K .......... .......... .......... .......... .......... 27%  101M 1s
 26500K .......... .......... .......... .......... .......... 27% 94.8M 1s
 26550K .......... .......... .......... .......... .......... 27% 76.1M 1s
 26600K .......... .......... .......... .......... .......... 27% 99.3M 1s
 26650K .......... .......... .......... .......... .......... 28% 99.8M 1s
 26700K .......... .......... .......... .......... .......... 28% 99.1M 1s
 26750K .......... .......... .......... .......... .......... 28% 99.6M 1s
 26800K .......... .......... .......... .......... .......... 28%  103M 1s
 26850K .......... .......... .......... .......... .......... 28%  100M 1s
 26900K .......... .......... .......... .......... .......... 28%  102M 1s
 26950K .......... .......... .......... .......... .......... 28% 76.2M 1s
 27000K .......... .......... .......... .......... .......... 28% 97.2M 1s
 27050K .......... .......... .......... .......... .......... 28%  101M 1s
 27100K .......... .......... .......... .......... .......... 28%  103M 1s
 27150K .......... .......... .......... .......... .......... 28%  101M 1s
 27200K .......... .......... .......... .......... .......... 28%  100M 1s
 27250K .......... .......... .......... .......... .......... 28% 96.4M 1s
 27300K .......... .......... .......... .......... .......... 28% 99.8M 1s
 27350K .......... .......... .......... .......... .......... 28% 73.0M 1s
 27400K .......... .......... .......... .......... .......... 28% 94.9M 1s
 27450K .......... .......... .......... .......... .......... 28%  103M 1s
 27500K .......... .......... .......... .......... .......... 28%  101M 1s
 27550K .......... .......... .......... .......... .......... 28%  105M 1s
 27600K .......... .......... .......... .......... .......... 29%  101M 1s
 27650K .......... .......... .......... .......... .......... 29% 97.8M 1s
 27700K .......... .......... .......... .......... .......... 29% 99.5M 1s
 27750K .......... .......... .......... .......... .......... 29% 73.6M 1s
 27800K .......... .......... .......... .......... .......... 29% 98.4M 1s
 27850K .......... .......... .......... .......... .......... 29% 97.7M 1s
 27900K .......... .......... .......... .......... .......... 29%  101M 1s
 27950K .......... .......... .......... .......... .......... 29%  100M 1s
 28000K .......... .......... .......... .......... .......... 29%  104M 1s
 28050K .......... .......... .......... .......... .......... 29%  101M 1s
 28100K .......... .......... .......... .......... .......... 29%  100M 1s
 28150K .......... .......... .......... .......... .......... 29% 75.1M 1s
 28200K .......... .......... .......... .......... .......... 29% 98.3M 1s
 28250K .......... .......... .......... .......... .......... 29% 99.6M 1s
 28300K .......... .......... .......... .......... .......... 29%  100M 1s
 28350K .......... .......... .......... .......... .......... 29%  100M 1s
 28400K .......... .......... .......... .......... .......... 29%  104M 1s
 28450K .......... .......... .......... .......... .......... 29% 97.6M 1s
 28500K .......... .......... .......... .......... .......... 29%  103M 1s
 28550K .......... .......... .......... .......... .......... 30% 76.5M 1s
 28600K .......... .......... .......... .......... .......... 30% 89.6M 1s
 28650K .......... .......... .......... .......... .......... 30% 97.4M 1s
 28700K .......... .......... .......... .......... .......... 30%  100M 1s
 28750K .......... .......... .......... .......... .......... 30%  104M 1s
 28800K .......... .......... .......... .......... .......... 30%  104M 1s
 28850K .......... .......... .......... .......... .......... 30%  101M 1s
 28900K .......... .......... .......... .......... .......... 30%  100M 1s
 28950K .......... .......... .......... .......... .......... 30% 75.9M 1s
 29000K .......... .......... .......... .......... .......... 30% 96.3M 1s
 29050K .......... .......... .......... .......... .......... 30%  105M 1s
 29100K .......... .......... .......... .......... .......... 30%  101M 1s
 29150K .......... .......... .......... .......... .......... 30% 98.4M 1s
 29200K .......... .......... .......... .......... .......... 30% 96.8M 1s
 29250K .......... .......... .......... .......... .......... 30%  103M 1s
 29300K .......... .......... .......... .......... .......... 30% 97.8M 1s
 29350K .......... .......... .......... .......... .......... 30% 71.8M 1s
 29400K .......... .......... .......... .......... .......... 30% 99.1M 1s
 29450K .......... .......... .......... .......... .......... 30% 97.9M 1s
 29500K .......... .......... .......... .......... .......... 31% 96.7M 1s
 29550K .......... .......... .......... .......... .......... 31%  100M 1s
 29600K .......... .......... .......... .......... .......... 31%  101M 1s
 29650K .......... .......... .......... .......... .......... 31%  105M 1s
 29700K .......... .......... .......... .......... .......... 31% 98.1M 1s
 29750K .......... .......... .......... .......... .......... 31% 73.0M 1s
 29800K .......... .......... .......... .......... .......... 31% 99.4M 1s
 29850K .......... .......... .......... .......... .......... 31% 95.6M 1s
 29900K .......... .......... .......... .......... .......... 31% 99.2M 1s
 29950K .......... .......... .......... .......... .......... 31%  101M 1s
 30000K .......... .......... .......... .......... .......... 31% 97.2M 1s
 30050K .......... .......... .......... .......... .......... 31%  103M 1s
 30100K .......... .......... .......... .......... .......... 31%  101M 1s
 30150K .......... .......... .......... .......... .......... 31% 73.2M 1s
 30200K .......... .......... .......... .......... .......... 31%  104M 1s
 30250K .......... .......... .......... .......... .......... 31%  101M 1s
 30300K .......... .......... .......... .......... .......... 31%  100M 1s
 30350K .......... .......... .......... .......... .......... 31%  104M 1s
 30400K .......... .......... .......... .......... .......... 31%  104M 1s
 30450K .......... .......... .......... .......... .......... 32%  100M 1s
 30500K .......... .......... .......... .......... .......... 32%  100M 1s
 30550K .......... .......... .......... .......... .......... 32% 73.9M 1s
 30600K .......... .......... .......... .......... .......... 32% 86.8M 1s
 30650K .......... .......... .......... .......... .......... 32% 89.6M 1s
 30700K .......... .......... .......... .......... .......... 32% 92.5M 1s
 30750K .......... .......... .......... .......... .......... 32% 89.1M 1s
 30800K .......... .......... .......... .......... .......... 32% 92.8M 1s
 30850K .......... .......... .......... .......... .......... 32% 97.5M 1s
 30900K .......... .......... .......... .......... .......... 32% 95.6M 1s
 30950K .......... .......... .......... .......... .......... 32% 71.3M 1s
 31000K .......... .......... .......... .......... .......... 32%  103M 1s
 31050K .......... .......... .......... .......... .......... 32% 98.4M 1s
 31100K .......... .......... .......... .......... .......... 32% 98.5M 1s
 31150K .......... .......... .......... .......... .......... 32% 97.7M 1s
 31200K .......... .......... .......... .......... .......... 32%  100M 1s
 31250K .......... .......... .......... .......... .......... 32% 99.2M 1s
 31300K .......... .......... .......... .......... .......... 32% 97.3M 1s
 31350K .......... .......... .......... .......... .......... 32% 73.2M 1s
 31400K .......... .......... .......... .......... .......... 33%  101M 1s
 31450K .......... .......... .......... .......... .......... 33% 96.9M 1s
 31500K .......... .......... .......... .......... .......... 33% 96.7M 1s
 31550K .......... .......... .......... .......... .......... 33% 99.6M 1s
 31600K .......... .......... .......... .......... .......... 33%  104M 1s
 31650K .......... .......... .......... .......... .......... 33% 97.5M 1s
 31700K .......... .......... .......... .......... .......... 33% 93.8M 1s
 31750K .......... .......... .......... .......... .......... 33% 75.3M 1s
 31800K .......... .......... .......... .......... .......... 33% 99.5M 1s
 31850K .......... .......... .......... .......... .......... 33% 98.9M 1s
 31900K .......... .......... .......... .......... .......... 33%  104M 1s
 31950K .......... .......... .......... .......... .......... 33%  100M 1s
 32000K .......... .......... .......... .......... .......... 33% 96.7M 1s
 32050K .......... .......... .......... .......... .......... 33% 97.4M 1s
 32100K .......... .......... .......... .......... .......... 33% 90.7M 1s
 32150K .......... .......... .......... .......... .......... 33% 75.6M 1s
 32200K .......... .......... .......... .......... .......... 33% 97.9M 1s
 32250K .......... .......... .......... .......... .......... 33% 99.4M 1s
 32300K .......... .......... .......... .......... .......... 33%  104M 1s
 32350K .......... .......... .......... .......... .......... 34%  102M 1s
 32400K .......... .......... .......... .......... .......... 34%  104M 1s
 32450K .......... .......... .......... .......... .......... 34% 99.2M 1s
 32500K .......... .......... .......... .......... .......... 34% 94.0M 1s
 32550K .......... .......... .......... .......... .......... 34% 77.9M 1s
 32600K .......... .......... .......... .......... .......... 34%  101M 1s
 32650K .......... .......... .......... .......... .......... 34% 98.1M 1s
 32700K .......... .......... .......... .......... .......... 34%  100M 1s
 32750K .......... .......... .......... .......... .......... 34%  101M 1s
 32800K .......... .......... .......... .......... .......... 34% 94.9M 1s
 32850K .......... .......... .......... .......... .......... 34% 93.6M 1s
 32900K .......... .......... .......... .......... .......... 34% 99.4M 1s
 32950K .......... .......... .......... .......... .......... 34% 74.6M 1s
 33000K .......... .......... .......... .......... .......... 34% 99.2M 1s
 33050K .......... .......... .......... .......... .......... 34% 94.2M 1s
 33100K .......... .......... .......... .......... .......... 34%  104M 1s
 33150K .......... .......... .......... .......... .......... 34% 97.5M 1s
 33200K .......... .......... .......... .......... .......... 34% 97.2M 1s
 33250K .......... .......... .......... .......... .......... 34% 99.4M 1s
 33300K .......... .......... .......... .......... .......... 35% 95.9M 1s
 33350K .......... .......... .......... .......... .......... 35% 76.5M 1s
 33400K .......... .......... .......... .......... .......... 35%  104M 1s
 33450K .......... .......... .......... .......... .......... 35% 99.5M 1s
 33500K .......... .......... .......... .......... .......... 35%  100M 1s
 33550K .......... .......... .......... .......... .......... 35%  104M 1s
 33600K .......... .......... .......... .......... .......... 35%  105M 1s
 33650K .......... .......... .......... .......... .......... 35% 95.2M 1s
 33700K .......... .......... .......... .......... .......... 35%  100M 1s
 33750K .......... .......... .......... .......... .......... 35% 75.9M 1s
 33800K .......... .......... .......... .......... .......... 35% 95.0M 1s
 33850K .......... .......... .......... .......... .......... 35% 97.9M 1s
 33900K .......... .......... .......... .......... .......... 35%  100M 1s
 33950K .......... .......... .......... .......... .......... 35%  104M 1s
 34000K .......... .......... .......... .......... .......... 35%  101M 1s
 34050K .......... .......... .......... .......... .......... 35% 95.2M 1s
 34100K .......... .......... .......... .......... .......... 35% 97.3M 1s
 34150K .......... .......... .......... .......... .......... 35% 75.2M 1s
 34200K .......... .......... .......... .......... .......... 35%  101M 1s
 34250K .......... .......... .......... .......... .......... 36% 95.8M 1s
 34300K .......... .......... .......... .......... .......... 36%  102M 1s
 34350K .......... .......... .......... .......... .......... 36%  101M 1s
 34400K .......... .......... .......... .......... .......... 36% 94.4M 1s
 34450K .......... .......... .......... .......... .......... 36% 95.9M 1s
 34500K .......... .......... .......... .......... .......... 36%  100M 1s
 34550K .......... .......... .......... .......... .......... 36% 74.6M 1s
 34600K .......... .......... .......... .......... .......... 36%  104M 1s
 34650K .......... .......... .......... .......... .......... 36% 97.7M 1s
 34700K .......... .......... .......... .......... .......... 36%  101M 1s
 34750K .......... .......... .......... .......... .......... 36%  101M 1s
 34800K .......... .......... .......... .......... .......... 36% 97.6M 1s
 34850K .......... .......... .......... .......... .......... 36%  104M 1s
 34900K .......... .......... .......... .......... .......... 36%  101M 1s
 34950K .......... .......... .......... .......... .......... 36% 76.9M 1s
 35000K .......... .......... .......... .......... .......... 36%  101M 1s
 35050K .......... .......... .......... .......... .......... 36% 96.2M 1s
 35100K .......... .......... .......... .......... .......... 36% 97.4M 1s
 35150K .......... .......... .......... .......... .......... 36%  105M 1s
 35200K .......... .......... .......... .......... .......... 37% 96.8M 1s
 35250K .......... .......... .......... .......... .......... 37% 97.6M 1s
 35300K .......... .......... .......... .......... .......... 37%  103M 1s
 35350K .......... .......... .......... .......... .......... 37% 77.3M 1s
 35400K .......... .......... .......... .......... .......... 37%  101M 1s
 35450K .......... .......... .......... .......... .......... 37%  103M 1s
 35500K .......... .......... .......... .......... .......... 37%  105M 1s
 35550K .......... .......... .......... .......... .......... 37% 96.6M 1s
 35600K .......... .......... .......... .......... .......... 37% 96.4M 1s
 35650K .......... .......... .......... .......... .......... 37% 94.4M 1s
 35700K .......... .......... .......... .......... .......... 37% 99.8M 1s
 35750K .......... .......... .......... .......... .......... 37% 76.5M 1s
 35800K .......... .......... .......... .......... .......... 37% 96.9M 1s
 35850K .......... .......... .......... .......... .......... 37% 96.9M 1s
 35900K .......... .......... .......... .......... .......... 37%  101M 1s
 35950K .......... .......... .......... .......... .......... 37%  101M 1s
 36000K .......... .......... .......... .......... .......... 37% 97.8M 1s
 36050K .......... .......... .......... .......... .......... 37% 99.0M 1s
 36100K .......... .......... .......... .......... .......... 37% 97.1M 1s
 36150K .......... .......... .......... .......... .......... 38% 79.0M 1s
 36200K .......... .......... .......... .......... .......... 38% 97.5M 1s
 36250K .......... .......... .......... .......... .......... 38% 96.2M 1s
 36300K .......... .......... .......... .......... .......... 38%  101M 1s
 36350K .......... .......... .......... .......... .......... 38%  105M 1s
 36400K .......... .......... .......... .......... .......... 38% 92.4M 1s
 36450K .......... .......... .......... .......... .......... 38% 96.6M 1s
 36500K .......... .......... .......... .......... .......... 38% 97.5M 1s
 36550K .......... .......... .......... .......... .......... 38% 74.7M 1s
 36600K .......... .......... .......... .......... .......... 38%  104M 1s
 36650K .......... .......... .......... .......... .......... 38%  100M 1s
 36700K .......... .......... .......... .......... .......... 38%  100M 1s
 36750K .......... .......... .......... .......... .......... 38% 97.6M 1s
 36800K .......... .......... .......... .......... .......... 38% 99.1M 1s
 36850K .......... .......... .......... .......... .......... 38% 99.8M 1s
 36900K .......... .......... .......... .......... .......... 38%  104M 1s
 36950K .......... .......... .......... .......... .......... 38% 73.6M 1s
 37000K .......... .......... .......... .......... .......... 38%  102M 1s
 37050K .......... .......... .......... .......... .......... 38%  101M 1s
 37100K .......... .......... .......... .......... .......... 39%  100M 1s
 37150K .......... .......... .......... .......... .......... 39% 98.8M 1s
 37200K .......... .......... .......... .......... .......... 39%  105M 1s
 37250K .......... .......... .......... .......... .......... 39% 97.6M 1s
 37300K .......... .......... .......... .......... .......... 39% 96.5M 1s
 37350K .......... .......... .......... .......... .......... 39% 75.0M 1s
 37400K .......... .......... .......... .......... .......... 39%  104M 1s
 37450K .......... .......... .......... .......... .......... 39% 97.6M 1s
 37500K .......... .......... .......... .......... .......... 39%  101M 1s
 37550K .......... .......... .......... .......... .......... 39% 98.0M 1s
 37600K .......... .......... .......... .......... .......... 39% 97.2M 1s
 37650K .......... .......... .......... .......... .......... 39% 97.2M 1s
 37700K .......... .......... .......... .......... .......... 39% 97.3M 1s
 37750K .......... .......... .......... .......... .......... 39% 76.3M 1s
 37800K .......... .......... .......... .......... .......... 39% 96.8M 1s
 37850K .......... .......... .......... .......... .......... 39% 97.4M 1s
 37900K .......... .......... .......... .......... .......... 39% 97.7M 1s
 37950K .......... .......... .......... .......... .......... 39% 97.3M 1s
 38000K .......... .......... .......... .......... .......... 39% 84.2M 1s
 38050K .......... .......... .......... .......... .......... 39%  103M 1s
 38100K .......... .......... .......... .......... .......... 40%  100M 1s
 38150K .......... .......... .......... .......... .......... 40% 76.2M 1s
 38200K .......... .......... .......... .......... .......... 40% 97.3M 1s
 38250K .......... .......... .......... .......... .......... 40%  100M 1s
 38300K .......... .......... .......... .......... .......... 40% 97.2M 1s
 38350K .......... .......... .......... .......... .......... 40%  104M 1s
 38400K .......... .......... .......... .......... .......... 40% 98.9M 1s
 38450K .......... .......... .......... .......... .......... 40% 95.0M 1s
 38500K .......... .......... .......... .......... .......... 40% 99.8M 1s
 38550K .......... .......... .......... .......... .......... 40% 77.4M 1s
 38600K .......... .......... .......... .......... .......... 40% 97.4M 1s
 38650K .......... .......... .......... .......... .......... 40% 96.9M 1s
 38700K .......... .......... .......... .......... .......... 40%  102M 1s
 38750K .......... .......... .......... .......... .......... 40%  100M 1s
 38800K .......... .......... .......... .......... .......... 40% 97.3M 1s
 38850K .......... .......... .......... .......... .......... 40%  103M 1s
 38900K .......... .......... .......... .......... .......... 40%  104M 1s
 38950K .......... .......... .......... .......... .......... 40% 74.5M 1s
 39000K .......... .......... .......... .......... .......... 40% 97.7M 1s
 39050K .......... .......... .......... .......... .......... 41%  102M 1s
 39100K .......... .......... .......... .......... .......... 41% 95.3M 1s
 39150K .......... .......... .......... .......... .......... 41% 92.8M 1s
 39200K .......... .......... .......... .......... .......... 41% 97.0M 1s
 39250K .......... .......... .......... .......... .......... 41% 96.7M 1s
 39300K .......... .......... .......... .......... .......... 41% 97.2M 1s
 39350K .......... .......... .......... .......... .......... 41% 78.2M 1s
 39400K .......... .......... .......... .......... .......... 41%  100M 1s
 39450K .......... .......... .......... .......... .......... 41%  101M 1s
 39500K .......... .......... .......... .......... .......... 41% 98.1M 1s
 39550K .......... .......... .......... .......... .......... 41% 97.0M 1s
 39600K .......... .......... .......... .......... .......... 41%  104M 1s
 39650K .......... .......... .......... .......... .......... 41% 97.7M 1s
 39700K .......... .......... .......... .......... .......... 41%  103M 1s
 39750K .......... .......... .......... .......... .......... 41% 74.8M 1s
 39800K .......... .......... .......... .......... .......... 41%  103M 1s
 39850K .......... .......... .......... .......... .......... 41%  100M 1s
 39900K .......... .......... .......... .......... .......... 41% 95.6M 1s
 39950K .......... .......... .......... .......... .......... 41%  100M 1s
 40000K .......... .......... .......... .......... .......... 42%  100M 1s
 40050K .......... .......... .......... .......... .......... 42% 96.8M 1s
 40100K .......... .......... .......... .......... .......... 42% 99.8M 1s
 40150K .......... .......... .......... .......... .......... 42% 76.4M 1s
 40200K .......... .......... .......... .......... .......... 42%  103M 1s
 40250K .......... .......... .......... .......... .......... 42% 91.2M 1s
 40300K .......... .......... .......... .......... .......... 42% 98.5M 1s
 40350K .......... .......... .......... .......... .......... 42% 97.8M 1s
 40400K .......... .......... .......... .......... .......... 42% 97.5M 1s
 40450K .......... .......... .......... .......... .......... 42% 99.0M 1s
 40500K .......... .......... .......... .......... .......... 42%  100M 1s
 40550K .......... .......... .......... .......... .......... 42% 76.3M 1s
 40600K .......... .......... .......... .......... .......... 42%  102M 1s
 40650K .......... .......... .......... .......... .......... 42%  102M 1s
 40700K .......... .......... .......... .......... .......... 42% 99.3M 1s
 40750K .......... .......... .......... .......... .......... 42%  100M 1s
 40800K .......... .......... .......... .......... .......... 42%  100M 1s
 40850K .......... .......... .......... .......... .......... 42% 96.9M 1s
 40900K .......... .......... .......... .......... .......... 42%  104M 1s
 40950K .......... .......... .......... .......... .......... 43% 74.7M 1s
 41000K .......... .......... .......... .......... .......... 43%  100M 1s
 41050K .......... .......... .......... .......... .......... 43% 96.6M 1s
 41100K .......... .......... .......... .......... .......... 43%  104M 1s
 41150K .......... .......... .......... .......... .......... 43% 97.2M 1s
 41200K .......... .......... .......... .......... .......... 43% 99.8M 1s
 41250K .......... .......... .......... .......... .......... 43% 96.6M 1s
 41300K .......... .......... .......... .......... .......... 43% 99.4M 1s
 41350K .......... .......... .......... .......... .......... 43% 75.8M 1s
 41400K .......... .......... .......... .......... .......... 43% 97.4M 1s
 41450K .......... .......... .......... .......... .......... 43% 96.4M 1s
 41500K .......... .......... .......... .......... .......... 43%  100M 1s
 41550K .......... .......... .......... .......... .......... 43%  101M 1s
 41600K .......... .......... .......... .......... .......... 43% 96.3M 1s
 41650K .......... .......... .......... .......... .......... 43% 99.9M 1s
 41700K .......... .......... .......... .......... .......... 43%  104M 1s
 41750K .......... .......... .......... .......... .......... 43% 72.5M 1s
 41800K .......... .......... .......... .......... .......... 43% 96.8M 1s
 41850K .......... .......... .......... .......... .......... 43% 95.7M 1s
 41900K .......... .......... .......... .......... .......... 44%  104M 1s
 41950K .......... .......... .......... .......... .......... 44%  105M 1s
 42000K .......... .......... .......... .......... .......... 44%  100M 1s
 42050K .......... .......... .......... .......... .......... 44%  100M 1s
 42100K .......... .......... .......... .......... .......... 44% 96.6M 1s
 42150K .......... .......... .......... .......... .......... 44% 74.7M 1s
 42200K .......... .......... .......... .......... .......... 44% 99.9M 1s
 42250K .......... .......... .......... .......... .......... 44% 97.8M 1s
 42300K .......... .......... .......... .......... .......... 44% 99.7M 1s
 42350K .......... .......... .......... .......... .......... 44% 99.8M 1s
 42400K .......... .......... .......... .......... .......... 44%  100M 1s
 42450K .......... .......... .......... .......... .......... 44%  104M 1s
 42500K .......... .......... .......... .......... .......... 44% 96.0M 1s
 42550K .......... .......... .......... .......... .......... 44% 78.6M 1s
 42600K .......... .......... .......... .......... .......... 44% 91.9M 1s
 42650K .......... .......... .......... .......... .......... 44% 98.0M 1s
 42700K .......... .......... .......... .......... .......... 44% 99.9M 1s
 42750K .......... .......... .......... .......... .......... 44%  101M 1s
 42800K .......... .......... .......... .......... .......... 44% 97.4M 1s
 42850K .......... .......... .......... .......... .......... 45%  103M 1s
 42900K .......... .......... .......... .......... .......... 45%  102M 1s
 42950K .......... .......... .......... .......... .......... 45% 74.1M 1s
 43000K .......... .......... .......... .......... .......... 45% 94.9M 1s
 43050K .......... .......... .......... .......... .......... 45%  104M 1s
 43100K .......... .......... .......... .......... .......... 45% 96.1M 1s
 43150K .......... .......... .......... .......... .......... 45%  100M 1s
 43200K .......... .......... .......... .......... .......... 45%  104M 1s
 43250K .......... .......... .......... .......... .......... 45% 96.9M 1s
 43300K .......... .......... .......... .......... .......... 45%  104M 1s
 43350K .......... .......... .......... .......... .......... 45% 76.0M 1s
 43400K .......... .......... .......... .......... .......... 45% 95.3M 1s
 43450K .......... .......... .......... .......... .......... 45% 95.5M 1s
 43500K .......... .......... .......... .......... .......... 45%  104M 1s
 43550K .......... .......... .......... .......... .......... 45%  105M 1s
 43600K .......... .......... .......... .......... .......... 45% 96.9M 1s
 43650K .......... .......... .......... .......... .......... 45%  100M 1s
 43700K .......... .......... .......... .......... .......... 45%  104M 1s
 43750K .......... .......... .......... .......... .......... 45% 73.1M 1s
 43800K .......... .......... .......... .......... .......... 46% 94.9M 1s
 43850K .......... .......... .......... .......... .......... 46% 99.9M 1s
 43900K .......... .......... .......... .......... .......... 46%  104M 1s
 43950K .......... .......... .......... .......... .......... 46%  101M 1s
 44000K .......... .......... .......... .......... .......... 46%  100M 1s
 44050K .......... .......... .......... .......... .......... 46%  101M 1s
 44100K .......... .......... .......... .......... .......... 46%  100M 1s
 44150K .......... .......... .......... .......... .......... 46% 74.2M 1s
 44200K .......... .......... .......... .......... .......... 46% 97.7M 1s
 44250K .......... .......... .......... .......... .......... 46%  100M 1s
 44300K .......... .......... .......... .......... .......... 46%  104M 1s
 44350K .......... .......... .......... .......... .......... 46% 97.1M 1s
 44400K .......... .......... .......... .......... .......... 46% 92.6M 1s
 44450K .......... .......... .......... .......... .......... 46% 99.5M 1s
 44500K .......... .......... .......... .......... .......... 46%  101M 1s
 44550K .......... .......... .......... .......... .......... 46% 72.9M 1s
 44600K .......... .......... .......... .......... .......... 46% 96.3M 1s
 44650K .......... .......... .......... .......... .......... 46%  104M 1s
 44700K .......... .......... .......... .......... .......... 46% 98.3M 1s
 44750K .......... .......... .......... .......... .......... 47% 98.5M 1s
 44800K .......... .......... .......... .......... .......... 47% 88.4M 1s
 44850K .......... .......... .......... .......... .......... 47% 99.1M 1s
 44900K .......... .......... .......... .......... .......... 47%  101M 1s
 44950K .......... .......... .......... .......... .......... 47% 71.2M 1s
 45000K .......... .......... .......... .......... .......... 47% 94.2M 1s
 45050K .......... .......... .......... .......... .......... 47% 76.2M 1s
 45100K .......... .......... .......... .......... .......... 47% 98.5M 1s
 45150K .......... .......... .......... .......... .......... 47%  101M 1s
 45200K .......... .......... .......... .......... .......... 47% 95.9M 1s
 45250K .......... .......... .......... .......... .......... 47%  104M 1s
 45300K .......... .......... .......... .......... .......... 47%  100M 1s
 45350K .......... .......... .......... .......... .......... 47% 75.9M 1s
 45400K .......... .......... .......... .......... .......... 47% 97.7M 1s
 45450K .......... .......... .......... .......... .......... 47% 99.7M 1s
 45500K .......... .......... .......... .......... .......... 47% 97.3M 1s
 45550K .......... .......... .......... .......... .......... 47% 97.6M 1s
 45600K .......... .......... .......... .......... .......... 47% 98.9M 1s
 45650K .......... .......... .......... .......... .......... 47%  101M 1s
 45700K .......... .......... .......... .......... .......... 48% 96.7M 1s
 45750K .......... .......... .......... .......... .......... 48% 77.0M 1s
 45800K .......... .......... .......... .......... .......... 48%  100M 1s
 45850K .......... .......... .......... .......... .......... 48% 99.1M 1s
 45900K .......... .......... .......... .......... .......... 48% 99.9M 1s
 45950K .......... .......... .......... .......... .......... 48% 97.7M 1s
 46000K .......... .......... .......... .......... .......... 48%  104M 1s
 46050K .......... .......... .......... .......... .......... 48% 97.3M 1s
 46100K .......... .......... .......... .......... .......... 48% 94.4M 1s
 46150K .......... .......... .......... .......... .......... 48% 72.6M 1s
 46200K .......... .......... .......... .......... .......... 48%  100M 1s
 46250K .......... .......... .......... .......... .......... 48%  101M 1s
 46300K .......... .......... .......... .......... .......... 48%  103M 1s
 46350K .......... .......... .......... .......... .......... 48% 94.2M 1s
 46400K .......... .......... .......... .......... .......... 48%  104M 1s
 46450K .......... .......... .......... .......... .......... 48%  100M 1s
 46500K .......... .......... .......... .......... .......... 48% 95.5M 1s
 46550K .......... .......... .......... .......... .......... 48% 75.7M 1s
 46600K .......... .......... .......... .......... .......... 48% 99.6M 1s
 46650K .......... .......... .......... .......... .......... 49%  101M 1s
 46700K .......... .......... .......... .......... .......... 49% 95.4M 1s
 46750K .......... .......... .......... .......... .......... 49%  101M 1s
 46800K .......... .......... .......... .......... .......... 49%  100M 1s
 46850K .......... .......... .......... .......... .......... 49% 96.1M 1s
 46900K .......... .......... .......... .......... .......... 49%  101M 1s
 46950K .......... .......... .......... .......... .......... 49% 74.8M 1s
 47000K .......... .......... .......... .......... .......... 49%  103M 1s
 47050K .......... .......... .......... .......... .......... 49% 99.7M 1s
 47100K .......... .......... .......... .......... .......... 49% 96.2M 1s
 47150K .......... .......... .......... .......... .......... 49% 98.1M 1s
 47200K .......... .......... .......... .......... .......... 49% 97.0M 1s
 47250K .......... .......... .......... .......... .......... 49% 98.9M 1s
 47300K .......... .......... .......... .......... .......... 49% 99.6M 1s
 47350K .......... .......... .......... .......... .......... 49% 78.1M 1s
 47400K .......... .......... .......... .......... .......... 49% 99.9M 1s
 47450K .......... .......... .......... .......... .......... 49% 97.8M 1s
 47500K .......... .......... .......... .......... .......... 49%  104M 1s
 47550K .......... .......... .......... .......... .......... 49% 97.9M 1s
 47600K .......... .......... .......... .......... .......... 50% 99.6M 1s
 47650K .......... .......... .......... .......... .......... 50%  103M 1s
 47700K .......... .......... .......... .......... .......... 50% 97.7M 1s
 47750K .......... .......... .......... .......... .......... 50% 72.6M 1s
 47800K .......... .......... .......... .......... .......... 50% 97.4M 1s
 47850K .......... .......... .......... .......... .......... 50%  103M 1s
 47900K .......... .......... .......... .......... .......... 50%  103M 1s
 47950K .......... .......... .......... .......... .......... 50%  101M 1s
 48000K .......... .......... .......... .......... .......... 50%  100M 1s
 48050K .......... .......... .......... .......... .......... 50%  101M 1s
 48100K .......... .......... .......... .......... .......... 50%  101M 1s
 48150K .......... .......... .......... .......... .......... 50% 72.6M 1s
 48200K .......... .......... .......... .......... .......... 50%  103M 1s
 48250K .......... .......... .......... .......... .......... 50% 97.3M 1s
 48300K .......... .......... .......... .......... .......... 50% 99.9M 1s
 48350K .......... .......... .......... .......... .......... 50%  104M 1s
 48400K .......... .......... .......... .......... .......... 50%  104M 1s
 48450K .......... .......... .......... .......... .......... 50% 95.0M 1s
 48500K .......... .......... .......... .......... .......... 50% 96.4M 1s
 48550K .......... .......... .......... .......... .......... 51% 76.1M 1s
 48600K .......... .......... .......... .......... .......... 51% 99.2M 1s
 48650K .......... .......... .......... .......... .......... 51%  100M 1s
 48700K .......... .......... .......... .......... .......... 51%  101M 1s
 48750K .......... .......... .......... .......... .......... 51% 98.1M 1s
 48800K .......... .......... .......... .......... .......... 51%  100M 1s
 48850K .......... .......... .......... .......... .......... 51% 95.3M 1s
 48900K .......... .......... .......... .......... .......... 51%  103M 1s
 48950K .......... .......... .......... .......... .......... 51% 78.6M 1s
 49000K .......... .......... .......... .......... .......... 51% 94.5M 1s
 49050K .......... .......... .......... .......... .......... 51% 99.9M 1s
 49100K .......... .......... .......... .......... .......... 51% 96.3M 1s
 49150K .......... .......... .......... .......... .......... 51% 99.9M 1s
 49200K .......... .......... .......... .......... .......... 51% 97.1M 1s
 49250K .......... .......... .......... .......... .......... 51% 93.4M 1s
 49300K .......... .......... .......... .......... .......... 51% 98.8M 1s
 49350K .......... .......... .......... .......... .......... 51% 74.4M 1s
 49400K .......... .......... .......... .......... .......... 51%  100M 1s
 49450K .......... .......... .......... .......... .......... 51% 97.8M 1s
 49500K .......... .......... .......... .......... .......... 52%  101M 1s
 49550K .......... .......... .......... .......... .......... 52%  104M 1s
 49600K .......... .......... .......... .......... .......... 52% 97.8M 1s
 49650K .......... .......... .......... .......... .......... 52% 87.7M 1s
 49700K .......... .......... .......... .......... .......... 52% 99.8M 1s
 49750K .......... .......... .......... .......... .......... 52% 76.0M 1s
 49800K .......... .......... .......... .......... .......... 52%  100M 1s
 49850K .......... .......... .......... .......... .......... 52%  100M 1s
 49900K .......... .......... .......... .......... .......... 52%  102M 1s
 49950K .......... .......... .......... .......... .......... 52%  101M 1s
 50000K .......... .......... .......... .......... .......... 52% 95.7M 1s
 50050K .......... .......... .......... .......... .......... 52%  103M 1s
 50100K .......... .......... .......... .......... .......... 52%  101M 1s
 50150K .......... .......... .......... .......... .......... 52% 75.6M 1s
 50200K .......... .......... .......... .......... .......... 52%  105M 1s
 50250K .......... .......... .......... .......... .......... 52% 97.8M 1s
 50300K .......... .......... .......... .......... .......... 52% 99.4M 1s
 50350K .......... .......... .......... .......... .......... 52%  101M 1s
 50400K .......... .......... .......... .......... .......... 52% 98.4M 1s
 50450K .......... .......... .......... .......... .......... 53% 97.1M 1s
 50500K .......... .......... .......... .......... .......... 53% 97.2M 1s
 50550K .......... .......... .......... .......... .......... 53% 73.0M 1s
 50600K .......... .......... .......... .......... .......... 53% 99.8M 1s
 50650K .......... .......... .......... .......... .......... 53% 99.4M 1s
 50700K .......... .......... .......... .......... .......... 53%  100M 1s
 50750K .......... .......... .......... .......... .......... 53%  100M 1s
 50800K .......... .......... .......... .......... .......... 53% 87.3M 1s
 50850K .......... .......... .......... .......... .......... 53% 77.4M 1s
 50900K .......... .......... .......... .......... .......... 53% 93.7M 1s
 50950K .......... .......... .......... .......... .......... 53% 76.4M 1s
 51000K .......... .......... .......... .......... .......... 53%  103M 1s
 51050K .......... .......... .......... .......... .......... 53% 96.7M 1s
 51100K .......... .......... .......... .......... .......... 53%  101M 1s
 51150K .......... .......... .......... .......... .......... 53% 96.3M 1s
 51200K .......... .......... .......... .......... .......... 53% 94.6M 1s
 51250K .......... .......... .......... .......... .......... 53% 96.8M 1s
 51300K .......... .......... .......... .......... .......... 53% 96.5M 1s
 51350K .......... .......... .......... .......... .......... 53% 72.9M 1s
 51400K .......... .......... .......... .......... .......... 54%  103M 1s
 51450K .......... .......... .......... .......... .......... 54%  104M 1s
 51500K .......... .......... .......... .......... .......... 54%  101M 1s
 51550K .......... .......... .......... .......... .......... 54% 95.7M 1s
 51600K .......... .......... .......... .......... .......... 54% 96.9M 1s
 51650K .......... .......... .......... .......... .......... 54% 96.5M 1s
 51700K .......... .......... .......... .......... .......... 54% 99.6M 1s
 51750K .......... .......... .......... .......... .......... 54% 78.9M 1s
 51800K .......... .......... .......... .......... .......... 54% 97.7M 1s
 51850K .......... .......... .......... .......... .......... 54%  101M 1s
 51900K .......... .......... .......... .......... .......... 54% 96.5M 1s
 51950K .......... .......... .......... .......... .......... 54% 94.7M 1s
 52000K .......... .......... .......... .......... .......... 54% 94.2M 1s
 52050K .......... .......... .......... .......... .......... 54%  101M 1s
 52100K .......... .......... .......... .......... .......... 54%  101M 1s
 52150K .......... .......... .......... .......... .......... 54% 73.7M 1s
 52200K .......... .......... .......... .......... .......... 54% 96.9M 1s
 52250K .......... .......... .......... .......... .......... 54% 97.1M 1s
 52300K .......... .......... .......... .......... .......... 54%  101M 1s
 52350K .......... .......... .......... .......... .......... 55%  101M 1s
 52400K .......... .......... .......... .......... .......... 55% 99.4M 1s
 52450K .......... .......... .......... .......... .......... 55%  100M 1s
 52500K .......... .......... .......... .......... .......... 55%  100M 1s
 52550K .......... .......... .......... .......... .......... 55% 74.9M 1s
 52600K .......... .......... .......... .......... .......... 55% 99.4M 1s
 52650K .......... .......... .......... .......... .......... 55% 99.8M 1s
 52700K .......... .......... .......... .......... .......... 55%  103M 1s
 52750K .......... .......... .......... .......... .......... 55% 97.8M 1s
 52800K .......... .......... .......... .......... .......... 55% 95.4M 1s
 52850K .......... .......... .......... .......... .......... 55% 99.5M 1s
 52900K .......... .......... .......... .......... .......... 55% 98.9M 1s
 52950K .......... .......... .......... .......... .......... 55% 75.6M 1s
 53000K .......... .......... .......... .......... .......... 55% 99.7M 1s
 53050K .......... .......... .......... .......... .......... 55% 97.3M 1s
 53100K .......... .......... .......... .......... .......... 55% 94.4M 1s
 53150K .......... .......... .......... .......... .......... 55% 97.6M 1s
 53200K .......... .......... .......... .......... .......... 55% 97.3M 1s
 53250K .......... .......... .......... .......... .......... 55%  104M 1s
 53300K .......... .......... .......... .......... .......... 56%  103M 1s
 53350K .......... .......... .......... .......... .......... 56% 74.6M 1s
 53400K .......... .......... .......... .......... .......... 56% 99.2M 1s
 53450K .......... .......... .......... .......... .......... 56%  100M 1s
 53500K .......... .......... .......... .......... .......... 56% 97.6M 1s
 53550K .......... .......... .......... .......... .......... 56% 98.0M 1s
 53600K .......... .......... .......... .......... .......... 56%  100M 1s
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 53700K .......... .......... .......... .......... .......... 56% 97.0M 1s
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 53800K .......... .......... .......... .......... .......... 56%  104M 1s
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 53900K .......... .......... .......... .......... .......... 56% 98.0M 1s
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 54050K .......... .......... .......... .......... .......... 56% 99.9M 1s
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 54150K .......... .......... .......... .......... .......... 56% 73.8M 1s
 54200K .......... .......... .......... .......... .......... 56%  101M 1s
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 54300K .......... .......... .......... .......... .......... 57% 97.8M 1s
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 54400K .......... .......... .......... .......... .......... 57% 93.4M 1s
 54450K .......... .......... .......... .......... .......... 57%  102M 1s
 54500K .......... .......... .......... .......... .......... 57% 97.6M 1s
 54550K .......... .......... .......... .......... .......... 57% 78.4M 1s
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 54700K .......... .......... .......... .......... .......... 57% 97.0M 1s
 54750K .......... .......... .......... .......... .......... 57%  104M 1s
 54800K .......... .......... .......... .......... .......... 57% 99.5M 1s
 54850K .......... .......... .......... .......... .......... 57% 97.4M 1s
 54900K .......... .......... .......... .......... .......... 57% 99.0M 1s
 54950K .......... .......... .......... .......... .......... 57% 74.5M 1s
 55000K .......... .......... .......... .......... .......... 57%  100M 1s
 55050K .......... .......... .......... .......... .......... 57% 96.4M 1s
 55100K .......... .......... .......... .......... .......... 57% 99.9M 1s
 55150K .......... .......... .......... .......... .......... 57% 99.8M 1s
 55200K .......... .......... .......... .......... .......... 58%  100M 1s
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 55300K .......... .......... .......... .......... .......... 58%  101M 1s
 55350K .......... .......... .......... .......... .......... 58% 75.0M 1s
 55400K .......... .......... .......... .......... .......... 58%  100M 1s
 55450K .......... .......... .......... .......... .......... 58% 97.0M 1s
 55500K .......... .......... .......... .......... .......... 58% 96.2M 1s
 55550K .......... .......... .......... .......... .......... 58%  105M 1s
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 55650K .......... .......... .......... .......... .......... 58% 99.9M 1s
 55700K .......... .......... .......... .......... .......... 58%  104M 1s
 55750K .......... .......... .......... .......... .......... 58% 74.5M 1s
 55800K .......... .......... .......... .......... .......... 58%  104M 1s
 55850K .......... .......... .......... .......... .......... 58%  102M 1s
 55900K .......... .......... .......... .......... .......... 58% 99.6M 1s
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 56050K .......... .......... .......... .......... .......... 58% 94.5M 1s
 56100K .......... .......... .......... .......... .......... 58% 99.5M 1s
 56150K .......... .......... .......... .......... .......... 58% 76.2M 1s
 56200K .......... .......... .......... .......... .......... 59%  104M 1s
 56250K .......... .......... .......... .......... .......... 59%  100M 1s
 56300K .......... .......... .......... .......... .......... 59% 97.0M 1s
 56350K .......... .......... .......... .......... .......... 59% 99.2M 1s
 56400K .......... .......... .......... .......... .......... 59% 87.0M 1s
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 56750K .......... .......... .......... .......... .......... 59% 97.9M 1s
 56800K .......... .......... .......... .......... .......... 59%  101M 1s
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 56900K .......... .......... .......... .......... .......... 59% 99.3M 1s
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 57100K .......... .......... .......... .......... .......... 59%  104M 1s
 57150K .......... .......... .......... .......... .......... 60% 98.8M 1s
 57200K .......... .......... .......... .......... .......... 60% 96.7M 1s
 57250K .......... .......... .......... .......... .......... 60%  100M 1s
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 57350K .......... .......... .......... .......... .......... 60% 75.0M 1s
 57400K .......... .......... .......... .......... .......... 60%  102M 1s
 57450K .......... .......... .......... .......... .......... 60% 97.0M 1s
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 57700K .......... .......... .......... .......... .......... 60% 96.6M 0s
 57750K .......... .......... .......... .......... .......... 60% 74.9M 0s
 57800K .......... .......... .......... .......... .......... 60% 98.7M 0s
 57850K .......... .......... .......... .......... .......... 60% 93.3M 0s
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 57950K .......... .......... .......... .......... .......... 60%  100M 0s
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 58100K .......... .......... .......... .......... .......... 61% 97.2M 0s
 58150K .......... .......... .......... .......... .......... 61% 75.8M 0s
 58200K .......... .......... .......... .......... .......... 61% 98.0M 0s
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 58400K .......... .......... .......... .......... .......... 61% 97.7M 0s
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 58700K .......... .......... .......... .......... .......... 61% 93.9M 0s
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 59350K .......... .......... .......... .......... .......... 62% 77.4M 0s
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 67250K .......... .......... .......... .......... .......... 70%  102M 0s
 67300K .......... .......... .......... .......... .......... 70%  100M 0s
 67350K .......... .......... .......... .......... .......... 70% 73.5M 0s
 67400K .......... .......... .......... .......... .......... 70% 98.1M 0s
 67450K .......... .......... .......... .......... .......... 70%  104M 0s
 67500K .......... .......... .......... .......... .......... 70% 99.2M 0s
 67550K .......... .......... .......... .......... .......... 70%  104M 0s
 67600K .......... .......... .......... .......... .......... 71% 98.1M 0s
 67650K .......... .......... .......... .......... .......... 71% 97.2M 0s
 67700K .......... .......... .......... .......... .......... 71%  101M 0s
 67750K .......... .......... .......... .......... .......... 71% 76.2M 0s
 67800K .......... .......... .......... .......... .......... 71%  103M 0s
 67850K .......... .......... .......... .......... .......... 71%  101M 0s
 67900K .......... .......... .......... .......... .......... 71% 96.9M 0s
 67950K .......... .......... .......... .......... .......... 71% 97.5M 0s
 68000K .......... .......... .......... .......... .......... 71% 93.7M 0s
 68050K .......... .......... .......... .......... .......... 71% 95.8M 0s
 68100K .......... .......... .......... .......... .......... 71% 99.6M 0s
 68150K .......... .......... .......... .......... .......... 71% 74.6M 0s
 68200K .......... .......... .......... .......... .......... 71% 99.5M 0s
 68250K .......... .......... .......... .......... .......... 71% 96.1M 0s
 68300K .......... .......... .......... .......... .......... 71%  104M 0s
 68350K .......... .......... .......... .......... .......... 71% 98.0M 0s
 68400K .......... .......... .......... .......... .......... 71% 93.2M 0s
 68450K .......... .......... .......... .......... .......... 71%  101M 0s
 68500K .......... .......... .......... .......... .......... 71% 99.5M 0s
 68550K .......... .......... .......... .......... .......... 72% 76.2M 0s
 68600K .......... .......... .......... .......... .......... 72% 97.2M 0s
 68650K .......... .......... .......... .......... .......... 72%  100M 0s
 68700K .......... .......... .......... .......... .......... 72%  101M 0s
 68750K .......... .......... .......... .......... .......... 72% 98.4M 0s
 68800K .......... .......... .......... .......... .......... 72% 98.9M 0s
 68850K .......... .......... .......... .......... .......... 72%  104M 0s
 68900K .......... .......... .......... .......... .......... 72%  104M 0s
 68950K .......... .......... .......... .......... .......... 72% 75.0M 0s
 69000K .......... .......... .......... .......... .......... 72% 95.7M 0s
 69050K .......... .......... .......... .......... .......... 72%  100M 0s
 69100K .......... .......... .......... .......... .......... 72% 96.4M 0s
 69150K .......... .......... .......... .......... .......... 72% 97.5M 0s
 69200K .......... .......... .......... .......... .......... 72%  104M 0s
 69250K .......... .......... .......... .......... .......... 72% 99.4M 0s
 69300K .......... .......... .......... .......... .......... 72% 96.6M 0s
 69350K .......... .......... .......... .......... .......... 72% 74.7M 0s
 69400K .......... .......... .......... .......... .......... 72%  103M 0s
 69450K .......... .......... .......... .......... .......... 72% 97.2M 0s
 69500K .......... .......... .......... .......... .......... 73% 96.1M 0s
 69550K .......... .......... .......... .......... .......... 73% 87.1M 0s
 69600K .......... .......... .......... .......... .......... 73% 97.1M 0s
 69650K .......... .......... .......... .......... .......... 73% 97.4M 0s
 69700K .......... .......... .......... .......... .......... 73% 99.7M 0s
 69750K .......... .......... .......... .......... .......... 73% 76.9M 0s
 69800K .......... .......... .......... .......... .......... 73% 99.8M 0s
 69850K .......... .......... .......... .......... .......... 73%  101M 0s
 69900K .......... .......... .......... .......... .......... 73%  100M 0s
 69950K .......... .......... .......... .......... .......... 73% 94.8M 0s
 70000K .......... .......... .......... .......... .......... 73% 95.7M 0s
 70050K .......... .......... .......... .......... .......... 73%  100M 0s
 70100K .......... .......... .......... .......... .......... 73%  100M 0s
 70150K .......... .......... .......... .......... .......... 73% 75.0M 0s
 70200K .......... .......... .......... .......... .......... 73% 99.7M 0s
 70250K .......... .......... .......... .......... .......... 73% 99.1M 0s
 70300K .......... .......... .......... .......... .......... 73%  102M 0s
 70350K .......... .......... .......... .......... .......... 73% 97.5M 0s
 70400K .......... .......... .......... .......... .......... 73%  100M 0s
 70450K .......... .......... .......... .......... .......... 74% 99.6M 0s
 70500K .......... .......... .......... .......... .......... 74%  103M 0s
 70550K .......... .......... .......... .......... .......... 74% 76.2M 0s
 70600K .......... .......... .......... .......... .......... 74%  100M 0s
 70650K .......... .......... .......... .......... .......... 74%  104M 0s
 70700K .......... .......... .......... .......... .......... 74% 94.3M 0s
 70750K .......... .......... .......... .......... .......... 74% 96.6M 0s
 70800K .......... .......... .......... .......... .......... 74% 99.9M 0s
 70850K .......... .......... .......... .......... .......... 74%  104M 0s
 70900K .......... .......... .......... .......... .......... 74% 97.6M 0s
 70950K .......... .......... .......... .......... .......... 74% 72.8M 0s
 71000K .......... .......... .......... .......... .......... 74% 96.1M 0s
 71050K .......... .......... .......... .......... .......... 74%  104M 0s
 71100K .......... .......... .......... .......... .......... 74% 98.3M 0s
 71150K .......... .......... .......... .......... .......... 74%  100M 0s
 71200K .......... .......... .......... .......... .......... 74% 96.5M 0s
 71250K .......... .......... .......... .......... .......... 74%  104M 0s
 71300K .......... .......... .......... .......... .......... 74%  103M 0s
 71350K .......... .......... .......... .......... .......... 74% 78.9M 0s
 71400K .......... .......... .......... .......... .......... 75%  100M 0s
 71450K .......... .......... .......... .......... .......... 75% 99.4M 0s
 71500K .......... .......... .......... .......... .......... 75% 97.8M 0s
 71550K .......... .......... .......... .......... .......... 75% 98.3M 0s
 71600K .......... .......... .......... .......... .......... 75% 96.4M 0s
 71650K .......... .......... .......... .......... .......... 75% 97.1M 0s
 71700K .......... .......... .......... .......... .......... 75% 97.3M 0s
 71750K .......... .......... .......... .......... .......... 75% 75.5M 0s
 71800K .......... .......... .......... .......... .......... 75%  104M 0s
 71850K .......... .......... .......... .......... .......... 75% 97.2M 0s
 71900K .......... .......... .......... .......... .......... 75% 80.1M 0s
 71950K .......... .......... .......... .......... .......... 75%  103M 0s
 72000K .......... .......... .......... .......... .......... 75%  101M 0s
 72050K .......... .......... .......... .......... .......... 75% 99.2M 0s
 72100K .......... .......... .......... .......... .......... 75% 99.6M 0s
 72150K .......... .......... .......... .......... .......... 75% 78.8M 0s
 72200K .......... .......... .......... .......... .......... 75%  102M 0s
 72250K .......... .......... .......... .......... .......... 75%  101M 0s
 72300K .......... .......... .......... .......... .......... 75% 96.2M 0s
 72350K .......... .......... .......... .......... .......... 76%  104M 0s
 72400K .......... .......... .......... .......... .......... 76%  104M 0s
 72450K .......... .......... .......... .......... .......... 76% 97.4M 0s
 72500K .......... .......... .......... .......... .......... 76% 97.7M 0s
 72550K .......... .......... .......... .......... .......... 76% 73.6M 0s
 72600K .......... .......... .......... .......... .......... 76%  104M 0s
 72650K .......... .......... .......... .......... .......... 76% 99.0M 0s
 72700K .......... .......... .......... .......... .......... 76%  103M 0s
 72750K .......... .......... .......... .......... .......... 76%  105M 0s
 72800K .......... .......... .......... .......... .......... 76% 99.4M 0s
 72850K .......... .......... .......... .......... .......... 76% 97.4M 0s
 72900K .......... .......... .......... .......... .......... 76% 97.8M 0s
 72950K .......... .......... .......... .......... .......... 76% 75.0M 0s
 73000K .......... .......... .......... .......... .......... 76%  103M 0s
 73050K .......... .......... .......... .......... .......... 76% 88.8M 0s
 73100K .......... .......... .......... .......... .......... 76% 95.6M 0s
 73150K .......... .......... .......... .......... .......... 76%  105M 0s
 73200K .......... .......... .......... .......... .......... 76%  104M 0s
 73250K .......... .......... .......... .......... .......... 76%  101M 0s
 73300K .......... .......... .......... .......... .......... 77%  102M 0s
 73350K .......... .......... .......... .......... .......... 77% 72.3M 0s
 73400K .......... .......... .......... .......... .......... 77%  101M 0s
 73450K .......... .......... .......... .......... .......... 77% 95.5M 0s
 73500K .......... .......... .......... .......... .......... 77%  104M 0s
 73550K .......... .......... .......... .......... .......... 77%  101M 0s
 73600K .......... .......... .......... .......... .......... 77% 97.4M 0s
 73650K .......... .......... .......... .......... .......... 77%  101M 0s
 73700K .......... .......... .......... .......... .......... 77%  101M 0s
 73750K .......... .......... .......... .......... .......... 77% 76.6M 0s
 73800K .......... .......... .......... .......... .......... 77%  100M 0s
 73850K .......... .......... .......... .......... .......... 77% 99.2M 0s
 73900K .......... .......... .......... .......... .......... 77% 97.7M 0s
 73950K .......... .......... .......... .......... .......... 77%  104M 0s
 74000K .......... .......... .......... .......... .......... 77%  101M 0s
 74050K .......... .......... .......... .......... .......... 77%  100M 0s
 74100K .......... .......... .......... .......... .......... 77% 99.6M 0s
 74150K .......... .......... .......... .......... .......... 77% 76.4M 0s
 74200K .......... .......... .......... .......... .......... 77%  100M 0s
 74250K .......... .......... .......... .......... .......... 78% 90.1M 0s
 74300K .......... .......... .......... .......... .......... 78% 99.0M 0s
 74350K .......... .......... .......... .......... .......... 78%  105M 0s
 74400K .......... .......... .......... .......... .......... 78%  101M 0s
 74450K .......... .......... .......... .......... .......... 78% 97.7M 0s
 74500K .......... .......... .......... .......... .......... 78%  103M 0s
 74550K .......... .......... .......... .......... .......... 78% 76.3M 0s
 74600K .......... .......... .......... .......... .......... 78% 99.8M 0s
 74650K .......... .......... .......... .......... .......... 78%  102M 0s
 74700K .......... .......... .......... .......... .......... 78% 98.1M 0s
 74750K .......... .......... .......... .......... .......... 78%  100M 0s
 74800K .......... .......... .......... .......... .......... 78%  103M 0s
 74850K .......... .......... .......... .......... .......... 78%  100M 0s
 74900K .......... .......... .......... .......... .......... 78% 96.8M 0s
 74950K .......... .......... .......... .......... .......... 78% 78.7M 0s
 75000K .......... .......... .......... .......... .......... 78% 96.2M 0s
 75050K .......... .......... .......... .......... .......... 78% 96.4M 0s
 75100K .......... .......... .......... .......... .......... 78% 96.8M 0s
 75150K .......... .......... .......... .......... .......... 78%  101M 0s
 75200K .......... .......... .......... .......... .......... 78%  100M 0s
 75250K .......... .......... .......... .......... .......... 79%  104M 0s
 75300K .......... .......... .......... .......... .......... 79% 96.4M 0s
 75350K .......... .......... .......... .......... .......... 79% 76.3M 0s
 75400K .......... .......... .......... .......... .......... 79% 92.9M 0s
 75450K .......... .......... .......... .......... .......... 79%  102M 0s
 75500K .......... .......... .......... .......... .......... 79%  101M 0s
 75550K .......... .......... .......... .......... .......... 79%  104M 0s
 75600K .......... .......... .......... .......... .......... 79% 97.0M 0s
 75650K .......... .......... .......... .......... .......... 79%  100M 0s
 75700K .......... .......... .......... .......... .......... 79%  101M 0s
 75750K .......... .......... .......... .......... .......... 79% 78.0M 0s
 75800K .......... .......... .......... .......... .......... 79%  101M 0s
 75850K .......... .......... .......... .......... .......... 79%  101M 0s
 75900K .......... .......... .......... .......... .......... 79%  100M 0s
 75950K .......... .......... .......... .......... .......... 79%  101M 0s
 76000K .......... .......... .......... .......... .......... 79%  101M 0s
 76050K .......... .......... .......... .......... .......... 79% 99.3M 0s
 76100K .......... .......... .......... .......... .......... 79% 99.9M 0s
 76150K .......... .......... .......... .......... .......... 79% 74.3M 0s
 76200K .......... .......... .......... .......... .......... 80% 96.2M 0s
 76250K .......... .......... .......... .......... .......... 80% 99.7M 0s
 76300K .......... .......... .......... .......... .......... 80%  100M 0s
 76350K .......... .......... .......... .......... .......... 80% 93.7M 0s
 76400K .......... .......... .......... .......... .......... 80% 99.7M 0s
 76450K .......... .......... .......... .......... .......... 80%  105M 0s
 76500K .......... .......... .......... .......... .......... 80%  100M 0s
 76550K .......... .......... .......... .......... .......... 80% 78.2M 0s
 76600K .......... .......... .......... .......... .......... 80% 91.8M 0s
 76650K .......... .......... .......... .......... .......... 80%  101M 0s
 76700K .......... .......... .......... .......... .......... 80%  100M 0s
 76750K .......... .......... .......... .......... .......... 80%  101M 0s
 76800K .......... .......... .......... .......... .......... 80% 97.0M 0s
 76850K .......... .......... .......... .......... .......... 80%  100M 0s
 76900K .......... .......... .......... .......... .......... 80%  104M 0s
 76950K .......... .......... .......... .......... .......... 80% 71.5M 0s
 77000K .......... .......... .......... .......... .......... 80% 93.6M 0s
 77050K .......... .......... .......... .......... .......... 80% 98.9M 0s
 77100K .......... .......... .......... .......... .......... 80%  105M 0s
 77150K .......... .......... .......... .......... .......... 81% 98.4M 0s
 77200K .......... .......... .......... .......... .......... 81% 99.7M 0s
 77250K .......... .......... .......... .......... .......... 81% 97.3M 0s
 77300K .......... .......... .......... .......... .......... 81% 96.4M 0s
 77350K .......... .......... .......... .......... .......... 81% 73.4M 0s
 77400K .......... .......... .......... .......... .......... 81%  104M 0s
 77450K .......... .......... .......... .......... .......... 81%  104M 0s
 77500K .......... .......... .......... .......... .......... 81%  100M 0s
 77550K .......... .......... .......... .......... .......... 81% 99.7M 0s
 77600K .......... .......... .......... .......... .......... 81%  101M 0s
 77650K .......... .......... .......... .......... .......... 81%  101M 0s
 77700K .......... .......... .......... .......... .......... 81%  100M 0s
 77750K .......... .......... .......... .......... .......... 81% 72.4M 0s
 77800K .......... .......... .......... .......... .......... 81% 96.8M 0s
 77850K .......... .......... .......... .......... .......... 81%  101M 0s
 77900K .......... .......... .......... .......... .......... 81%  100M 0s
 77950K .......... .......... .......... .......... .......... 81% 94.6M 0s
 78000K .......... .......... .......... .......... .......... 81% 97.3M 0s
 78050K .......... .......... .......... .......... .......... 81%  103M 0s
 78100K .......... .......... .......... .......... .......... 82%  104M 0s
 78150K .......... .......... .......... .......... .......... 82% 73.9M 0s
 78200K .......... .......... .......... .......... .......... 82%  104M 0s
 78250K .......... .......... .......... .......... .......... 82% 97.6M 0s
 78300K .......... .......... .......... .......... .......... 82% 97.0M 0s
 78350K .......... .......... .......... .......... .......... 82%  101M 0s
 78400K .......... .......... .......... .......... .......... 82%  104M 0s
 78450K .......... .......... .......... .......... .......... 82% 97.6M 0s
 78500K .......... .......... .......... .......... .......... 82%  104M 0s
 78550K .......... .......... .......... .......... .......... 82% 71.9M 0s
 78600K .......... .......... .......... .......... .......... 82% 98.0M 0s
 78650K .......... .......... .......... .......... .......... 82%  100M 0s
 78700K .......... .......... .......... .......... .......... 82%  100M 0s
 78750K .......... .......... .......... .......... .......... 82% 96.9M 0s
 78800K .......... .......... .......... .......... .......... 82% 96.9M 0s
 78850K .......... .......... .......... .......... .......... 82% 97.2M 0s
 78900K .......... .......... .......... .......... .......... 82% 97.2M 0s
 78950K .......... .......... .......... .......... .......... 82% 73.7M 0s
 79000K .......... .......... .......... .......... .......... 82% 95.6M 0s
 79050K .......... .......... .......... .......... .......... 83% 97.1M 0s
 79100K .......... .......... .......... .......... .......... 83%  103M 0s
 79150K .......... .......... .......... .......... .......... 83%  101M 0s
 79200K .......... .......... .......... .......... .......... 83%  100M 0s
 79250K .......... .......... .......... .......... .......... 83%  103M 0s
 79300K .......... .......... .......... .......... .......... 83% 97.5M 0s
 79350K .......... .......... .......... .......... .......... 83% 72.9M 0s
 79400K .......... .......... .......... .......... .......... 83%  100M 0s
 79450K .......... .......... .......... .......... .......... 83%  100M 0s
 79500K .......... .......... .......... .......... .......... 83%  104M 0s
 79550K .......... .......... .......... .......... .......... 83% 96.1M 0s
 79600K .......... .......... .......... .......... .......... 83%  104M 0s
 79650K .......... .......... .......... .......... .......... 83%  104M 0s
 79700K .......... .......... .......... .......... .......... 83% 94.3M 0s
 79750K .......... .......... .......... .......... .......... 83% 73.6M 0s
 79800K .......... .......... .......... .......... .......... 83%  100M 0s
 79850K .......... .......... .......... .......... .......... 83% 97.0M 0s
 79900K .......... .......... .......... .......... .......... 83%  101M 0s
 79950K .......... .......... .......... .......... .......... 83% 98.0M 0s
 80000K .......... .......... .......... .......... .......... 84%  100M 0s
 80050K .......... .......... .......... .......... .......... 84%  101M 0s
 80100K .......... .......... .......... .......... .......... 84% 90.7M 0s
 80150K .......... .......... .......... .......... .......... 84% 73.5M 0s
 80200K .......... .......... .......... .......... .......... 84%  104M 0s
 80250K .......... .......... .......... .......... .......... 84%  105M 0s
 80300K .......... .......... .......... .......... .......... 84% 97.6M 0s
 80350K .......... .......... .......... .......... .......... 84% 96.7M 0s
 80400K .......... .......... .......... .......... .......... 84%  101M 0s
 80450K .......... .......... .......... .......... .......... 84% 96.5M 0s
 80500K .......... .......... .......... .......... .......... 84% 95.7M 0s
 80550K .......... .......... .......... .......... .......... 84% 73.9M 0s
 80600K .......... .......... .......... .......... .......... 84%  101M 0s
 80650K .......... .......... .......... .......... .......... 84%  101M 0s
 80700K .......... .......... .......... .......... .......... 84%  101M 0s
 80750K .......... .......... .......... .......... .......... 84%  101M 0s
 80800K .......... .......... .......... .......... .......... 84%  103M 0s
 80850K .......... .......... .......... .......... .......... 84%  101M 0s
 80900K .......... .......... .......... .......... .......... 84%  101M 0s
 80950K .......... .......... .......... .......... .......... 85% 78.8M 0s
 81000K .......... .......... .......... .......... .......... 85%  101M 0s
 81050K .......... .......... .......... .......... .......... 85%  101M 0s
 81100K .......... .......... .......... .......... .......... 85%  100M 0s
 81150K .......... .......... .......... .......... .......... 85%  105M 0s
 81200K .......... .......... .......... .......... .......... 85% 97.6M 0s
 81250K .......... .......... .......... .......... .......... 85% 99.8M 0s
 81300K .......... .......... .......... .......... .......... 85% 93.5M 0s
 81350K .......... .......... .......... .......... .......... 85% 72.6M 0s
 81400K .......... .......... .......... .......... .......... 85%  103M 0s
 81450K .......... .......... .......... .......... .......... 85% 96.9M 0s
 81500K .......... .......... .......... .......... .......... 85% 99.7M 0s
 81550K .......... .......... .......... .......... .......... 85%  105M 0s
 81600K .......... .......... .......... .......... .......... 85% 97.3M 0s
 81650K .......... .......... .......... .......... .......... 85%  104M 0s
 81700K .......... .......... .......... .......... .......... 85%  101M 0s
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 92150K .......... .......... .......... .......... .......... 96% 74.2M 0s
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 94950K .......... .......... .......... .......... .......... 99% 78.3M 0s
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 95250K ....                                                  100% 8.15T=1.2s

2026-06-17 17:01:43 (80.7 MB/s) - ‘/tmp/tmp77worec7/LUT.hdf’ saved [97540482/97540482]

(d) 17:01:43 Moving "/tmp/tmp77worec7/LUT.hdf" to "/root/.cache/polymer/auxdata/static/generic/LUT.hdf"...
(i) 17:01:43 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/no2_climatology.hdf
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--2026-06-17 17:01:43--  http://download.hygeos.com/POLYMER/auxdata/common/no2_climatology.hdf
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 14050K .......... .......... .......... .......... .......... 14% 97.2M 2s
 14100K .......... .......... .......... .......... .......... 14% 75.2M 2s
 14150K .......... .......... .......... .......... .......... 14% 98.1M 2s
 14200K .......... .......... .......... .......... .......... 14% 98.5M 2s
 14250K .......... .......... .......... .......... .......... 14%  102M 2s
 14300K .......... .......... .......... .......... .......... 14% 98.7M 2s
 14350K .......... .......... .......... .......... .......... 14%  104M 2s
 14400K .......... .......... .......... .......... .......... 14%  102M 2s
 14450K .......... .......... .......... .......... .......... 14%  101M 2s
 14500K .......... .......... .......... .......... .......... 14% 76.7M 2s
 14550K .......... .......... .......... .......... .......... 15%  102M 2s
 14600K .......... .......... .......... .......... .......... 15%  104M 2s
 14650K .......... .......... .......... .......... .......... 15% 94.9M 2s
 14700K .......... .......... .......... .......... .......... 15% 95.5M 2s
 14750K .......... .......... .......... .......... .......... 15%  101M 2s
 14800K .......... .......... .......... .......... .......... 15%  104M 2s
 14850K .......... .......... .......... .......... .......... 15%  101M 2s
 14900K .......... .......... .......... .......... .......... 15% 77.6M 2s
 14950K .......... .......... .......... .......... .......... 15%  101M 2s
 15000K .......... .......... .......... .......... .......... 15% 97.6M 2s
 15050K .......... .......... .......... .......... .......... 15% 99.1M 2s
 15100K .......... .......... .......... .......... .......... 15% 98.7M 2s
 15150K .......... .......... .......... .......... .......... 15%  101M 2s
 15200K .......... .......... .......... .......... .......... 15%  103M 2s
 15250K .......... .......... .......... .......... .......... 15% 99.2M 2s
 15300K .......... .......... .......... .......... .......... 15% 77.2M 2s
 15350K .......... .......... .......... .......... .......... 15% 98.1M 2s
 15400K .......... .......... .......... .......... .......... 15%  101M 2s
 15450K .......... .......... .......... .......... .......... 15% 99.0M 2s
 15500K .......... .......... .......... .......... .......... 15%  100M 2s
 15550K .......... .......... .......... .......... .......... 16%  105M 2s
 15600K .......... .......... .......... .......... .......... 16%  101M 2s
 15650K .......... .......... .......... .......... .......... 16% 95.4M 2s
 15700K .......... .......... .......... .......... .......... 16% 75.2M 2s
 15750K .......... .......... .......... .......... .......... 16%  101M 2s
 15800K .......... .......... .......... .......... .......... 16%  100M 2s
 15850K .......... .......... .......... .......... .......... 16% 58.0M 2s
 15900K .......... .......... .......... .......... .......... 16% 77.6M 2s
 15950K .......... .......... .......... .......... .......... 16%  101M 2s
 16000K .......... .......... .......... .......... .......... 16% 98.2M 2s
 16050K .......... .......... .......... .......... .......... 16% 96.6M 2s
 16100K .......... .......... .......... .......... .......... 16% 74.1M 2s
 16150K .......... .......... .......... .......... .......... 16% 97.1M 2s
 16200K .......... .......... .......... .......... .......... 16% 99.4M 2s
 16250K .......... .......... .......... .......... .......... 16%  101M 2s
 16300K .......... .......... .......... .......... .......... 16%  101M 2s
 16350K .......... .......... .......... .......... .......... 16%  102M 2s
 16400K .......... .......... .......... .......... .......... 16% 97.9M 2s
 16450K .......... .......... .......... .......... .......... 16%  105M 2s
 16500K .......... .......... .......... .......... .......... 17% 76.9M 2s
 16550K .......... .......... .......... .......... .......... 17% 99.1M 2s
 16600K .......... .......... .......... .......... .......... 17% 97.2M 2s
 16650K .......... .......... .......... .......... .......... 17%  102M 2s
 16700K .......... .......... .......... .......... .......... 17%  101M 2s
 16750K .......... .......... .......... .......... .......... 17%  103M 2s
 16800K .......... .......... .......... .......... .......... 17% 97.3M 2s
 16850K .......... .......... .......... .......... .......... 17%  101M 2s
 16900K .......... .......... .......... .......... .......... 17% 73.9M 2s
 16950K .......... .......... .......... .......... .......... 17% 90.4M 2s
 17000K .......... .......... .......... .......... .......... 17% 96.0M 2s
 17050K .......... .......... .......... .......... .......... 17% 96.1M 2s
 17100K .......... .......... .......... .......... .......... 17%  101M 2s
 17150K .......... .......... .......... .......... .......... 17% 98.7M 2s
 17200K .......... .......... .......... .......... .......... 17%  101M 2s
 17250K .......... .......... .......... .......... .......... 17%  100M 2s
 17300K .......... .......... .......... .......... .......... 17% 75.2M 2s
 17350K .......... .......... .......... .......... .......... 17% 99.0M 2s
 17400K .......... .......... .......... .......... .......... 17%  102M 2s
 17450K .......... .......... .......... .......... .......... 18%  100M 2s
 17500K .......... .......... .......... .......... .......... 18%  101M 2s
 17550K .......... .......... .......... .......... .......... 18% 98.2M 2s
 17600K .......... .......... .......... .......... .......... 18%  104M 2s
 17650K .......... .......... .......... .......... .......... 18% 98.6M 2s
 17700K .......... .......... .......... .......... .......... 18% 77.8M 2s
 17750K .......... .......... .......... .......... .......... 18% 95.3M 2s
 17800K .......... .......... .......... .......... .......... 18% 97.7M 2s
 17850K .......... .......... .......... .......... .......... 18% 90.6M 2s
 17900K .......... .......... .......... .......... .......... 18% 99.8M 2s
 17950K .......... .......... .......... .......... .......... 18% 98.7M 2s
 18000K .......... .......... .......... .......... .......... 18%  105M 2s
 18050K .......... .......... .......... .......... .......... 18%  100M 2s
 18100K .......... .......... .......... .......... .......... 18% 77.1M 2s
 18150K .......... .......... .......... .......... .......... 18% 96.0M 2s
 18200K .......... .......... .......... .......... .......... 18%  101M 2s
 18250K .......... .......... .......... .......... .......... 18%  101M 2s
 18300K .......... .......... .......... .......... .......... 18%  100M 2s
 18350K .......... .......... .......... .......... .......... 18%  102M 2s
 18400K .......... .......... .......... .......... .......... 18%  102M 2s
 18450K .......... .......... .......... .......... .......... 19%  102M 2s
 18500K .......... .......... .......... .......... .......... 19% 78.0M 2s
 18550K .......... .......... .......... .......... .......... 19% 96.7M 2s
 18600K .......... .......... .......... .......... .......... 19%  101M 2s
 18650K .......... .......... .......... .......... .......... 19% 97.2M 2s
 18700K .......... .......... .......... .......... .......... 19%  101M 2s
 18750K .......... .......... .......... .......... .......... 19%  102M 2s
 18800K .......... .......... .......... .......... .......... 19% 97.3M 2s
 18850K .......... .......... .......... .......... .......... 19%  101M 2s
 18900K .......... .......... .......... .......... .......... 19% 77.8M 2s
 18950K .......... .......... .......... .......... .......... 19%  105M 2s
 19000K .......... .......... .......... .......... .......... 19%  101M 2s
 19050K .......... .......... .......... .......... .......... 19% 98.1M 2s
 19100K .......... .......... .......... .......... .......... 19%  101M 2s
 19150K .......... .......... .......... .......... .......... 19%  105M 2s
 19200K .......... .......... .......... .......... .......... 19% 98.7M 2s
 19250K .......... .......... .......... .......... .......... 19%  101M 1s
 19300K .......... .......... .......... .......... .......... 19% 72.6M 1s
 19350K .......... .......... .......... .......... .......... 19%  101M 1s
 19400K .......... .......... .......... .......... .......... 20%  102M 1s
 19450K .......... .......... .......... .......... .......... 20%  101M 1s
 19500K .......... .......... .......... .......... .......... 20% 98.3M 1s
 19550K .......... .......... .......... .......... .......... 20% 97.5M 1s
 19600K .......... .......... .......... .......... .......... 20% 97.9M 1s
 19650K .......... .......... .......... .......... .......... 20% 98.6M 1s
 19700K .......... .......... .......... .......... .......... 20% 77.5M 1s
 19750K .......... .......... .......... .......... .......... 20%  101M 1s
 19800K .......... .......... .......... .......... .......... 20% 97.9M 1s
 19850K .......... .......... .......... .......... .......... 20% 98.3M 1s
 19900K .......... .......... .......... .......... .......... 20%  101M 1s
 19950K .......... .......... .......... .......... .......... 20%  103M 1s
 20000K .......... .......... .......... .......... .......... 20%  104M 1s
 20050K .......... .......... .......... .......... .......... 20%  100M 1s
 20100K .......... .......... .......... .......... .......... 20% 74.4M 1s
 20150K .......... .......... .......... .......... .......... 20% 99.0M 1s
 20200K .......... .......... .......... .......... .......... 20%  104M 1s
 20250K .......... .......... .......... .......... .......... 20% 98.6M 1s
 20300K .......... .......... .......... .......... .......... 20%  101M 1s
 20350K .......... .......... .......... .......... .......... 20%  105M 1s
 20400K .......... .......... .......... .......... .......... 21%  105M 1s
 20450K .......... .......... .......... .......... .......... 21%  103M 1s
 20500K .......... .......... .......... .......... .......... 21% 71.4M 1s
 20550K .......... .......... .......... .......... .......... 21% 99.9M 1s
 20600K .......... .......... .......... .......... .......... 21%  106M 1s
 20650K .......... .......... .......... .......... .......... 21%  101M 1s
 20700K .......... .......... .......... .......... .......... 21%  101M 1s
 20750K .......... .......... .......... .......... .......... 21%  102M 1s
 20800K .......... .......... .......... .......... .......... 21%  100M 1s
 20850K .......... .......... .......... .......... .......... 21%  102M 1s
 20900K .......... .......... .......... .......... .......... 21% 76.1M 1s
 20950K .......... .......... .......... .......... .......... 21%  101M 1s
 21000K .......... .......... .......... .......... .......... 21%  101M 1s
 21050K .......... .......... .......... .......... .......... 21%  104M 1s
 21100K .......... .......... .......... .......... .......... 21%  102M 1s
 21150K .......... .......... .......... .......... .......... 21%  102M 1s
 21200K .......... .......... .......... .......... .......... 21%  104M 1s
 21250K .......... .......... .......... .......... .......... 21%  102M 1s
 21300K .......... .......... .......... .......... .......... 21% 73.5M 1s
 21350K .......... .......... .......... .......... .......... 22% 98.1M 1s
 21400K .......... .......... .......... .......... .......... 22% 99.2M 1s
 21450K .......... .......... .......... .......... .......... 22%  101M 1s
 21500K .......... .......... .......... .......... .......... 22%  105M 1s
 21550K .......... .......... .......... .......... .......... 22%  101M 1s
 21600K .......... .......... .......... .......... .......... 22% 97.9M 1s
 21650K .......... .......... .......... .......... .......... 22%  101M 1s
 21700K .......... .......... .......... .......... .......... 22% 67.2M 1s
 21750K .......... .......... .......... .......... .......... 22% 99.2M 1s
 21800K .......... .......... .......... .......... .......... 22%  100M 1s
 21850K .......... .......... .......... .......... .......... 22%  101M 1s
 21900K .......... .......... .......... .......... .......... 22%  105M 1s
 21950K .......... .......... .......... .......... .......... 22%  101M 1s
 22000K .......... .......... .......... .......... .......... 22%  101M 1s
 22050K .......... .......... .......... .......... .......... 22%  101M 1s
 22100K .......... .......... .......... .......... .......... 22% 73.4M 1s
 22150K .......... .......... .......... .......... .......... 22%  101M 1s
 22200K .......... .......... .......... .......... .......... 22% 99.6M 1s
 22250K .......... .......... .......... .......... .......... 22% 99.2M 1s
 22300K .......... .......... .......... .......... .......... 22% 97.8M 1s
 22350K .......... .......... .......... .......... .......... 23% 98.4M 1s
 22400K .......... .......... .......... .......... .......... 23%  102M 1s
 22450K .......... .......... .......... .......... .......... 23% 97.5M 1s
 22500K .......... .......... .......... .......... .......... 23% 75.8M 1s
 22550K .......... .......... .......... .......... .......... 23%  100M 1s
 22600K .......... .......... .......... .......... .......... 23%  104M 1s
 22650K .......... .......... .......... .......... .......... 23%  101M 1s
 22700K .......... .......... .......... .......... .......... 23%  102M 1s
 22750K .......... .......... .......... .......... .......... 23% 97.3M 1s
 22800K .......... .......... .......... .......... .......... 23%  104M 1s
 22850K .......... .......... .......... .......... .......... 23%  101M 1s
 22900K .......... .......... .......... .......... .......... 23% 73.5M 1s
 22950K .......... .......... .......... .......... .......... 23%  101M 1s
 23000K .......... .......... .......... .......... .......... 23%  102M 1s
 23050K .......... .......... .......... .......... .......... 23%  100M 1s
 23100K .......... .......... .......... .......... .......... 23%  101M 1s
 23150K .......... .......... .......... .......... .......... 23%  102M 1s
 23200K .......... .......... .......... .......... .......... 23%  101M 1s
 23250K .......... .......... .......... .......... .......... 23%  105M 1s
 23300K .......... .......... .......... .......... .......... 24% 72.5M 1s
 23350K .......... .......... .......... .......... .......... 24%  100M 1s
 23400K .......... .......... .......... .......... .......... 24%  105M 1s
 23450K .......... .......... .......... .......... .......... 24%  105M 1s
 23500K .......... .......... .......... .......... .......... 24%  101M 1s
 23550K .......... .......... .......... .......... .......... 24%  101M 1s
 23600K .......... .......... .......... .......... .......... 24%  100M 1s
 23650K .......... .......... .......... .......... .......... 24%  105M 1s
 23700K .......... .......... .......... .......... .......... 24% 74.2M 1s
 23750K .......... .......... .......... .......... .......... 24%  100M 1s
 23800K .......... .......... .......... .......... .......... 24%  101M 1s
 23850K .......... .......... .......... .......... .......... 24% 97.6M 1s
 23900K .......... .......... .......... .......... .......... 24%  102M 1s
 23950K .......... .......... .......... .......... .......... 24%  102M 1s
 24000K .......... .......... .......... .......... .......... 24%  100M 1s
 24050K .......... .......... .......... .......... .......... 24% 95.7M 1s
 24100K .......... .......... .......... .......... .......... 24% 71.5M 1s
 24150K .......... .......... .......... .......... .......... 24% 97.6M 1s
 24200K .......... .......... .......... .......... .......... 24%  104M 1s
 24250K .......... .......... .......... .......... .......... 24% 97.7M 1s
 24300K .......... .......... .......... .......... .......... 25% 97.7M 1s
 24350K .......... .......... .......... .......... .......... 25% 94.2M 1s
 24400K .......... .......... .......... .......... .......... 25% 97.4M 1s
 24450K .......... .......... .......... .......... .......... 25%  103M 1s
 24500K .......... .......... .......... .......... .......... 25% 75.3M 1s
 24550K .......... .......... .......... .......... .......... 25% 97.8M 1s
 24600K .......... .......... .......... .......... .......... 25%  101M 1s
 24650K .......... .......... .......... .......... .......... 25%  102M 1s
 24700K .......... .......... .......... .......... .......... 25%  101M 1s
 24750K .......... .......... .......... .......... .......... 25%  106M 1s
 24800K .......... .......... .......... .......... .......... 25% 99.1M 1s
 24850K .......... .......... .......... .......... .......... 25%  101M 1s
 24900K .......... .......... .......... .......... .......... 25% 79.7M 1s
 24950K .......... .......... .......... .......... .......... 25%  101M 1s
 25000K .......... .......... .......... .......... .......... 25% 98.4M 1s
 25050K .......... .......... .......... .......... .......... 25%  104M 1s
 25100K .......... .......... .......... .......... .......... 25%  104M 1s
 25150K .......... .......... .......... .......... .......... 25%  102M 1s
 25200K .......... .......... .......... .......... .......... 25% 98.6M 1s
 25250K .......... .......... .......... .......... .......... 26% 93.7M 1s
 25300K .......... .......... .......... .......... .......... 26% 73.2M 1s
 25350K .......... .......... .......... .......... .......... 26% 95.8M 1s
 25400K .......... .......... .......... .......... .......... 26%  101M 1s
 25450K .......... .......... .......... .......... .......... 26%  101M 1s
 25500K .......... .......... .......... .......... .......... 26%  105M 1s
 25550K .......... .......... .......... .......... .......... 26% 98.4M 1s
 25600K .......... .......... .......... .......... .......... 26% 99.0M 1s
 25650K .......... .......... .......... .......... .......... 26% 77.4M 1s
 25700K .......... .......... .......... .......... .......... 26% 75.0M 1s
 25750K .......... .......... .......... .......... .......... 26%  105M 1s
 25800K .......... .......... .......... .......... .......... 26%  105M 1s
 25850K .......... .......... .......... .......... .......... 26% 97.9M 1s
 25900K .......... .......... .......... .......... .......... 26%  101M 1s
 25950K .......... .......... .......... .......... .......... 26% 98.6M 1s
 26000K .......... .......... .......... .......... .......... 26% 97.8M 1s
 26050K .......... .......... .......... .......... .......... 26% 96.2M 1s
 26100K .......... .......... .......... .......... .......... 26% 76.2M 1s
 26150K .......... .......... .......... .......... .......... 26%  101M 1s
 26200K .......... .......... .......... .......... .......... 27% 98.1M 1s
 26250K .......... .......... .......... .......... .......... 27%  102M 1s
 26300K .......... .......... .......... .......... .......... 27%  102M 1s
 26350K .......... .......... .......... .......... .......... 27% 97.2M 1s
 26400K .......... .......... .......... .......... .......... 27% 93.3M 1s
 26450K .......... .......... .......... .......... .......... 27%  101M 1s
 26500K .......... .......... .......... .......... .......... 27% 76.8M 1s
 26550K .......... .......... .......... .......... .......... 27%  102M 1s
 26600K .......... .......... .......... .......... .......... 27% 99.9M 1s
 26650K .......... .......... .......... .......... .......... 27%  105M 1s
 26700K .......... .......... .......... .......... .......... 27%  103M 1s
 26750K .......... .......... .......... .......... .......... 27%  101M 1s
 26800K .......... .......... .......... .......... .......... 27%  103M 1s
 26850K .......... .......... .......... .......... .......... 27%  100M 1s
 26900K .......... .......... .......... .......... .......... 27% 75.7M 1s
 26950K .......... .......... .......... .......... .......... 27% 99.2M 1s
 27000K .......... .......... .......... .......... .......... 27%  105M 1s
 27050K .......... .......... .......... .......... .......... 27%  105M 1s
 27100K .......... .......... .......... .......... .......... 27% 98.0M 1s
 27150K .......... .......... .......... .......... .......... 27%  102M 1s
 27200K .......... .......... .......... .......... .......... 28% 99.6M 1s
 27250K .......... .......... .......... .......... .......... 28%  104M 1s
 27300K .......... .......... .......... .......... .......... 28% 76.0M 1s
 27350K .......... .......... .......... .......... .......... 28%  104M 1s
 27400K .......... .......... .......... .......... .......... 28%  105M 1s
 27450K .......... .......... .......... .......... .......... 28%  102M 1s
 27500K .......... .......... .......... .......... .......... 28%  101M 1s
 27550K .......... .......... .......... .......... .......... 28% 98.1M 1s
 27600K .......... .......... .......... .......... .......... 28% 95.6M 1s
 27650K .......... .......... .......... .......... .......... 28% 97.9M 1s
 27700K .......... .......... .......... .......... .......... 28% 73.9M 1s
 27750K .......... .......... .......... .......... .......... 28%  101M 1s
 27800K .......... .......... .......... .......... .......... 28% 98.7M 1s
 27850K .......... .......... .......... .......... .......... 28% 97.7M 1s
 27900K .......... .......... .......... .......... .......... 28% 98.1M 1s
 27950K .......... .......... .......... .......... .......... 28%  101M 1s
 28000K .......... .......... .......... .......... .......... 28% 97.8M 1s
 28050K .......... .......... .......... .......... .......... 28% 95.5M 1s
 28100K .......... .......... .......... .......... .......... 28% 77.2M 1s
 28150K .......... .......... .......... .......... .......... 29%  102M 1s
 28200K .......... .......... .......... .......... .......... 29% 97.6M 1s
 28250K .......... .......... .......... .......... .......... 29%  101M 1s
 28300K .......... .......... .......... .......... .......... 29%  102M 1s
 28350K .......... .......... .......... .......... .......... 29%  104M 1s
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 28450K .......... .......... .......... .......... .......... 29%  101M 1s
 28500K .......... .......... .......... .......... .......... 29% 75.2M 1s
 28550K .......... .......... .......... .......... .......... 29%  101M 1s
 28600K .......... .......... .......... .......... .......... 29%  101M 1s
 28650K .......... .......... .......... .......... .......... 29%  105M 1s
 28700K .......... .......... .......... .......... .......... 29% 98.8M 1s
 28750K .......... .......... .......... .......... .......... 29% 99.8M 1s
 28800K .......... .......... .......... .......... .......... 29% 98.5M 1s
 28850K .......... .......... .......... .......... .......... 29% 94.6M 1s
 28900K .......... .......... .......... .......... .......... 29% 73.8M 1s
 28950K .......... .......... .......... .......... .......... 29%  101M 1s
 29000K .......... .......... .......... .......... .......... 29%  105M 1s
 29050K .......... .......... .......... .......... .......... 29%  102M 1s
 29100K .......... .......... .......... .......... .......... 29%  100M 1s
 29150K .......... .......... .......... .......... .......... 30%  101M 1s
 29200K .......... .......... .......... .......... .......... 30% 96.5M 1s
 29250K .......... .......... .......... .......... .......... 30% 97.5M 1s
 29300K .......... .......... .......... .......... .......... 30% 77.3M 1s
 29350K .......... .......... .......... .......... .......... 30%  101M 1s
 29400K .......... .......... .......... .......... .......... 30% 98.3M 1s
 29450K .......... .......... .......... .......... .......... 30% 98.6M 1s
 29500K .......... .......... .......... .......... .......... 30%  102M 1s
 29550K .......... .......... .......... .......... .......... 30%  103M 1s
 29600K .......... .......... .......... .......... .......... 30%  104M 1s
 29650K .......... .......... .......... .......... .......... 30%  102M 1s
 29700K .......... .......... .......... .......... .......... 30% 75.3M 1s
 29750K .......... .......... .......... .......... .......... 30%  105M 1s
 29800K .......... .......... .......... .......... .......... 30%  102M 1s
 29850K .......... .......... .......... .......... .......... 30% 97.6M 1s
 29900K .......... .......... .......... .......... .......... 30%  100M 1s
 29950K .......... .......... .......... .......... .......... 30% 99.1M 1s
 30000K .......... .......... .......... .......... .......... 30% 95.5M 1s
 30050K .......... .......... .......... .......... .......... 30% 98.4M 1s
 30100K .......... .......... .......... .......... .......... 31% 76.8M 1s
 30150K .......... .......... .......... .......... .......... 31%  102M 1s
 30200K .......... .......... .......... .......... .......... 31%  101M 1s
 30250K .......... .......... .......... .......... .......... 31%  101M 1s
 30300K .......... .......... .......... .......... .......... 31%  104M 1s
 30350K .......... .......... .......... .......... .......... 31% 95.3M 1s
 30400K .......... .......... .......... .......... .......... 31% 98.1M 1s
 30450K .......... .......... .......... .......... .......... 31%  102M 1s
 30500K .......... .......... .......... .......... .......... 31% 73.4M 1s
 30550K .......... .......... .......... .......... .......... 31%  105M 1s
 30600K .......... .......... .......... .......... .......... 31%  100M 1s
 30650K .......... .......... .......... .......... .......... 31%  101M 1s
 30700K .......... .......... .......... .......... .......... 31%  102M 1s
 30750K .......... .......... .......... .......... .......... 31% 96.4M 1s
 30800K .......... .......... .......... .......... .......... 31%  101M 1s
 30850K .......... .......... .......... .......... .......... 31% 98.2M 1s
 30900K .......... .......... .......... .......... .......... 31% 76.0M 1s
 30950K .......... .......... .......... .......... .......... 31%  101M 1s
 31000K .......... .......... .......... .......... .......... 31%  101M 1s
 31050K .......... .......... .......... .......... .......... 31%  104M 1s
 31100K .......... .......... .......... .......... .......... 32% 97.7M 1s
 31150K .......... .......... .......... .......... .......... 32% 96.7M 1s
 31200K .......... .......... .......... .......... .......... 32% 97.2M 1s
 31250K .......... .......... .......... .......... .......... 32%  101M 1s
 31300K .......... .......... .......... .......... .......... 32% 77.3M 1s
 31350K .......... .......... .......... .......... .......... 32% 97.2M 1s
 31400K .......... .......... .......... .......... .......... 32%  101M 1s
 31450K .......... .......... .......... .......... .......... 32%  104M 1s
 31500K .......... .......... .......... .......... .......... 32%  105M 1s
 31550K .......... .......... .......... .......... .......... 32% 99.7M 1s
 31600K .......... .......... .......... .......... .......... 32%  101M 1s
 31650K .......... .......... .......... .......... .......... 32% 96.8M 1s
 31700K .......... .......... .......... .......... .......... 32% 75.1M 1s
 31750K .......... .......... .......... .......... .......... 32%  104M 1s
 31800K .......... .......... .......... .......... .......... 32%  105M 1s
 31850K .......... .......... .......... .......... .......... 32%  101M 1s
 31900K .......... .......... .......... .......... .......... 32% 99.7M 1s
 31950K .......... .......... .......... .......... .......... 32% 96.7M 1s
 32000K .......... .......... .......... .......... .......... 32%  100M 1s
 32050K .......... .......... .......... .......... .......... 33% 99.9M 1s
 32100K .......... .......... .......... .......... .......... 33% 62.5M 1s
 32150K .......... .......... .......... .......... .......... 33%  100M 1s
 32200K .......... .......... .......... .......... .......... 33%  103M 1s
 32250K .......... .......... .......... .......... .......... 33%  101M 1s
 32300K .......... .......... .......... .......... .......... 33% 97.7M 1s
 32350K .......... .......... .......... .......... .......... 33% 98.8M 1s
 32400K .......... .......... .......... .......... .......... 33%  100M 1s
 32450K .......... .......... .......... .......... .......... 33%  100M 1s
 32500K .......... .......... .......... .......... .......... 33% 73.8M 1s
 32550K .......... .......... .......... .......... .......... 33%  100M 1s
 32600K .......... .......... .......... .......... .......... 33%  104M 1s
 32650K .......... .......... .......... .......... .......... 33%  101M 1s
 32700K .......... .......... .......... .......... .......... 33% 99.7M 1s
 32750K .......... .......... .......... .......... .......... 33% 97.3M 1s
 32800K .......... .......... .......... .......... .......... 33% 98.3M 1s
 32850K .......... .......... .......... .......... .......... 33%  104M 1s
 32900K .......... .......... .......... .......... .......... 33% 73.5M 1s
 32950K .......... .......... .......... .......... .......... 33% 98.0M 1s
 33000K .......... .......... .......... .......... .......... 33%  101M 1s
 33050K .......... .......... .......... .......... .......... 34% 84.9M 1s
 33100K .......... .......... .......... .......... .......... 34% 73.1M 1s
 33150K .......... .......... .......... .......... .......... 34% 99.5M 1s
 33200K .......... .......... .......... .......... .......... 34%  100M 1s
 33250K .......... .......... .......... .......... .......... 34%  102M 1s
 33300K .......... .......... .......... .......... .......... 34% 75.3M 1s
 33350K .......... .......... .......... .......... .......... 34% 98.3M 1s
 33400K .......... .......... .......... .......... .......... 34%  102M 1s
 33450K .......... .......... .......... .......... .......... 34% 97.9M 1s
 33500K .......... .......... .......... .......... .......... 34% 95.6M 1s
 33550K .......... .......... .......... .......... .......... 34%  101M 1s
 33600K .......... .......... .......... .......... .......... 34% 97.6M 1s
 33650K .......... .......... .......... .......... .......... 34% 98.4M 1s
 33700K .......... .......... .......... .......... .......... 34% 76.1M 1s
 33750K .......... .......... .......... .......... .......... 34%  104M 1s
 33800K .......... .......... .......... .......... .......... 34%  105M 1s
 33850K .......... .......... .......... .......... .......... 34%  103M 1s
 33900K .......... .......... .......... .......... .......... 34%  100M 1s
 33950K .......... .......... .......... .......... .......... 34% 98.1M 1s
 34000K .......... .......... .......... .......... .......... 35%  102M 1s
 34050K .......... .......... .......... .......... .......... 35%  101M 1s
 34100K .......... .......... .......... .......... .......... 35% 77.6M 1s
 34150K .......... .......... .......... .......... .......... 35%  103M 1s
 34200K .......... .......... .......... .......... .......... 35% 98.8M 1s
 34250K .......... .......... .......... .......... .......... 35% 98.0M 1s
 34300K .......... .......... .......... .......... .......... 35% 99.4M 1s
 34350K .......... .......... .......... .......... .......... 35%  100M 1s
 34400K .......... .......... .......... .......... .......... 35%  105M 1s
 34450K .......... .......... .......... .......... .......... 35% 99.6M 1s
 34500K .......... .......... .......... .......... .......... 35% 73.6M 1s
 34550K .......... .......... .......... .......... .......... 35% 97.7M 1s
 34600K .......... .......... .......... .......... .......... 35%  104M 1s
 34650K .......... .......... .......... .......... .......... 35% 95.8M 1s
 34700K .......... .......... .......... .......... .......... 35% 99.3M 1s
 34750K .......... .......... .......... .......... .......... 35%  102M 1s
 34800K .......... .......... .......... .......... .......... 35% 97.4M 1s
 34850K .......... .......... .......... .......... .......... 35%  100M 1s
 34900K .......... .......... .......... .......... .......... 35% 77.2M 1s
 34950K .......... .......... .......... .......... .......... 36% 99.1M 1s
 35000K .......... .......... .......... .......... .......... 36% 97.4M 1s
 35050K .......... .......... .......... .......... .......... 36%  102M 1s
 35100K .......... .......... .......... .......... .......... 36%  105M 1s
 35150K .......... .......... .......... .......... .......... 36%  101M 1s
 35200K .......... .......... .......... .......... .......... 36% 98.6M 1s
 35250K .......... .......... .......... .......... .......... 36%  101M 1s
 35300K .......... .......... .......... .......... .......... 36% 75.8M 1s
 35350K .......... .......... .......... .......... .......... 36%  101M 1s
 35400K .......... .......... .......... .......... .......... 36%  104M 1s
 35450K .......... .......... .......... .......... .......... 36%  103M 1s
 35500K .......... .......... .......... .......... .......... 36%  101M 1s
 35550K .......... .......... .......... .......... .......... 36% 98.9M 1s
 35600K .......... .......... .......... .......... .......... 36% 98.1M 1s
 35650K .......... .......... .......... .......... .......... 36%  101M 1s
 35700K .......... .......... .......... .......... .......... 36% 79.4M 1s
 35750K .......... .......... .......... .......... .......... 36%  105M 1s
 35800K .......... .......... .......... .......... .......... 36% 98.5M 1s
 35850K .......... .......... .......... .......... .......... 36% 94.7M 1s
 35900K .......... .......... .......... .......... .......... 36%  101M 1s
 35950K .......... .......... .......... .......... .......... 37%  102M 1s
 36000K .......... .......... .......... .......... .......... 37%  101M 1s
 36050K .......... .......... .......... .......... .......... 37%  102M 1s
 36100K .......... .......... .......... .......... .......... 37% 74.0M 1s
 36150K .......... .......... .......... .......... .......... 37% 97.3M 1s
 36200K .......... .......... .......... .......... .......... 37%  101M 1s
 36250K .......... .......... .......... .......... .......... 37% 95.7M 1s
 36300K .......... .......... .......... .......... .......... 37% 98.4M 1s
 36350K .......... .......... .......... .......... .......... 37% 97.6M 1s
 36400K .......... .......... .......... .......... .......... 37%  103M 1s
 36450K .......... .......... .......... .......... .......... 37%  101M 1s
 36500K .......... .......... .......... .......... .......... 37% 74.9M 1s
 36550K .......... .......... .......... .......... .......... 37% 98.1M 1s
 36600K .......... .......... .......... .......... .......... 37% 96.0M 1s
 36650K .......... .......... .......... .......... .......... 37%  103M 1s
 36700K .......... .......... .......... .......... .......... 37%  101M 1s
 36750K .......... .......... .......... .......... .......... 37%  102M 1s
 36800K .......... .......... .......... .......... .......... 37%  105M 1s
 36850K .......... .......... .......... .......... .......... 37%  101M 1s
 36900K .......... .......... .......... .......... .......... 38% 76.3M 1s
 36950K .......... .......... .......... .......... .......... 38%  101M 1s
 37000K .......... .......... .......... .......... .......... 38%  101M 1s
 37050K .......... .......... .......... .......... .......... 38% 92.4M 1s
 37100K .......... .......... .......... .......... .......... 38% 98.8M 1s
 37150K .......... .......... .......... .......... .......... 38% 98.9M 1s
 37200K .......... .......... .......... .......... .......... 38%  105M 1s
 37250K .......... .......... .......... .......... .......... 38% 98.6M 1s
 37300K .......... .......... .......... .......... .......... 38% 77.0M 1s
 37350K .......... .......... .......... .......... .......... 38%  100M 1s
 37400K .......... .......... .......... .......... .......... 38% 96.2M 1s
 37450K .......... .......... .......... .......... .......... 38%  100M 1s
 37500K .......... .......... .......... .......... .......... 38%  102M 1s
 37550K .......... .......... .......... .......... .......... 38%  102M 1s
 37600K .......... .......... .......... .......... .......... 38%  101M 1s
 37650K .......... .......... .......... .......... .......... 38%  101M 1s
 37700K .......... .......... .......... .......... .......... 38% 75.2M 1s
 37750K .......... .......... .......... .......... .......... 38%  104M 1s
 37800K .......... .......... .......... .......... .......... 38%  102M 1s
 37850K .......... .......... .......... .......... .......... 38% 98.3M 1s
 37900K .......... .......... .......... .......... .......... 39% 97.3M 1s
 37950K .......... .......... .......... .......... .......... 39%  101M 1s
 38000K .......... .......... .......... .......... .......... 39%  101M 1s
 38050K .......... .......... .......... .......... .......... 39%  102M 1s
 38100K .......... .......... .......... .......... .......... 39% 74.9M 1s
 38150K .......... .......... .......... .......... .......... 39%  101M 1s
 38200K .......... .......... .......... .......... .......... 39% 96.1M 1s
 38250K .......... .......... .......... .......... .......... 39% 96.6M 1s
 38300K .......... .......... .......... .......... .......... 39% 99.5M 1s
 38350K .......... .......... .......... .......... .......... 39%  104M 1s
 38400K .......... .......... .......... .......... .......... 39%  104M 1s
 38450K .......... .......... .......... .......... .......... 39% 95.8M 1s
 38500K .......... .......... .......... .......... .......... 39% 77.1M 1s
 38550K .......... .......... .......... .......... .......... 39% 98.7M 1s
 38600K .......... .......... .......... .......... .......... 39% 95.9M 1s
 38650K .......... .......... .......... .......... .......... 39%  101M 1s
 38700K .......... .......... .......... .......... .......... 39%  102M 1s
 38750K .......... .......... .......... .......... .......... 39%  101M 1s
 38800K .......... .......... .......... .......... .......... 39%  101M 1s
 38850K .......... .......... .......... .......... .......... 40%  101M 1s
 38900K .......... .......... .......... .......... .......... 40% 75.6M 1s
 38950K .......... .......... .......... .......... .......... 40%  101M 1s
 39000K .......... .......... .......... .......... .......... 40% 98.1M 1s
 39050K .......... .......... .......... .......... .......... 40% 97.5M 1s
 39100K .......... .......... .......... .......... .......... 40%  102M 1s
 39150K .......... .......... .......... .......... .......... 40%  102M 1s
 39200K .......... .......... .......... .......... .......... 40%  104M 1s
 39250K .......... .......... .......... .......... .......... 40%  105M 1s
 39300K .......... .......... .......... .......... .......... 40% 75.8M 1s
 39350K .......... .......... .......... .......... .......... 40%  104M 1s
 39400K .......... .......... .......... .......... .......... 40% 95.8M 1s
 39450K .......... .......... .......... .......... .......... 40%  101M 1s
 39500K .......... .......... .......... .......... .......... 40%  105M 1s
 39550K .......... .......... .......... .......... .......... 40% 99.0M 1s
 39600K .......... .......... .......... .......... .......... 40% 98.4M 1s
 39650K .......... .......... .......... .......... .......... 40%  103M 1s
 39700K .......... .......... .......... .......... .......... 40% 73.1M 1s
 39750K .......... .......... .......... .......... .......... 40% 99.9M 1s
 39800K .......... .......... .......... .......... .......... 40% 96.9M 1s
 39850K .......... .......... .......... .......... .......... 41%  102M 1s
 39900K .......... .......... .......... .......... .......... 41% 97.6M 1s
 39950K .......... .......... .......... .......... .......... 41% 96.0M 1s
 40000K .......... .......... .......... .......... .......... 41%  101M 1s
 40050K .......... .......... .......... .......... .......... 41%  103M 1s
 40100K .......... .......... .......... .......... .......... 41% 75.8M 1s
 40150K .......... .......... .......... .......... .......... 41% 94.5M 1s
 40200K .......... .......... .......... .......... .......... 41%  104M 1s
 40250K .......... .......... .......... .......... .......... 41%  103M 1s
 40300K .......... .......... .......... .......... .......... 41% 98.3M 1s
 40350K .......... .......... .......... .......... .......... 41%  101M 1s
 40400K .......... .......... .......... .......... .......... 41%  102M 1s
 40450K .......... .......... .......... .......... .......... 41%  100M 1s
 40500K .......... .......... .......... .......... .......... 41% 75.9M 1s
 40550K .......... .......... .......... .......... .......... 41%  102M 1s
 40600K .......... .......... .......... .......... .......... 41% 95.4M 1s
 40650K .......... .......... .......... .......... .......... 41% 98.3M 1s
 40700K .......... .......... .......... .......... .......... 41%  103M 1s
 40750K .......... .......... .......... .......... .......... 41% 98.8M 1s
 40800K .......... .......... .......... .......... .......... 42% 98.3M 1s
 40850K .......... .......... .......... .......... .......... 42% 98.3M 1s
 40900K .......... .......... .......... .......... .......... 42% 79.2M 1s
 40950K .......... .......... .......... .......... .......... 42% 96.4M 1s
 41000K .......... .......... .......... .......... .......... 42%  100M 1s
 41050K .......... .......... .......... .......... .......... 42%  101M 1s
 41100K .......... .......... .......... .......... .......... 42% 98.0M 1s
 41150K .......... .......... .......... .......... .......... 42%  102M 1s
 41200K .......... .......... .......... .......... .......... 42%  100M 1s
 41250K .......... .......... .......... .......... .......... 42% 98.4M 1s
 41300K .......... .......... .......... .......... .......... 42% 75.1M 1s
 41350K .......... .......... .......... .......... .......... 42% 99.2M 1s
 41400K .......... .......... .......... .......... .......... 42%  101M 1s
 41450K .......... .......... .......... .......... .......... 42%  104M 1s
 41500K .......... .......... .......... .......... .......... 42% 98.5M 1s
 41550K .......... .......... .......... .......... .......... 42% 98.5M 1s
 41600K .......... .......... .......... .......... .......... 42% 98.4M 1s
 41650K .......... .......... .......... .......... .......... 42%  101M 1s
 41700K .......... .......... .......... .......... .......... 42% 76.9M 1s
 41750K .......... .......... .......... .......... .......... 42% 97.3M 1s
 41800K .......... .......... .......... .......... .......... 43% 96.6M 1s
 41850K .......... .......... .......... .......... .......... 43% 95.7M 1s
 41900K .......... .......... .......... .......... .......... 43% 94.0M 1s
 41950K .......... .......... .......... .......... .......... 43% 96.8M 1s
 42000K .......... .......... .......... .......... .......... 43% 98.2M 1s
 42050K .......... .......... .......... .......... .......... 43%  101M 1s
 42100K .......... .......... .......... .......... .......... 43% 79.0M 1s
 42150K .......... .......... .......... .......... .......... 43% 94.9M 1s
 42200K .......... .......... .......... .......... .......... 43% 96.0M 1s
 42250K .......... .......... .......... .......... .......... 43%  103M 1s
 42300K .......... .......... .......... .......... .......... 43% 98.9M 1s
 42350K .......... .......... .......... .......... .......... 43% 96.5M 1s
 42400K .......... .......... .......... .......... .......... 43%  101M 1s
 42450K .......... .......... .......... .......... .......... 43% 97.1M 1s
 42500K .......... .......... .......... .......... .......... 43% 74.3M 1s
 42550K .......... .......... .......... .......... .......... 43%  103M 1s
 42600K .......... .......... .......... .......... .......... 43% 73.6M 1s
 42650K .......... .......... .......... .......... .......... 43% 84.9M 1s
 42700K .......... .......... .......... .......... .......... 43%  104M 1s
 42750K .......... .......... .......... .......... .......... 44% 98.0M 1s
 42800K .......... .......... .......... .......... .......... 44%  101M 1s
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 42900K .......... .......... .......... .......... .......... 44% 71.8M 1s
 42950K .......... .......... .......... .......... .......... 44%  104M 1s
 43000K .......... .......... .......... .......... .......... 44% 98.8M 1s
 43050K .......... .......... .......... .......... .......... 44% 99.3M 1s
 43100K .......... .......... .......... .......... .......... 44%  101M 1s
 43150K .......... .......... .......... .......... .......... 44%  105M 1s
 43200K .......... .......... .......... .......... .......... 44%  102M 1s
 43250K .......... .......... .......... .......... .......... 44% 98.1M 1s
 43300K .......... .......... .......... .......... .......... 44% 75.6M 1s
 43350K .......... .......... .......... .......... .......... 44%  102M 1s
 43400K .......... .......... .......... .......... .......... 44%  101M 1s
 43450K .......... .......... .......... .......... .......... 44% 99.8M 1s
 43500K .......... .......... .......... .......... .......... 44% 97.8M 1s
 43550K .......... .......... .......... .......... .......... 44% 96.5M 1s
 43600K .......... .......... .......... .......... .......... 44%  105M 1s
 43650K .......... .......... .......... .......... .......... 44% 97.3M 1s
 43700K .......... .......... .......... .......... .......... 45% 75.9M 1s
 43750K .......... .......... .......... .......... .......... 45%  106M 1s
 43800K .......... .......... .......... .......... .......... 45%  101M 1s
 43850K .......... .......... .......... .......... .......... 45% 98.8M 1s
 43900K .......... .......... .......... .......... .......... 45%  105M 1s
 43950K .......... .......... .......... .......... .......... 45%  105M 1s
 44000K .......... .......... .......... .......... .......... 45%  101M 1s
 44050K .......... .......... .......... .......... .......... 45%  102M 1s
 44100K .......... .......... .......... .......... .......... 45% 66.4M 1s
 44150K .......... .......... .......... .......... .......... 45%  105M 1s
 44200K .......... .......... .......... .......... .......... 45% 97.7M 1s
 44250K .......... .......... .......... .......... .......... 45%  106M 1s
 44300K .......... .......... .......... .......... .......... 45% 99.0M 1s
 44350K .......... .......... .......... .......... .......... 45%  101M 1s
 44400K .......... .......... .......... .......... .......... 45%  105M 1s
 44450K .......... .......... .......... .......... .......... 45%  104M 1s
 44500K .......... .......... .......... .......... .......... 45% 76.0M 1s
 44550K .......... .......... .......... .......... .......... 45%  102M 1s
 44600K .......... .......... .......... .......... .......... 45%  101M 1s
 44650K .......... .......... .......... .......... .......... 45% 97.8M 1s
 44700K .......... .......... .......... .......... .......... 46% 97.3M 1s
 44750K .......... .......... .......... .......... .......... 46% 99.0M 1s
 44800K .......... .......... .......... .......... .......... 46% 96.0M 1s
 44850K .......... .......... .......... .......... .......... 46%  105M 1s
 44900K .......... .......... .......... .......... .......... 46% 74.0M 1s
 44950K .......... .......... .......... .......... .......... 46%  104M 1s
 45000K .......... .......... .......... .......... .......... 46% 95.9M 1s
 45050K .......... .......... .......... .......... .......... 46%  105M 1s
 45100K .......... .......... .......... .......... .......... 46%  105M 1s
 45150K .......... .......... .......... .......... .......... 46%  100M 1s
 45200K .......... .......... .......... .......... .......... 46%  102M 1s
 45250K .......... .......... .......... .......... .......... 46%  101M 1s
 45300K .......... .......... .......... .......... .......... 46% 72.7M 1s
 45350K .......... .......... .......... .......... .......... 46%  101M 1s
 45400K .......... .......... .......... .......... .......... 46%  100M 1s
 45450K .......... .......... .......... .......... .......... 46%  104M 1s
 45500K .......... .......... .......... .......... .......... 46%  104M 1s
 45550K .......... .......... .......... .......... .......... 46% 98.0M 1s
 45600K .......... .......... .......... .......... .......... 46% 98.2M 1s
 45650K .......... .......... .......... .......... .......... 47% 97.1M 1s
 45700K .......... .......... .......... .......... .......... 47% 76.8M 1s
 45750K .......... .......... .......... .......... .......... 47%  101M 1s
 45800K .......... .......... .......... .......... .......... 47% 97.6M 1s
 45850K .......... .......... .......... .......... .......... 47%  100M 1s
 45900K .......... .......... .......... .......... .......... 47%  101M 1s
 45950K .......... .......... .......... .......... .......... 47%  105M 1s
 46000K .......... .......... .......... .......... .......... 47%  101M 1s
 46050K .......... .......... .......... .......... .......... 47% 98.9M 1s
 46100K .......... .......... .......... .......... .......... 47% 75.0M 1s
 46150K .......... .......... .......... .......... .......... 47%  101M 1s
 46200K .......... .......... .......... .......... .......... 47%  101M 1s
 46250K .......... .......... .......... .......... .......... 47%  101M 1s
 46300K .......... .......... .......... .......... .......... 47%  101M 1s
 46350K .......... .......... .......... .......... .......... 47%  101M 1s
 46400K .......... .......... .......... .......... .......... 47%  105M 1s
 46450K .......... .......... .......... .......... .......... 47% 98.4M 1s
 46500K .......... .......... .......... .......... .......... 47% 74.6M 1s
 46550K .......... .......... .......... .......... .......... 47% 98.2M 1s
 46600K .......... .......... .......... .......... .......... 47%  102M 1s
 46650K .......... .......... .......... .......... .......... 48%  101M 1s
 46700K .......... .......... .......... .......... .......... 48%  101M 1s
 46750K .......... .......... .......... .......... .......... 48%  102M 1s
 46800K .......... .......... .......... .......... .......... 48%  101M 1s
 46850K .......... .......... .......... .......... .......... 48% 99.3M 1s
 46900K .......... .......... .......... .......... .......... 48% 74.9M 1s
 46950K .......... .......... .......... .......... .......... 48%  104M 1s
 47000K .......... .......... .......... .......... .......... 48% 98.3M 1s
 47050K .......... .......... .......... .......... .......... 48%  101M 1s
 47100K .......... .......... .......... .......... .......... 48%  101M 1s
 47150K .......... .......... .......... .......... .......... 48%  102M 1s
 47200K .......... .......... .......... .......... .......... 48% 97.8M 1s
 47250K .......... .......... .......... .......... .......... 48% 95.1M 1s
 47300K .......... .......... .......... .......... .......... 48% 75.1M 1s
 47350K .......... .......... .......... .......... .......... 48%  104M 1s
 47400K .......... .......... .......... .......... .......... 48% 97.8M 1s
 47450K .......... .......... .......... .......... .......... 48%  102M 1s
 47500K .......... .......... .......... .......... .......... 48%  100M 1s
 47550K .......... .......... .......... .......... .......... 48% 98.7M 1s
 47600K .......... .......... .......... .......... .......... 49%  102M 1s
 47650K .......... .......... .......... .......... .......... 49% 98.4M 1s
 47700K .......... .......... .......... .......... .......... 49% 73.9M 1s
 47750K .......... .......... .......... .......... .......... 49%  100M 1s
 47800K .......... .......... .......... .......... .......... 49%  102M 1s
 47850K .......... .......... .......... .......... .......... 49%  105M 1s
 47900K .......... .......... .......... .......... .......... 49%  101M 1s
 47950K .......... .......... .......... .......... .......... 49%  101M 1s
 48000K .......... .......... .......... .......... .......... 49% 97.7M 1s
 48050K .......... .......... .......... .......... .......... 49%  103M 1s
 48100K .......... .......... .......... .......... .......... 49% 73.9M 1s
 48150K .......... .......... .......... .......... .......... 49% 96.8M 1s
 48200K .......... .......... .......... .......... .......... 49%  101M 1s
 48250K .......... .......... .......... .......... .......... 49%  101M 1s
 48300K .......... .......... .......... .......... .......... 49%  102M 1s
 48350K .......... .......... .......... .......... .......... 49%  102M 1s
 48400K .......... .......... .......... .......... .......... 49%  102M 1s
 48450K .......... .......... .......... .......... .......... 49% 99.9M 1s
 48500K .......... .......... .......... .......... .......... 49% 77.0M 1s
 48550K .......... .......... .......... .......... .......... 49%  102M 1s
 48600K .......... .......... .......... .......... .......... 50%  101M 1s
 48650K .......... .......... .......... .......... .......... 50%  101M 1s
 48700K .......... .......... .......... .......... .......... 50% 98.9M 1s
 48750K .......... .......... .......... .......... .......... 50%  101M 1s
 48800K .......... .......... .......... .......... .......... 50%  101M 1s
 48850K .......... .......... .......... .......... .......... 50% 96.0M 1s
 48900K .......... .......... .......... .......... .......... 50% 75.7M 1s
 48950K .......... .......... .......... .......... .......... 50%  102M 1s
 49000K .......... .......... .......... .......... .......... 50%  101M 1s
 49050K .......... .......... .......... .......... .......... 50%  102M 1s
 49100K .......... .......... .......... .......... .......... 50%  101M 1s
 49150K .......... .......... .......... .......... .......... 50%  105M 1s
 49200K .......... .......... .......... .......... .......... 50%  102M 1s
 49250K .......... .......... .......... .......... .......... 50% 98.7M 1s
 49300K .......... .......... .......... .......... .......... 50% 75.7M 1s
 49350K .......... .......... .......... .......... .......... 50%  105M 1s
 49400K .......... .......... .......... .......... .......... 50%  102M 1s
 49450K .......... .......... .......... .......... .......... 50%  102M 1s
 49500K .......... .......... .......... .......... .......... 50% 98.4M 1s
 49550K .......... .......... .......... .......... .......... 51%  101M 1s
 49600K .......... .......... .......... .......... .......... 51%  104M 1s
 49650K .......... .......... .......... .......... .......... 51% 99.1M 1s
 49700K .......... .......... .......... .......... .......... 51% 78.0M 1s
 49750K .......... .......... .......... .......... .......... 51% 97.4M 1s
 49800K .......... .......... .......... .......... .......... 51% 97.9M 1s
 49850K .......... .......... .......... .......... .......... 51%  104M 1s
 49900K .......... .......... .......... .......... .......... 51%  102M 1s
 49950K .......... .......... .......... .......... .......... 51% 98.8M 1s
 50000K .......... .......... .......... .......... .......... 51%  101M 1s
 50050K .......... .......... .......... .......... .......... 51% 93.3M 1s
 50100K .......... .......... .......... .......... .......... 51% 79.5M 1s
 50150K .......... .......... .......... .......... .......... 51%  101M 1s
 50200K .......... .......... .......... .......... .......... 51%  105M 1s
 50250K .......... .......... .......... .......... .......... 51% 97.9M 1s
 50300K .......... .......... .......... .......... .......... 51%  102M 1s
 50350K .......... .......... .......... .......... .......... 51%  101M 1s
 50400K .......... .......... .......... .......... .......... 51%  100M 1s
 50450K .......... .......... .......... .......... .......... 51% 97.8M 1s
 50500K .......... .......... .......... .......... .......... 51% 77.2M 1s
 50550K .......... .......... .......... .......... .......... 52%  101M 1s
 50600K .......... .......... .......... .......... .......... 52%  101M 1s
 50650K .......... .......... .......... .......... .......... 52%  102M 1s
 50700K .......... .......... .......... .......... .......... 52% 98.1M 1s
 50750K .......... .......... .......... .......... .......... 52% 98.3M 1s
 50800K .......... .......... .......... .......... .......... 52%  103M 1s
 50850K .......... .......... .......... .......... .......... 52% 99.4M 1s
 50900K .......... .......... .......... .......... .......... 52% 74.3M 1s
 50950K .......... .......... .......... .......... .......... 52% 98.7M 1s
 51000K .......... .......... .......... .......... .......... 52%  101M 1s
 51050K .......... .......... .......... .......... .......... 52%  101M 1s
 51100K .......... .......... .......... .......... .......... 52%  105M 1s
 51150K .......... .......... .......... .......... .......... 52%  102M 1s
 51200K .......... .......... .......... .......... .......... 52% 98.0M 1s
 51250K .......... .......... .......... .......... .......... 52% 94.6M 1s
 51300K .......... .......... .......... .......... .......... 52% 75.8M 1s
 51350K .......... .......... .......... .......... .......... 52%  101M 1s
 51400K .......... .......... .......... .......... .......... 52%  102M 1s
 51450K .......... .......... .......... .......... .......... 52%  101M 1s
 51500K .......... .......... .......... .......... .......... 53%  103M 1s
 51550K .......... .......... .......... .......... .......... 53%  106M 1s
 51600K .......... .......... .......... .......... .......... 53% 96.6M 1s
 51650K .......... .......... .......... .......... .......... 53%  101M 1s
 51700K .......... .......... .......... .......... .......... 53% 77.1M 1s
 51750K .......... .......... .......... .......... .......... 53% 93.7M 1s
 51800K .......... .......... .......... .......... .......... 53% 98.0M 1s
 51850K .......... .......... .......... .......... .......... 53%  101M 1s
 51900K .......... .......... .......... .......... .......... 53% 98.5M 1s
 51950K .......... .......... .......... .......... .......... 53% 98.0M 1s
 52000K .......... .......... .......... .......... .......... 53% 97.0M 1s
 52050K .......... .......... .......... .......... .......... 53%  102M 1s
 52100K .......... .......... .......... .......... .......... 53% 77.3M 1s
 52150K .......... .......... .......... .......... .......... 53%  100M 1s
 52200K .......... .......... .......... .......... .......... 53% 98.2M 1s
 52250K .......... .......... .......... .......... .......... 53%  103M 1s
 52300K .......... .......... .......... .......... .......... 53%  105M 1s
 52350K .......... .......... .......... .......... .......... 53% 99.3M 1s
 52400K .......... .......... .......... .......... .......... 53% 81.6M 1s
 52450K .......... .......... .......... .......... .......... 54%  101M 1s
 52500K .......... .......... .......... .......... .......... 54% 72.1M 1s
 52550K .......... .......... .......... .......... .......... 54% 99.8M 1s
 52600K .......... .......... .......... .......... .......... 54% 93.3M 1s
 52650K .......... .......... .......... .......... .......... 54% 95.5M 1s
 52700K .......... .......... .......... .......... .......... 54%  101M 1s
 52750K .......... .......... .......... .......... .......... 54%  103M 1s
 52800K .......... .......... .......... .......... .......... 54% 96.8M 1s
 52850K .......... .......... .......... .......... .......... 54% 98.2M 1s
 52900K .......... .......... .......... .......... .......... 54% 77.4M 1s
 52950K .......... .......... .......... .......... .......... 54%  102M 1s
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 53050K .......... .......... .......... .......... .......... 54%  104M 1s
 53100K .......... .......... .......... .......... .......... 54%  101M 1s
 53150K .......... .......... .......... .......... .......... 54%  100M 1s
 53200K .......... .......... .......... .......... .......... 54% 97.9M 1s
 53250K .......... .......... .......... .......... .......... 54%  100M 1s
 53300K .......... .......... .......... .......... .......... 54% 76.1M 1s
 53350K .......... .......... .......... .......... .......... 54%  101M 1s
 53400K .......... .......... .......... .......... .......... 54% 98.0M 1s
 53450K .......... .......... .......... .......... .......... 55%  104M 1s
 53500K .......... .......... .......... .......... .......... 55%  104M 1s
 53550K .......... .......... .......... .......... .......... 55% 97.5M 1s
 53600K .......... .......... .......... .......... .......... 55% 98.4M 1s
 53650K .......... .......... .......... .......... .......... 55%  101M 1s
 53700K .......... .......... .......... .......... .......... 55% 74.5M 1s
 53750K .......... .......... .......... .......... .......... 55% 97.3M 1s
 53800K .......... .......... .......... .......... .......... 55%  104M 1s
 53850K .......... .......... .......... .......... .......... 55%  102M 1s
 53900K .......... .......... .......... .......... .......... 55% 98.3M 1s
 53950K .......... .......... .......... .......... .......... 55%  102M 1s
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 54050K .......... .......... .......... .......... .......... 55%  105M 1s
 54100K .......... .......... .......... .......... .......... 55% 75.4M 1s
 54150K .......... .......... .......... .......... .......... 55% 98.9M 1s
 54200K .......... .......... .......... .......... .......... 55%  101M 1s
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 54350K .......... .......... .......... .......... .......... 55% 99.6M 1s
 54400K .......... .......... .......... .......... .......... 56%  101M 1s
 54450K .......... .......... .......... .......... .......... 56%  105M 1s
 54500K .......... .......... .......... .......... .......... 56% 75.1M 1s
 54550K .......... .......... .......... .......... .......... 56%  104M 1s
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 54650K .......... .......... .......... .......... .......... 56% 97.4M 1s
 54700K .......... .......... .......... .......... .......... 56%  102M 1s
 54750K .......... .......... .......... .......... .......... 56% 96.9M 1s
 54800K .......... .......... .......... .......... .......... 56%  100M 1s
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 54900K .......... .......... .......... .......... .......... 56% 79.5M 1s
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 55050K .......... .......... .......... .......... .......... 56% 99.0M 1s
 55100K .......... .......... .......... .......... .......... 56%  101M 1s
 55150K .......... .......... .......... .......... .......... 56% 96.5M 1s
 55200K .......... .......... .......... .......... .......... 56%  104M 1s
 55250K .......... .......... .......... .......... .......... 56% 98.6M 1s
 55300K .......... .......... .......... .......... .......... 56% 77.0M 1s
 55350K .......... .......... .......... .......... .......... 56%  103M 1s
 55400K .......... .......... .......... .......... .......... 57% 98.2M 1s
 55450K .......... .......... .......... .......... .......... 57% 98.0M 1s
 55500K .......... .......... .......... .......... .......... 57%  101M 1s
 55550K .......... .......... .......... .......... .......... 57% 99.0M 1s
 55600K .......... .......... .......... .......... .......... 57%  102M 1s
 55650K .......... .......... .......... .......... .......... 57% 98.8M 1s
 55700K .......... .......... .......... .......... .......... 57% 77.3M 1s
 55750K .......... .......... .......... .......... .......... 57%  105M 1s
 55800K .......... .......... .......... .......... .......... 57% 98.4M 1s
 55850K .......... .......... .......... .......... .......... 57%  101M 1s
 55900K .......... .......... .......... .......... .......... 57% 98.7M 1s
 55950K .......... .......... .......... .......... .......... 57% 97.4M 1s
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 56050K .......... .......... .......... .......... .......... 57% 97.5M 1s
 56100K .......... .......... .......... .......... .......... 57% 76.0M 1s
 56150K .......... .......... .......... .......... .......... 57%  100M 1s
 56200K .......... .......... .......... .......... .......... 57% 97.8M 1s
 56250K .......... .......... .......... .......... .......... 57%  105M 1s
 56300K .......... .......... .......... .......... .......... 57% 99.8M 1s
 56350K .......... .......... .......... .......... .......... 58% 96.4M 1s
 56400K .......... .......... .......... .......... .......... 58%  105M 1s
 56450K .......... .......... .......... .......... .......... 58%  102M 1s
 56500K .......... .......... .......... .......... .......... 58% 77.5M 1s
 56550K .......... .......... .......... .......... .......... 58% 97.8M 1s
 56600K .......... .......... .......... .......... .......... 58% 98.5M 1s
 56650K .......... .......... .......... .......... .......... 58% 97.9M 1s
 56700K .......... .......... .......... .......... .......... 58%  100M 1s
 56750K .......... .......... .......... .......... .......... 58%  104M 1s
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 56900K .......... .......... .......... .......... .......... 58% 74.4M 1s
 56950K .......... .......... .......... .......... .......... 58% 98.1M 1s
 57000K .......... .......... .......... .......... .......... 58%  101M 1s
 57050K .......... .......... .......... .......... .......... 58%  103M 1s
 57100K .......... .......... .......... .......... .......... 58% 96.6M 1s
 57150K .......... .......... .......... .......... .......... 58% 98.0M 1s
 57200K .......... .......... .......... .......... .......... 58%  102M 1s
 57250K .......... .......... .......... .......... .......... 58%  101M 1s
 57300K .......... .......... .......... .......... .......... 58% 76.7M 1s
 57350K .......... .......... .......... .......... .......... 59% 98.4M 1s
 57400K .......... .......... .......... .......... .......... 59%  104M 1s
 57450K .......... .......... .......... .......... .......... 59%  102M 1s
 57500K .......... .......... .......... .......... .......... 59% 86.7M 1s
 57550K .......... .......... .......... .......... .......... 59% 94.5M 1s
 57600K .......... .......... .......... .......... .......... 59%  102M 1s
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 57700K .......... .......... .......... .......... .......... 59% 76.7M 1s
 57750K .......... .......... .......... .......... .......... 59% 93.1M 1s
 57800K .......... .......... .......... .......... .......... 59% 78.5M 1s
 57850K .......... .......... .......... .......... .......... 59% 80.5M 1s
 57900K .......... .......... .......... .......... .......... 59% 99.6M 1s
 57950K .......... .......... .......... .......... .......... 59%  101M 1s
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 58050K .......... .......... .......... .......... .......... 59% 95.7M 1s
 58100K .......... .......... .......... .......... .......... 59% 74.8M 1s
 58150K .......... .......... .......... .......... .......... 59%  102M 1s
 58200K .......... .......... .......... .......... .......... 59%  101M 1s
 58250K .......... .......... .......... .......... .......... 59% 94.8M 1s
 58300K .......... .......... .......... .......... .......... 60% 95.1M 1s
 58350K .......... .......... .......... .......... .......... 60%  102M 1s
 58400K .......... .......... .......... .......... .......... 60%  102M 1s
 58450K .......... .......... .......... .......... .......... 60% 97.6M 1s
 58500K .......... .......... .......... .......... .......... 60% 79.0M 1s
 58550K .......... .......... .......... .......... .......... 60%  100M 1s
 58600K .......... .......... .......... .......... .......... 60%  101M 1s
 58650K .......... .......... .......... .......... .......... 60% 91.4M 1s
 58700K .......... .......... .......... .......... .......... 60%  101M 1s
 58750K .......... .......... .......... .......... .......... 60%  101M 1s
 58800K .......... .......... .......... .......... .......... 60% 98.0M 1s
 58850K .......... .......... .......... .......... .......... 60% 97.5M 1s
 58900K .......... .......... .......... .......... .......... 60% 78.7M 1s
 58950K .......... .......... .......... .......... .......... 60%  102M 1s
 59000K .......... .......... .......... .......... .......... 60%  102M 1s
 59050K .......... .......... .......... .......... .......... 60% 92.3M 1s
 59100K .......... .......... .......... .......... .......... 60% 97.6M 0s
 59150K .......... .......... .......... .......... .......... 60% 98.3M 0s
 59200K .......... .......... .......... .......... .......... 60%  102M 0s
 59250K .......... .......... .......... .......... .......... 60%  101M 0s
 59300K .......... .......... .......... .......... .......... 61% 75.4M 0s
 59350K .......... .......... .......... .......... .......... 61% 98.1M 0s
 59400K .......... .......... .......... .......... .......... 61%  100M 0s
 59450K .......... .......... .......... .......... .......... 61% 94.2M 0s
 59500K .......... .......... .......... .......... .......... 61% 99.9M 0s
 59550K .......... .......... .......... .......... .......... 61%  102M 0s
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 59650K .......... .......... .......... .......... .......... 61%  101M 0s
 59700K .......... .......... .......... .......... .......... 61% 76.0M 0s
 59750K .......... .......... .......... .......... .......... 61%  100M 0s
 59800K .......... .......... .......... .......... .......... 61%  104M 0s
 59850K .......... .......... .......... .......... .......... 61% 97.7M 0s
 59900K .......... .......... .......... .......... .......... 61% 94.6M 0s
 59950K .......... .......... .......... .......... .......... 61% 98.9M 0s
 60000K .......... .......... .......... .......... .......... 61%  101M 0s
 60050K .......... .......... .......... .......... .......... 61% 99.9M 0s
 60100K .......... .......... .......... .......... .......... 61% 79.6M 0s
 60150K .......... .......... .......... .......... .......... 61%  105M 0s
 60200K .......... .......... .......... .......... .......... 61% 98.6M 0s
 60250K .......... .......... .......... .......... .......... 62% 99.1M 0s
 60300K .......... .......... .......... .......... .......... 62%  104M 0s
 60350K .......... .......... .......... .......... .......... 62% 98.7M 0s
 60400K .......... .......... .......... .......... .......... 62%  100M 0s
 60450K .......... .......... .......... .......... .......... 62%  102M 0s
 60500K .......... .......... .......... .......... .......... 62% 75.4M 0s
 60550K .......... .......... .......... .......... .......... 62% 94.8M 0s
 60600K .......... .......... .......... .......... .......... 62% 98.9M 0s
 60650K .......... .......... .......... .......... .......... 62% 97.8M 0s
 60700K .......... .......... .......... .......... .......... 62% 98.9M 0s
 60750K .......... .......... .......... .......... .......... 62%  102M 0s
 60800K .......... .......... .......... .......... .......... 62% 95.3M 0s
 60850K .......... .......... .......... .......... .......... 62%  104M 0s
 60900K .......... .......... .......... .......... .......... 62% 77.5M 0s
 60950K .......... .......... .......... .......... .......... 62%  102M 0s
 61000K .......... .......... .......... .......... .......... 62% 99.0M 0s
 61050K .......... .......... .......... .......... .......... 62%  105M 0s
 61100K .......... .......... .......... .......... .......... 62%  104M 0s
 61150K .......... .......... .......... .......... .......... 62% 99.1M 0s
 61200K .......... .......... .......... .......... .......... 63% 98.7M 0s
 61250K .......... .......... .......... .......... .......... 63%  104M 0s
 61300K .......... .......... .......... .......... .......... 63% 75.3M 0s
 61350K .......... .......... .......... .......... .......... 63%  104M 0s
 61400K .......... .......... .......... .......... .......... 63%  100M 0s
 61450K .......... .......... .......... .......... .......... 63% 98.0M 0s
 61500K .......... .......... .......... .......... .......... 63%  102M 0s
 61550K .......... .......... .......... .......... .......... 63% 99.8M 0s
 61600K .......... .......... .......... .......... .......... 63% 96.2M 0s
 61650K .......... .......... .......... .......... .......... 63%  102M 0s
 61700K .......... .......... .......... .......... .......... 63% 75.9M 0s
 61750K .......... .......... .......... .......... .......... 63%  102M 0s
 61800K .......... .......... .......... .......... .......... 63% 92.8M 0s
 61850K .......... .......... .......... .......... .......... 63% 93.0M 0s
 61900K .......... .......... .......... .......... .......... 63% 98.9M 0s
 61950K .......... .......... .......... .......... .......... 63% 97.1M 0s
 62000K .......... .......... .......... .......... .......... 63% 98.9M 0s
 62050K .......... .......... .......... .......... .......... 63% 92.7M 0s
 62100K .......... .......... .......... .......... .......... 63% 76.9M 0s
 62150K .......... .......... .......... .......... .......... 63% 96.9M 0s
 62200K .......... .......... .......... .......... .......... 64%  100M 0s
 62250K .......... .......... .......... .......... .......... 64%  101M 0s
 62300K .......... .......... .......... .......... .......... 64% 96.3M 0s
 62350K .......... .......... .......... .......... .......... 64% 83.2M 0s
 62400K .......... .......... .......... .......... .......... 64% 96.9M 0s
 62450K .......... .......... .......... .......... .......... 64% 99.4M 0s
 62500K .......... .......... .......... .......... .......... 64% 77.7M 0s
 62550K .......... .......... .......... .......... .......... 64% 98.2M 0s
 62600K .......... .......... .......... .......... .......... 64%  101M 0s
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 62700K .......... .......... .......... .......... .......... 64%  101M 0s
 62750K .......... .......... .......... .......... .......... 64%  102M 0s
 62800K .......... .......... .......... .......... .......... 64% 98.7M 0s
 62850K .......... .......... .......... .......... .......... 64%  101M 0s
 62900K .......... .......... .......... .......... .......... 64% 75.8M 0s
 62950K .......... .......... .......... .......... .......... 64% 88.3M 0s
 63000K .......... .......... .......... .......... .......... 64%  100M 0s
 63050K .......... .......... .......... .......... .......... 64%  105M 0s
 63100K .......... .......... .......... .......... .......... 64%  101M 0s
 63150K .......... .......... .......... .......... .......... 65%  101M 0s
 63200K .......... .......... .......... .......... .......... 65% 99.6M 0s
 63250K .......... .......... .......... .......... .......... 65% 98.5M 0s
 63300K .......... .......... .......... .......... .......... 65% 77.1M 0s
 63350K .......... .......... .......... .......... .......... 65% 96.1M 0s
 63400K .......... .......... .......... .......... .......... 65% 98.1M 0s
 63450K .......... .......... .......... .......... .......... 65% 98.1M 0s
 63500K .......... .......... .......... .......... .......... 65% 98.8M 0s
 63550K .......... .......... .......... .......... .......... 65%  105M 0s
 63600K .......... .......... .......... .......... .......... 65%  104M 0s
 63650K .......... .......... .......... .......... .......... 65%  101M 0s
 63700K .......... .......... .......... .......... .......... 65% 74.1M 0s
 63750K .......... .......... .......... .......... .......... 65% 98.1M 0s
 63800K .......... .......... .......... .......... .......... 65%  103M 0s
 63850K .......... .......... .......... .......... .......... 65% 99.8M 0s
 63900K .......... .......... .......... .......... .......... 65% 97.9M 0s
 63950K .......... .......... .......... .......... .......... 65% 98.2M 0s
 64000K .......... .......... .......... .......... .......... 65% 98.4M 0s
 64050K .......... .......... .......... .......... .......... 65%  105M 0s
 64100K .......... .......... .......... .......... .......... 65% 75.9M 0s
 64150K .......... .......... .......... .......... .......... 66% 94.2M 0s
 64200K .......... .......... .......... .......... .......... 66% 95.3M 0s
 64250K .......... .......... .......... .......... .......... 66% 97.3M 0s
 64300K .......... .......... .......... .......... .......... 66%  103M 0s
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 64450K .......... .......... .......... .......... .......... 66%  105M 0s
 64500K .......... .......... .......... .......... .......... 66% 75.6M 0s
 64550K .......... .......... .......... .......... .......... 66% 99.1M 0s
 64600K .......... .......... .......... .......... .......... 66%  101M 0s
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 64700K .......... .......... .......... .......... .......... 66%  102M 0s
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 64850K .......... .......... .......... .......... .......... 66%  101M 0s
 64900K .......... .......... .......... .......... .......... 66% 77.1M 0s
 64950K .......... .......... .......... .......... .......... 66% 96.9M 0s
 65000K .......... .......... .......... .......... .......... 66%  101M 0s
 65050K .......... .......... .......... .......... .......... 66%  102M 0s
 65100K .......... .......... .......... .......... .......... 67%  100M 0s
 65150K .......... .......... .......... .......... .......... 67%  102M 0s
 65200K .......... .......... .......... .......... .......... 67% 97.9M 0s
 65250K .......... .......... .......... .......... .......... 67%  101M 0s
 65300K .......... .......... .......... .......... .......... 67% 75.9M 0s
 65350K .......... .......... .......... .......... .......... 67% 97.9M 0s
 65400K .......... .......... .......... .......... .......... 67% 97.0M 0s
 65450K .......... .......... .......... .......... .......... 67%  104M 0s
 65500K .......... .......... .......... .......... .......... 67%  105M 0s
 65550K .......... .......... .......... .......... .......... 67%  102M 0s
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 65700K .......... .......... .......... .......... .......... 67% 76.0M 0s
 65750K .......... .......... .......... .......... .......... 67% 97.5M 0s
 65800K .......... .......... .......... .......... .......... 67% 97.9M 0s
 65850K .......... .......... .......... .......... .......... 67%  103M 0s
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 65950K .......... .......... .......... .......... .......... 67% 98.2M 0s
 66000K .......... .......... .......... .......... .......... 67% 90.2M 0s
 66050K .......... .......... .......... .......... .......... 67%  101M 0s
 66100K .......... .......... .......... .......... .......... 68% 74.0M 0s
 66150K .......... .......... .......... .......... .......... 68%  104M 0s
 66200K .......... .......... .......... .......... .......... 68% 99.1M 0s
 66250K .......... .......... .......... .......... .......... 68%  103M 0s
 66300K .......... .......... .......... .......... .......... 68% 98.6M 0s
 66350K .......... .......... .......... .......... .......... 68%  105M 0s
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 66450K .......... .......... .......... .......... .......... 68% 98.8M 0s
 66500K .......... .......... .......... .......... .......... 68% 72.7M 0s
 66550K .......... .......... .......... .......... .......... 68% 99.5M 0s
 66600K .......... .......... .......... .......... .......... 68%  101M 0s
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 66750K .......... .......... .......... .......... .......... 68%  106M 0s
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 66850K .......... .......... .......... .......... .......... 68% 95.1M 0s
 66900K .......... .......... .......... .......... .......... 68% 73.9M 0s
 66950K .......... .......... .......... .......... .......... 68% 98.2M 0s
 67000K .......... .......... .......... .......... .......... 68% 97.5M 0s
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 67100K .......... .......... .......... .......... .......... 69%  100M 0s
 67150K .......... .......... .......... .......... .......... 69%  101M 0s
 67200K .......... .......... .......... .......... .......... 69% 98.8M 0s
 67250K .......... .......... .......... .......... .......... 69%  104M 0s
 67300K .......... .......... .......... .......... .......... 69% 74.8M 0s
 67350K .......... .......... .......... .......... .......... 69%  103M 0s
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 67500K .......... .......... .......... .......... .......... 69% 98.4M 0s
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 67650K .......... .......... .......... .......... .......... 69% 98.6M 0s
 67700K .......... .......... .......... .......... .......... 69% 75.7M 0s
 67750K .......... .......... .......... .......... .......... 69%  105M 0s
 67800K .......... .......... .......... .......... .......... 69% 98.5M 0s
 67850K .......... .......... .......... .......... .......... 69%  104M 0s
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 68000K .......... .......... .......... .......... .......... 69%  106M 0s
 68050K .......... .......... .......... .......... .......... 70% 99.3M 0s
 68100K .......... .......... .......... .......... .......... 70% 77.1M 0s
 68150K .......... .......... .......... .......... .......... 70% 98.7M 0s
 68200K .......... .......... .......... .......... .......... 70%  101M 0s
 68250K .......... .......... .......... .......... .......... 70% 98.3M 0s
 68300K .......... .......... .......... .......... .......... 70%  105M 0s
 68350K .......... .......... .......... .......... .......... 70%  100M 0s
 68400K .......... .......... .......... .......... .......... 70%  102M 0s
 68450K .......... .......... .......... .......... .......... 70% 98.4M 0s
 68500K .......... .......... .......... .......... .......... 70% 74.9M 0s
 68550K .......... .......... .......... .......... .......... 70%  101M 0s
 68600K .......... .......... .......... .......... .......... 70% 99.8M 0s
 68650K .......... .......... .......... .......... .......... 70%  101M 0s
 68700K .......... .......... .......... .......... .......... 70%  105M 0s
 68750K .......... .......... .......... .......... .......... 70%  102M 0s
 68800K .......... .......... .......... .......... .......... 70% 98.2M 0s
 68850K .......... .......... .......... .......... .......... 70%  101M 0s
 68900K .......... .......... .......... .......... .......... 70% 72.1M 0s
 68950K .......... .......... .......... .......... .......... 70%  102M 0s
 69000K .......... .......... .......... .......... .......... 71% 98.7M 0s
 69050K .......... .......... .......... .......... .......... 71% 92.2M 0s
 69100K .......... .......... .......... .......... .......... 71% 95.6M 0s
 69150K .......... .......... .......... .......... .......... 71%  101M 0s
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 69300K .......... .......... .......... .......... .......... 71% 78.4M 0s
 69350K .......... .......... .......... .......... .......... 71%  100M 0s
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 69500K .......... .......... .......... .......... .......... 71%  105M 0s
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 69650K .......... .......... .......... .......... .......... 71% 98.3M 0s
 69700K .......... .......... .......... .......... .......... 71% 73.6M 0s
 69750K .......... .......... .......... .......... .......... 71%  101M 0s
 69800K .......... .......... .......... .......... .......... 71% 98.3M 0s
 69850K .......... .......... .......... .......... .......... 71%  104M 0s
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 70100K .......... .......... .......... .......... .......... 72% 73.7M 0s
 70150K .......... .......... .......... .......... .......... 72%  101M 0s
 70200K .......... .......... .......... .......... .......... 72% 98.6M 0s
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 70350K .......... .......... .......... .......... .......... 72%  105M 0s
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 70450K .......... .......... .......... .......... .......... 72% 98.8M 0s
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 70550K .......... .......... .......... .......... .......... 72% 98.7M 0s
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 70750K .......... .......... .......... .......... .......... 72% 98.9M 0s
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 70850K .......... .......... .......... .......... .......... 72%  101M 0s
 70900K .......... .......... .......... .......... .......... 72% 74.1M 0s
 70950K .......... .......... .......... .......... .......... 73%  102M 0s
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 71050K .......... .......... .......... .......... .......... 73%  105M 0s
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 71300K .......... .......... .......... .......... .......... 73% 71.8M 0s
 71350K .......... .......... .......... .......... .......... 73% 98.0M 0s
 71400K .......... .......... .......... .......... .......... 73% 93.2M 0s
 71450K .......... .......... .......... .......... .......... 73% 99.5M 0s
 71500K .......... .......... .......... .......... .......... 73%  101M 0s
 71550K .......... .......... .......... .......... .......... 73% 98.5M 0s
 71600K .......... .......... .......... .......... .......... 73%  106M 0s
 71650K .......... .......... .......... .......... .......... 73% 94.1M 0s
 71700K .......... .......... .......... .......... .......... 73% 76.9M 0s
 71750K .......... .......... .......... .......... .......... 73% 98.1M 0s
 71800K .......... .......... .......... .......... .......... 73% 97.8M 0s
 71850K .......... .......... .......... .......... .......... 73%  105M 0s
 71900K .......... .......... .......... .......... .......... 74% 98.8M 0s
 71950K .......... .......... .......... .......... .......... 74% 98.6M 0s
 72000K .......... .......... .......... .......... .......... 74%  101M 0s
 72050K .......... .......... .......... .......... .......... 74% 98.8M 0s
 72100K .......... .......... .......... .......... .......... 74% 75.4M 0s
 72150K .......... .......... .......... .......... .......... 74% 96.8M 0s
 72200K .......... .......... .......... .......... .......... 74% 97.7M 0s
 72250K .......... .......... .......... .......... .......... 74%  101M 0s
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 72400K .......... .......... .......... .......... .......... 74% 99.2M 0s
 72450K .......... .......... .......... .......... .......... 74% 87.0M 0s
 72500K .......... .......... .......... .......... .......... 74% 76.7M 0s
 72550K .......... .......... .......... .......... .......... 74%  104M 0s
 72600K .......... .......... .......... .......... .......... 74% 98.4M 0s
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 72750K .......... .......... .......... .......... .......... 74%  101M 0s
 72800K .......... .......... .......... .......... .......... 74%  105M 0s
 72850K .......... .......... .......... .......... .......... 74% 96.3M 0s
 72900K .......... .......... .......... .......... .......... 75% 75.0M 0s
 72950K .......... .......... .......... .......... .......... 75%  101M 0s
 73000K .......... .......... .......... .......... .......... 75%  104M 0s
 73050K .......... .......... .......... .......... .......... 75%  104M 0s
 73100K .......... .......... .......... .......... .......... 75% 98.5M 0s
 73150K .......... .......... .......... .......... .......... 75%  103M 0s
 73200K .......... .......... .......... .......... .......... 75%  100M 0s
 73250K .......... .......... .......... .......... .......... 75% 99.4M 0s
 73300K .......... .......... .......... .......... .......... 75% 73.9M 0s
 73350K .......... .......... .......... .......... .......... 75% 98.0M 0s
 73400K .......... .......... .......... .......... .......... 75%  100M 0s
 73450K .......... .......... .......... .......... .......... 75%  101M 0s
 73500K .......... .......... .......... .......... .......... 75%  101M 0s
 73550K .......... .......... .......... .......... .......... 75%  105M 0s
 73600K .......... .......... .......... .......... .......... 75%  102M 0s
 73650K .......... .......... .......... .......... .......... 75% 87.5M 0s
 73700K .......... .......... .......... .......... .......... 75% 77.7M 0s
 73750K .......... .......... .......... .......... .......... 75% 98.5M 0s
 73800K .......... .......... .......... .......... .......... 75%  101M 0s
 73850K .......... .......... .......... .......... .......... 76%  102M 0s
 73900K .......... .......... .......... .......... .......... 76%  103M 0s
 73950K .......... .......... .......... .......... .......... 76% 98.3M 0s
 74000K .......... .......... .......... .......... .......... 76% 96.7M 0s
 74050K .......... .......... .......... .......... .......... 76%  101M 0s
 74100K .......... .......... .......... .......... .......... 76% 76.1M 0s
 74150K .......... .......... .......... .......... .......... 76% 97.6M 0s
 74200K .......... .......... .......... .......... .......... 76%  100M 0s
 74250K .......... .......... .......... .......... .......... 76% 98.5M 0s
 74300K .......... .......... .......... .......... .......... 76% 98.2M 0s
 74350K .......... .......... .......... .......... .......... 76%  102M 0s
 74400K .......... .......... .......... .......... .......... 76% 97.8M 0s
 74450K .......... .......... .......... .......... .......... 76%  105M 0s
 74500K .......... .......... .......... .......... .......... 76% 74.1M 0s
 74550K .......... .......... .......... .......... .......... 76% 98.5M 0s
 74600K .......... .......... .......... .......... .......... 76%  101M 0s
 74650K .......... .......... .......... .......... .......... 76% 95.5M 0s
 74700K .......... .......... .......... .......... .......... 76%  101M 0s
 74750K .......... .......... .......... .......... .......... 76% 98.0M 0s
 74800K .......... .......... .......... .......... .......... 76% 92.7M 0s
 74850K .......... .......... .......... .......... .......... 77% 90.7M 0s
 74900K .......... .......... .......... .......... .......... 77% 66.0M 0s
 74950K .......... .......... .......... .......... .......... 77% 98.9M 0s
 75000K .......... .......... .......... .......... .......... 77%  104M 0s
 75050K .......... .......... .......... .......... .......... 77%  100M 0s
 75100K .......... .......... .......... .......... .......... 77%  100M 0s
 75150K .......... .......... .......... .......... .......... 77% 94.0M 0s
 75200K .......... .......... .......... .......... .......... 77% 95.9M 0s
 75250K .......... .......... .......... .......... .......... 77%  101M 0s
 75300K .......... .......... .......... .......... .......... 77% 73.8M 0s
 75350K .......... .......... .......... .......... .......... 77%  104M 0s
 75400K .......... .......... .......... .......... .......... 77%  101M 0s
 75450K .......... .......... .......... .......... .......... 77%  104M 0s
 75500K .......... .......... .......... .......... .......... 77%  102M 0s
 75550K .......... .......... .......... .......... .......... 77% 99.5M 0s
 75600K .......... .......... .......... .......... .......... 77% 97.4M 0s
 75650K .......... .......... .......... .......... .......... 77% 97.7M 0s
 75700K .......... .......... .......... .......... .......... 77% 75.6M 0s
 75750K .......... .......... .......... .......... .......... 77%  104M 0s
 75800K .......... .......... .......... .......... .......... 78% 98.7M 0s
 75850K .......... .......... .......... .......... .......... 78% 97.5M 0s
 75900K .......... .......... .......... .......... .......... 78%  100M 0s
 75950K .......... .......... .......... .......... .......... 78% 93.5M 0s
 76000K .......... .......... .......... .......... .......... 78%  103M 0s
 76050K .......... .......... .......... .......... .......... 78% 98.1M 0s
 76100K .......... .......... .......... .......... .......... 78% 75.7M 0s
 76150K .......... .......... .......... .......... .......... 78% 96.8M 0s
 76200K .......... .......... .......... .......... .......... 78%  105M 0s
 76250K .......... .......... .......... .......... .......... 78%  101M 0s
 76300K .......... .......... .......... .......... .......... 78%  101M 0s
 76350K .......... .......... .......... .......... .......... 78% 97.7M 0s
 76400K .......... .......... .......... .......... .......... 78%  104M 0s
 76450K .......... .......... .......... .......... .......... 78%  105M 0s
 76500K .......... .......... .......... .......... .......... 78% 79.8M 0s
 76550K .......... .......... .......... .......... .......... 78%  101M 0s
 76600K .......... .......... .......... .......... .......... 78% 94.8M 0s
 76650K .......... .......... .......... .......... .......... 78% 99.6M 0s
 76700K .......... .......... .......... .......... .......... 78%  105M 0s
 76750K .......... .......... .......... .......... .......... 78% 99.1M 0s
 76800K .......... .......... .......... .......... .......... 79%  104M 0s
 76850K .......... .......... .......... .......... .......... 79%  101M 0s
 76900K .......... .......... .......... .......... .......... 79% 76.9M 0s
 76950K .......... .......... .......... .......... .......... 79%  105M 0s
 77000K .......... .......... .......... .......... .......... 79%  105M 0s
 77050K .......... .......... .......... .......... .......... 79% 97.7M 0s
 77100K .......... .......... .......... .......... .......... 79% 98.3M 0s
 77150K .......... .......... .......... .......... .......... 79% 98.2M 0s
 77200K .......... .......... .......... .......... .......... 79% 96.8M 0s
 77250K .......... .......... .......... .......... .......... 79%  105M 0s
 77300K .......... .......... .......... .......... .......... 79% 75.5M 0s
 77350K .......... .......... .......... .......... .......... 79%  101M 0s
 77400K .......... .......... .......... .......... .......... 79%  101M 0s
 77450K .......... .......... .......... .......... .......... 79%  101M 0s
 77500K .......... .......... .......... .......... .......... 79%  105M 0s
 77550K .......... .......... .......... .......... .......... 79% 96.9M 0s
 77600K .......... .......... .......... .......... .......... 79%  101M 0s
 77650K .......... .......... .......... .......... .......... 79%  105M 0s
 77700K .......... .......... .......... .......... .......... 79% 75.4M 0s
 77750K .......... .......... .......... .......... .......... 80%  101M 0s
 77800K .......... .......... .......... .......... .......... 80% 98.8M 0s
 77850K .......... .......... .......... .......... .......... 80%  101M 0s
 77900K .......... .......... .......... .......... .......... 80%  101M 0s
 77950K .......... .......... .......... .......... .......... 80% 99.2M 0s
 78000K .......... .......... .......... .......... .......... 80%  101M 0s
 78050K .......... .......... .......... .......... .......... 80%  101M 0s
 78100K .......... .......... .......... .......... .......... 80% 77.7M 0s
 78150K .......... .......... .......... .......... .......... 80% 97.3M 0s
 78200K .......... .......... .......... .......... .......... 80%  104M 0s
 78250K .......... .......... .......... .......... .......... 80%  101M 0s
 78300K .......... .......... .......... .......... .......... 80% 98.9M 0s
 78350K .......... .......... .......... .......... .......... 80% 98.0M 0s
 78400K .......... .......... .......... .......... .......... 80% 93.8M 0s
 78450K .......... .......... .......... .......... .......... 80%  100M 0s
 78500K .......... .......... .......... .......... .......... 80% 75.9M 0s
 78550K .......... .......... .......... .......... .......... 80%  101M 0s
 78600K .......... .......... .......... .......... .......... 80%  102M 0s
 78650K .......... .......... .......... .......... .......... 80% 97.0M 0s
 78700K .......... .......... .......... .......... .......... 81%  101M 0s
 78750K .......... .......... .......... .......... .......... 81% 99.2M 0s
 78800K .......... .......... .......... .......... .......... 81%  105M 0s
 78850K .......... .......... .......... .......... .......... 81%  102M 0s
 78900K .......... .......... .......... .......... .......... 81% 76.7M 0s
 78950K .......... .......... .......... .......... .......... 81%  101M 0s
 79000K .......... .......... .......... .......... .......... 81%  102M 0s
 79050K .......... .......... .......... .......... .......... 81%  101M 0s
 79100K .......... .......... .......... .......... .......... 81%  102M 0s
 79150K .......... .......... .......... .......... .......... 81% 96.2M 0s
 79200K .......... .......... .......... .......... .......... 81%  104M 0s
 79250K .......... .......... .......... .......... .......... 81% 98.0M 0s
 79300K .......... .......... .......... .......... .......... 81% 77.4M 0s
 79350K .......... .......... .......... .......... .......... 81%  101M 0s
 79400K .......... .......... .......... .......... .......... 81%  100M 0s
 79450K .......... .......... .......... .......... .......... 81%  103M 0s
 79500K .......... .......... .......... .......... .......... 81% 95.6M 0s
 79550K .......... .......... .......... .......... .......... 81% 97.7M 0s
 79600K .......... .......... .......... .......... .......... 81%  104M 0s
 79650K .......... .......... .......... .......... .......... 81%  105M 0s
 79700K .......... .......... .......... .......... .......... 82% 73.6M 0s
 79750K .......... .......... .......... .......... .......... 82%  103M 0s
 79800K .......... .......... .......... .......... .......... 82%  102M 0s
 79850K .......... .......... .......... .......... .......... 82%  104M 0s
 79900K .......... .......... .......... .......... .......... 82% 99.3M 0s
 79950K .......... .......... .......... .......... .......... 82% 97.9M 0s
 80000K .......... .......... .......... .......... .......... 82%  105M 0s
 80050K .......... .......... .......... .......... .......... 82%  101M 0s
 80100K .......... .......... .......... .......... .......... 82% 77.4M 0s
 80150K .......... .......... .......... .......... .......... 82%  101M 0s
 80200K .......... .......... .......... .......... .......... 82% 97.9M 0s
 80250K .......... .......... .......... .......... .......... 82%  101M 0s
 80300K .......... .......... .......... .......... .......... 82%  103M 0s
 80350K .......... .......... .......... .......... .......... 82% 98.3M 0s
 80400K .......... .......... .......... .......... .......... 82%  101M 0s
 80450K .......... .......... .......... .......... .......... 82% 97.4M 0s
 80500K .......... .......... .......... .......... .......... 82% 73.8M 0s
 80550K .......... .......... .......... .......... .......... 82% 96.3M 0s
 80600K .......... .......... .......... .......... .......... 82%  101M 0s
 80650K .......... .......... .......... .......... .......... 83%  102M 0s
 80700K .......... .......... .......... .......... .......... 83% 95.8M 0s
 80750K .......... .......... .......... .......... .......... 83%  101M 0s
 80800K .......... .......... .......... .......... .......... 83% 98.8M 0s
 80850K .......... .......... .......... .......... .......... 83%  104M 0s
 80900K .......... .......... .......... .......... .......... 83% 73.7M 0s
 80950K .......... .......... .......... .......... .......... 83% 96.9M 0s
 81000K .......... .......... .......... .......... .......... 83%  104M 0s
 81050K .......... .......... .......... .......... .......... 83% 98.6M 0s
 81100K .......... .......... .......... .......... .......... 83% 92.5M 0s
 81150K .......... .......... .......... .......... .......... 83%  104M 0s
 81200K .......... .......... .......... .......... .......... 83% 97.7M 0s
 81250K .......... .......... .......... .......... .......... 83%  100M 0s
 81300K .......... .......... .......... .......... .......... 83% 77.9M 0s
 81350K .......... .......... .......... .......... .......... 83%  102M 0s
 81400K .......... .......... .......... .......... .......... 83%  100M 0s
 81450K .......... .......... .......... .......... .......... 83%  104M 0s
 81500K .......... .......... .......... .......... .......... 83% 95.9M 0s
 81550K .......... .......... .......... .......... .......... 83% 98.5M 0s
 81600K .......... .......... .......... .......... .......... 83%  101M 0s
 81650K .......... .......... .......... .......... .......... 84%  104M 0s
 81700K .......... .......... .......... .......... .......... 84% 75.5M 0s
 81750K .......... .......... .......... .......... .......... 84%  100M 0s
 81800K .......... .......... .......... .......... .......... 84%  105M 0s
 81850K .......... .......... .......... .......... .......... 84%  105M 0s
 81900K .......... .......... .......... .......... .......... 84% 91.3M 0s
 81950K .......... .......... .......... .......... .......... 84%  100M 0s
 82000K .......... .......... .......... .......... .......... 84%  101M 0s
 82050K .......... .......... .......... .......... .......... 84%  101M 0s
 82100K .......... .......... .......... .......... .......... 84% 77.4M 0s
 82150K .......... .......... .......... .......... .......... 84%  103M 0s
 82200K .......... .......... .......... .......... .......... 84% 82.7M 0s
 82250K .......... .......... .......... .......... .......... 84% 95.1M 0s
 82300K .......... .......... .......... .......... .......... 84%  100M 0s
 82350K .......... .......... .......... .......... .......... 84%  102M 0s
 82400K .......... .......... .......... .......... .......... 84% 97.5M 0s
 82450K .......... .......... .......... .......... .......... 84% 99.8M 0s
 82500K .......... .......... .......... .......... .......... 84% 77.6M 0s
 82550K .......... .......... .......... .......... .......... 84%  100M 0s
 82600K .......... .......... .......... .......... .......... 85% 98.4M 0s
 82650K .......... .......... .......... .......... .......... 85%  102M 0s
 82700K .......... .......... .......... .......... .......... 85% 97.1M 0s
 82750K .......... .......... .......... .......... .......... 85%  101M 0s
 82800K .......... .......... .......... .......... .......... 85%  104M 0s
 82850K .......... .......... .......... .......... .......... 85% 98.1M 0s
 82900K .......... .......... .......... .......... .......... 85% 77.0M 0s
 82950K .......... .......... .......... .......... .......... 85% 97.5M 0s
 83000K .......... .......... .......... .......... .......... 85%  104M 0s
 83050K .......... .......... .......... .......... .......... 85% 97.3M 0s
 83100K .......... .......... .......... .......... .......... 85% 99.4M 0s
 83150K .......... .......... .......... .......... .......... 85%  100M 0s
 83200K .......... .......... .......... .......... .......... 85%  100M 0s
 83250K .......... .......... .......... .......... .......... 85%  104M 0s
 83300K .......... .......... .......... .......... .......... 85% 75.4M 0s
 83350K .......... .......... .......... .......... .......... 85%  105M 0s
 83400K .......... .......... .......... .......... .......... 85%  101M 0s
 83450K .......... .......... .......... .......... .......... 85% 98.5M 0s
 83500K .......... .......... .......... .......... .......... 85% 97.4M 0s
 83550K .......... .......... .......... .......... .......... 85% 98.1M 0s
 83600K .......... .......... .......... .......... .......... 86%  101M 0s
 83650K .......... .......... .......... .......... .......... 86%  101M 0s
 83700K .......... .......... .......... .......... .......... 86% 77.0M 0s
 83750K .......... .......... .......... .......... .......... 86% 97.9M 0s
 83800K .......... .......... .......... .......... .......... 86% 97.4M 0s
 83850K .......... .......... .......... .......... .......... 86%  102M 0s
 83900K .......... .......... .......... .......... .......... 86% 96.9M 0s
 83950K .......... .......... .......... .......... .......... 86%  101M 0s
 84000K .......... .......... .......... .......... .......... 86%  101M 0s
 84050K .......... .......... .......... .......... .......... 86%  102M 0s
 84100K .......... .......... .......... .......... .......... 86% 73.7M 0s
 84150K .......... .......... .......... .......... .......... 86% 97.8M 0s
 84200K .......... .......... .......... .......... .......... 86% 97.0M 0s
 84250K .......... .......... .......... .......... .......... 86% 97.0M 0s
 84300K .......... .......... .......... .......... .......... 86%  104M 0s
 84350K .......... .......... .......... .......... .......... 86% 99.1M 0s
 84400K .......... .......... .......... .......... .......... 86% 97.8M 0s
 84450K .......... .......... .......... .......... .......... 86%  103M 0s
 84500K .......... .......... .......... .......... .......... 86% 75.6M 0s
 84550K .......... .......... .......... .......... .......... 87%  101M 0s
 84600K .......... .......... .......... .......... .......... 87%  101M 0s
 84650K .......... .......... .......... .......... .......... 87% 99.9M 0s
 84700K .......... .......... .......... .......... .......... 87%  100M 0s
 84750K .......... .......... .......... .......... .......... 87%  101M 0s
 84800K .......... .......... .......... .......... .......... 87%  102M 0s
 84850K .......... .......... .......... .......... .......... 87% 97.7M 0s
 84900K .......... .......... .......... .......... .......... 87% 73.8M 0s
 84950K .......... .......... .......... .......... .......... 87%  103M 0s
 85000K .......... .......... .......... .......... .......... 87%  105M 0s
 85050K .......... .......... .......... .......... .......... 87% 96.7M 0s
 85100K .......... .......... .......... .......... .......... 87% 97.4M 0s
 85150K .......... .......... .......... .......... .......... 87%  101M 0s
 85200K .......... .......... .......... .......... .......... 87%  105M 0s
 85250K .......... .......... .......... .......... .......... 87% 99.7M 0s
 85300K .......... .......... .......... .......... .......... 87% 77.3M 0s
 85350K .......... .......... .......... .......... .......... 87%  102M 0s
 85400K .......... .......... .......... .......... .......... 87%  100M 0s
 85450K .......... .......... .......... .......... .......... 87% 95.2M 0s
 85500K .......... .......... .......... .......... .......... 87%  100M 0s
 85550K .......... .......... .......... .......... .......... 88% 96.8M 0s
 85600K .......... .......... .......... .......... .......... 88% 93.4M 0s
 85650K .......... .......... .......... .......... .......... 88%  101M 0s
 85700K .......... .......... .......... .......... .......... 88% 74.5M 0s
 85750K .......... .......... .......... .......... .......... 88%  101M 0s
 85800K .......... .......... .......... .......... .......... 88% 99.2M 0s
 85850K .......... .......... .......... .......... .......... 88% 98.5M 0s
 85900K .......... .......... .......... .......... .......... 88%  101M 0s
 85950K .......... .......... .......... .......... .......... 88%  102M 0s
 86000K .......... .......... .......... .......... .......... 88% 98.1M 0s
 86050K .......... .......... .......... .......... .......... 88% 98.1M 0s
 86100K .......... .......... .......... .......... .......... 88% 76.7M 0s
 86150K .......... .......... .......... .......... .......... 88%  102M 0s
 86200K .......... .......... .......... .......... .......... 88% 98.5M 0s
 86250K .......... .......... .......... .......... .......... 88%  100M 0s
 86300K .......... .......... .......... .......... .......... 88%  102M 0s
 86350K .......... .......... .......... .......... .......... 88% 98.1M 0s
 86400K .......... .......... .......... .......... .......... 88%  104M 0s
 86450K .......... .......... .......... .......... .......... 88% 98.5M 0s
 86500K .......... .......... .......... .......... .......... 89% 76.9M 0s
 86550K .......... .......... .......... .......... .......... 89%  105M 0s
 86600K .......... .......... .......... .......... .......... 89% 95.6M 0s
 86650K .......... .......... .......... .......... .......... 89% 94.6M 0s
 86700K .......... .......... .......... .......... .......... 89%  104M 0s
 86750K .......... .......... .......... .......... .......... 89%  102M 0s
 86800K .......... .......... .......... .......... .......... 89%  101M 0s
 86850K .......... .......... .......... .......... .......... 89%  104M 0s
 86900K .......... .......... .......... .......... .......... 89% 74.0M 0s
 86950K .......... .......... .......... .......... .......... 89% 97.6M 0s
 87000K .......... .......... .......... .......... .......... 89% 98.2M 0s
 87050K .......... .......... .......... .......... .......... 89%  105M 0s
 87100K .......... .......... .......... .......... .......... 89%  105M 0s
 87150K .......... .......... .......... .......... .......... 89%  102M 0s
 87200K .......... .......... .......... .......... .......... 89%  101M 0s
 87250K .......... .......... .......... .......... .......... 89%  104M 0s
 87300K .......... .......... .......... .......... .......... 89% 77.7M 0s
 87350K .......... .......... .......... .......... .......... 89%  101M 0s
 87400K .......... .......... .......... .......... .......... 89% 95.6M 0s
 87450K .......... .......... .......... .......... .......... 90%  101M 0s
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 87550K .......... .......... .......... .......... .......... 90%  105M 0s
 87600K .......... .......... .......... .......... .......... 90% 99.1M 0s
 87650K .......... .......... .......... .......... .......... 90% 98.5M 0s
 87700K .......... .......... .......... .......... .......... 90% 74.7M 0s
 87750K .......... .......... .......... .......... .......... 90%  101M 0s
 87800K .......... .......... .......... .......... .......... 90% 93.2M 0s
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 88500K .......... .......... .......... .......... .......... 91% 76.8M 0s
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 88600K .......... .......... .......... .......... .......... 91% 95.6M 0s
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 88900K .......... .......... .......... .......... .......... 91% 75.3M 0s
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 89300K .......... .......... .......... .......... .......... 91% 75.4M 0s
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 89600K .......... .......... .......... .......... .......... 92% 89.9M 0s
 89650K .......... .......... .......... .......... .......... 92% 84.8M 0s
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 89850K .......... .......... .......... .......... .......... 92% 68.2M 0s
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 89950K .......... .......... .......... .......... .......... 92% 79.7M 0s
 90000K .......... .......... .......... .......... .......... 92%  102M 0s
 90050K .......... .......... .......... .......... .......... 92%  105M 0s
 90100K .......... .......... .......... .......... .......... 92% 71.3M 0s
 90150K .......... .......... .......... .......... .......... 92%  100M 0s
 90200K .......... .......... .......... .......... .......... 92%  101M 0s
 90250K .......... .......... .......... .......... .......... 92% 97.4M 0s
 90300K .......... .......... .......... .......... .......... 92%  104M 0s
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 90500K .......... .......... .......... .......... .......... 93% 75.8M 0s
 90550K .......... .......... .......... .......... .......... 93%  101M 0s
 90600K .......... .......... .......... .......... .......... 93% 97.5M 0s
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 90900K .......... .......... .......... .......... .......... 93% 74.1M 0s
 90950K .......... .......... .......... .......... .......... 93%  101M 0s
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 91150K .......... .......... .......... .......... .......... 93% 99.2M 0s
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 91300K .......... .......... .......... .......... .......... 93% 75.0M 0s
 91350K .......... .......... .......... .......... .......... 94%  102M 0s
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 91500K .......... .......... .......... .......... .......... 94% 98.7M 0s
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 91750K .......... .......... .......... .......... .......... 94% 97.1M 0s
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 92500K .......... .......... .......... .......... .......... 95% 73.5M 0s
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 94500K .......... .......... .......... .......... .......... 97% 75.7M 0s
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 94850K .......... .......... .......... .......... .......... 97% 95.2M 0s
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 95300K .......... .......... .......... .......... .......... 98% 75.3M 0s
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 95550K .......... .......... .......... .......... .......... 98% 97.9M 0s
 95600K .......... .......... .......... .......... .......... 98%  103M 0s
 95650K .......... .......... .......... .......... .......... 98%  102M 0s
 95700K .......... .......... .......... .......... .......... 98% 75.3M 0s
 95750K .......... .......... .......... .......... .......... 98%  105M 0s
 95800K .......... .......... .......... .......... .......... 98%  104M 0s
 95850K .......... .......... .......... .......... .......... 98% 99.2M 0s
 95900K .......... .......... .......... .......... .......... 98%  101M 0s
 95950K .......... .......... .......... .......... .......... 98%  101M 0s
 96000K .......... .......... .......... .......... .......... 98%  102M 0s
 96050K .......... .......... .......... .......... .......... 98% 95.6M 0s
 96100K .......... .......... .......... .......... .......... 98% 75.3M 0s
 96150K .......... .......... .......... .......... .......... 98%  105M 0s
 96200K .......... .......... .......... .......... .......... 99%  101M 0s
 96250K .......... .......... .......... .......... .......... 99% 98.5M 0s
 96300K .......... .......... .......... .......... .......... 99%  100M 0s
 96350K .......... .......... .......... .......... .......... 99% 98.8M 0s
 96400K .......... .......... .......... .......... .......... 99% 96.7M 0s
 96450K .......... .......... .......... .......... .......... 99%  101M 0s
 96500K .......... .......... .......... .......... .......... 99% 75.2M 0s
 96550K .......... .......... .......... .......... .......... 99%  104M 0s
 96600K .......... .......... .......... .......... .......... 99%  105M 0s
 96650K .......... .......... .......... .......... .......... 99%  106M 0s
 96700K .......... .......... .......... .......... .......... 99%  105M 0s
 96750K .......... .......... .......... .......... .......... 99%  106M 0s
 96800K .......... .......... .......... .......... .......... 99%  103M 0s
 96850K .......... .......... .......... .......... .......... 99%  104M 0s
 96900K .......... .......... .......... .......... .......... 99% 79.5M 0s
 96950K .......... .......... .......... .......... .......... 99%  105M 0s
 97000K .......... .......... .......... .......... .......... 99%  104M 0s
 97050K .......... .......... .......... .......... .......... 99%  105M 0s
 97100K .......... .......... .......... .......... .......... 99%  105M 0s
 97150K .......... .......... .......... .......... .......... 99%  105M 0s
 97200K .......... ..........                                 100%  126M=1.2s

2026-06-17 17:01:44 (81.6 MB/s) - ‘/tmp/tmp98v_rf41/no2_climatology.hdf’ saved [99553985/99553985]

(d) 17:01:44 Moving "/tmp/tmp98v_rf41/no2_climatology.hdf" to "/root/.cache/polymer/auxdata/static/common/no2_climatology.hdf"...
(i) 17:01:44 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/trop_f_no2_200m.hdf
(i) 17:01:44 To: /root/.cache/polymer/auxdata/static/common/trop_f_no2_200m.hdf
--2026-06-17 17:01:44--  http://download.hygeos.com/POLYMER/auxdata/common/trop_f_no2_200m.hdf
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:80... connected.
HTTP request sent, awaiting response... 301 Moved Permanently
Location: https://download.hygeos.com/POLYMER/auxdata/common/trop_f_no2_200m.hdf [following]
--2026-06-17 17:01:44--  https://download.hygeos.com/POLYMER/auxdata/common/trop_f_no2_200m.hdf
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 70094 (68K) [application/x-hdf]
Saving to: ‘/tmp/tmp_g9xd6l4/trop_f_no2_200m.hdf’

     0K .......... .......... .......... .......... .......... 73%  962K 0s
    50K .......... ........                                   100% 29.2M=0.05s

2026-06-17 17:01:45 (1.27 MB/s) - ‘/tmp/tmp_g9xd6l4/trop_f_no2_200m.hdf’ saved [70094/70094]

(d) 17:01:45 Moving "/tmp/tmp_g9xd6l4/trop_f_no2_200m.hdf" to "/root/.cache/polymer/auxdata/static/common/trop_f_no2_200m.hdf"...
(i) 17:01:45 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/morel_fq.dat
(i) 17:01:45 To: /root/.cache/polymer/auxdata/static/common/morel_fq.dat
--2026-06-17 17:01:45--  http://download.hygeos.com/POLYMER/auxdata/common/morel_fq.dat
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:80... connected.
HTTP request sent, awaiting response... 301 Moved Permanently
Location: https://download.hygeos.com/POLYMER/auxdata/common/morel_fq.dat [following]
--2026-06-17 17:01:45--  https://download.hygeos.com/POLYMER/auxdata/common/morel_fq.dat
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 389844 (381K)
Saving to: ‘/tmp/tmpczcd8iyh/morel_fq.dat’

     0K .......... .......... .......... .......... .......... 13%  964K 0s
    50K .......... .......... .......... .......... .......... 26% 1.86M 0s
   100K .......... .......... .......... .......... .......... 39% 46.9M 0s
   150K .......... .......... .......... .......... .......... 52% 1.99M 0s
   200K .......... .......... .......... .......... .......... 65% 60.1M 0s
   250K .......... .......... .......... .......... .......... 78% 52.3M 0s
   300K .......... .......... .......... .......... .......... 91% 45.7M 0s
   350K .......... .......... ..........                      100% 93.8M=0.1s

2026-06-17 17:01:45 (3.48 MB/s) - ‘/tmp/tmpczcd8iyh/morel_fq.dat’ saved [389844/389844]

(d) 17:01:45 Moving "/tmp/tmpczcd8iyh/morel_fq.dat" to "/root/.cache/polymer/auxdata/static/common/morel_fq.dat"...
(i) 17:01:45 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w0.dat
(i) 17:01:45 To: /root/.cache/polymer/auxdata/static/common/AboveRrs_gCoef_w0.dat
--2026-06-17 17:01:45--  http://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w0.dat
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:80... connected.
HTTP request sent, awaiting response... 301 Moved Permanently
Location: https://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w0.dat [following]
--2026-06-17 17:01:45--  https://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w0.dat
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 330565 (323K)
Saving to: ‘/tmp/tmpnzcsvmtz/AboveRrs_gCoef_w0.dat’

     0K .......... .......... .......... .......... .......... 15%  967K 0s
    50K .......... .......... .......... .......... .......... 30% 1.87M 0s
   100K .......... .......... .......... .......... .......... 46% 45.2M 0s
   150K .......... .......... .......... .......... .......... 61% 1.94M 0s
   200K .......... .......... .......... .......... .......... 77% 49.8M 0s
   250K .......... .......... .......... .......... .......... 92% 37.7M 0s
   300K .......... .......... ..                              100% 71.6M=0.1s

2026-06-17 17:01:45 (2.96 MB/s) - ‘/tmp/tmpnzcsvmtz/AboveRrs_gCoef_w0.dat’ saved [330565/330565]

(d) 17:01:45 Moving "/tmp/tmpnzcsvmtz/AboveRrs_gCoef_w0.dat" to "/root/.cache/polymer/auxdata/static/common/AboveRrs_gCoef_w0.dat"...
(i) 17:01:45 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w10.dat
(i) 17:01:45 To: /root/.cache/polymer/auxdata/static/common/AboveRrs_gCoef_w10.dat
--2026-06-17 17:01:45--  http://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w10.dat
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:80... connected.
HTTP request sent, awaiting response... 301 Moved Permanently
Location: https://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w10.dat [following]
--2026-06-17 17:01:45--  https://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w10.dat
Connecting to download.hygeos.com (download.hygeos.com)|213.186.33.4|:443... connected.
HTTP request sent, awaiting response... 200 OK
Length: 330042 (322K)
Saving to: ‘/tmp/tmpxobo9epc/AboveRrs_gCoef_w10.dat’

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(i) 17:01:46 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/AboveRrs_gCoef_w5.dat
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(i) 17:01:46 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/aph_bricaud_1995.txt
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(i) 17:01:46 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/aph_bricaud_1998.txt
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(i) 17:01:46 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/morel_buiteveld_bsw.txt
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(i) 17:01:46 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/palmer74.dat
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(i) 17:01:47 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/pope97.dat
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(i) 17:01:47 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/raman_westberry13.txt
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(i) 17:01:47 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/astarmin_average_2015_SLSTR.txt
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(i) 17:01:47 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/astarmin_average.txt
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(i) 17:01:47 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/Matsuoka11_aphy_Table1_JGR.csv
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(i) 17:01:48 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/k_oz.csv
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(i) 17:01:48 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/SOLAR_SPECTRUM_WMO_86
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(i) 17:01:48 Downloading:http://download.hygeos.com/POLYMER/auxdata/common/vegetation.grass.avena.fatua.vswir.vh352.ucsb.asd.spectrum.txt
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(i) 17:01:48 Downloading:http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/sun_spectral_flux_rr.txt
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(i) 17:01:49 Downloading:http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/central_wavelen_rr.txt
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--2026-06-17 17:01:49--  http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/central_wavelen_rr.txt
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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   150K .......... .                                          100% 56.6M=0.05s

2026-06-17 17:01:49 (3.44 MB/s) - ‘/tmp/tmp3z8zysnc/central_wavelen_rr.txt’ saved [165629/165629]

(d) 17:01:49 Moving "/tmp/tmp3z8zysnc/central_wavelen_rr.txt" to "/root/.cache/polymer/auxdata/static/meris/smile/v2/central_wavelen_rr.txt"...
(i) 17:01:49 Downloading:http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/sun_spectral_flux_fr.txt
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--2026-06-17 17:01:49--  http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/sun_spectral_flux_fr.txt
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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   950K .......... .......... .......... .                    100% 57.2M=0.1s

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(d) 17:01:49 Moving "/tmp/tmp_kpq6l54/sun_spectral_flux_fr.txt" to "/root/.cache/polymer/auxdata/static/meris/smile/v2/sun_spectral_flux_fr.txt"...
(i) 17:01:49 Downloading:http://download.hygeos.com/POLYMER/auxdata/meris/smile/v2/central_wavelen_fr.txt
(i) 17:01:49 To: /root/.cache/polymer/auxdata/static/meris/smile/v2/central_wavelen_fr.txt
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Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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Length: 683554 (668K) [text/plain]
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   650K .......... .......                                    100% 63.0M=0.1s

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(d) 17:01:49 Moving "/tmp/tmpq6gac89h/central_wavelen_fr.txt" to "/root/.cache/polymer/auxdata/static/meris/smile/v2/central_wavelen_fr.txt"...
(i) 17:01:49 Downloading:http://download.hygeos.com/POLYMER/auxdata/modisa/HMODISA_RSRs.txt
(i) 17:01:49 To: /root/.cache/polymer/auxdata/static/modisa/HMODISA_RSRs.txt
--2026-06-17 17:01:49--  http://download.hygeos.com/POLYMER/auxdata/modisa/HMODISA_RSRs.txt
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:49--  https://download.hygeos.com/POLYMER/auxdata/modisa/HMODISA_RSRs.txt
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2026-06-17 17:01:50 (3.51 MB/s) - ‘/tmp/tmp2zjheobz/HMODISA_RSRs.txt’ saved [393564/393564]

(d) 17:01:50 Moving "/tmp/tmp2zjheobz/HMODISA_RSRs.txt" to "/root/.cache/polymer/auxdata/static/modisa/HMODISA_RSRs.txt"...
(i) 17:01:50 Downloading:http://download.hygeos.com/POLYMER/auxdata/seawifs/SeaWiFS_RSRs.txt
(i) 17:01:50 To: /root/.cache/polymer/auxdata/static/seawifs/SeaWiFS_RSRs.txt
--2026-06-17 17:01:50--  http://download.hygeos.com/POLYMER/auxdata/seawifs/SeaWiFS_RSRs.txt
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:50--  https://download.hygeos.com/POLYMER/auxdata/seawifs/SeaWiFS_RSRs.txt
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Length: 80249 (78K) [text/plain]
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2026-06-17 17:01:50 (1.44 MB/s) - ‘/tmp/tmpfigewcyi/SeaWiFS_RSRs.txt’ saved [80249/80249]

(d) 17:01:50 Moving "/tmp/tmpfigewcyi/SeaWiFS_RSRs.txt" to "/root/.cache/polymer/auxdata/static/seawifs/SeaWiFS_RSRs.txt"...
(i) 17:01:50 Downloading:http://download.hygeos.com/POLYMER/auxdata/viirs/VIIRSN_IDPSv3_RSRs.txt
(i) 17:01:50 To: /root/.cache/polymer/auxdata/static/viirs/VIIRSN_IDPSv3_RSRs.txt
--2026-06-17 17:01:50--  http://download.hygeos.com/POLYMER/auxdata/viirs/VIIRSN_IDPSv3_RSRs.txt
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:50--  https://download.hygeos.com/POLYMER/auxdata/viirs/VIIRSN_IDPSv3_RSRs.txt
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   300K ..........                                            100% 19.0T=0.09s

2026-06-17 17:01:50 (3.29 MB/s) - ‘/tmp/tmpzcbn8tqe/VIIRSN_IDPSv3_RSRs.txt’ saved [317648/317648]

(d) 17:01:50 Moving "/tmp/tmpzcbn8tqe/VIIRSN_IDPSv3_RSRs.txt" to "/root/.cache/polymer/auxdata/static/viirs/VIIRSN_IDPSv3_RSRs.txt"...
(i) 17:01:50 Downloading:http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv
(i) 17:01:50 To: /root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv
--2026-06-17 17:01:50--  http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:50--  https://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv
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(d) 17:01:50 Moving "/tmp/tmpxd0jrcn7/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv" to "/root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2A.csv"...
(i) 17:01:50 Downloading:http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv
(i) 17:01:50 To: /root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv
--2026-06-17 17:01:50--  http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:51--  https://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv
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(d) 17:01:51 Moving "/tmp/tmpdmaev3pz/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv" to "/root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2B.csv"...
(i) 17:01:51 Downloading:http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv
(i) 17:01:51 To: /root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv
--2026-06-17 17:01:51--  http://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:51--  https://download.hygeos.com/POLYMER/auxdata/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv
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(d) 17:01:51 Moving "/tmp/tmppb_raky_/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv" to "/root/.cache/polymer/auxdata/static/msi/S2-SRF_COPE-GSEG-EOPG-TN-15-0007_3.0_S2C.csv"...
(i) 17:01:51 Downloading:http://download.hygeos.com/POLYMER/auxdata/oli/Ball_BA_RSR.v1.2.xlsx
(i) 17:01:51 To: /root/.cache/polymer/auxdata/static/oli/Ball_BA_RSR.v1.2.xlsx
--2026-06-17 17:01:51--  http://download.hygeos.com/POLYMER/auxdata/oli/Ball_BA_RSR.v1.2.xlsx
Resolving download.hygeos.com (download.hygeos.com)... 213.186.33.4, 2001:41d0:1:1b00:213:186:33:4
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--2026-06-17 17:01:51--  https://download.hygeos.com/POLYMER/auxdata/oli/Ball_BA_RSR.v1.2.xlsx
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Length: 174535 (170K) [application/vnd.openxmlformats-officedocument.spreadsheetml.sheet]
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2026-06-17 17:01:51 (3.14 MB/s) - ‘/tmp/tmpnys_el6f/Ball_BA_RSR.v1.2.xlsx’ saved [174535/174535]

(d) 17:01:51 Moving "/tmp/tmpnys_el6f/Ball_BA_RSR.v1.2.xlsx" to "/root/.cache/polymer/auxdata/static/oli/Ball_BA_RSR.v1.2.xlsx"...
2026-06-17 17:01:53,051 INFO [2025-12-11T00:00:00] Please note that a dedicated catalogue entry for this dataset, post-processed and stored in Analysis Ready Cloud Optimized (ARCO) format (Zarr), is available for optimised time-series retrievals (i.e. for retrieving data from selected variables for a single point over an extended period of time in an efficient way). You can discover it [here](https://cds.climate.copernicus.eu/datasets/reanalysis-era5-single-levels-timeseries?tab=overview)
2026-06-17 17:01:53,052 INFO Request ID is 4b162816-065a-4c86-b2a6-3c41df7416a2
2026-06-17 17:01:53,147 INFO status has been updated to accepted
2026-06-17 17:02:06,996 INFO status has been updated to running
2026-06-17 17:02:15,832 INFO status has been updated to successful

2e507d568a7692ef3ce3efb1f0b0e458.nc:   0%|          | 0.00/8.02M [00:00<?, ?B/s]
2e507d568a7692ef3ce3efb1f0b0e458.nc:  12%|█▏        | 1.00M/8.02M [00:00<00:04, 1.70MB/s]
2e507d568a7692ef3ce3efb1f0b0e458.nc:  62%|██████▏   | 5.00M/8.02M [00:00<00:00, 9.13MB/s]
                                                                                         
2026-06-17 17:02:17,275 INFO [2025-12-11T00:00:00] Please note that a dedicated catalogue entry for this dataset, post-processed and stored in Analysis Ready Cloud Optimized (ARCO) format (Zarr), is available for optimised time-series retrievals (i.e. for retrieving data from selected variables for a single point over an extended period of time in an efficient way). You can discover it [here](https://cds.climate.copernicus.eu/datasets/reanalysis-era5-single-levels-timeseries?tab=overview)
2026-06-17 17:02:17,275 INFO Request ID is a483e8f2-ab14-45e9-8bfa-b9c058b70b05
2026-06-17 17:02:17,369 INFO status has been updated to accepted
2026-06-17 17:02:31,553 INFO status has been updated to running
2026-06-17 17:02:39,234 INFO status has been updated to successful

786bd0aec7105a5acc13fc56fdb6bbe9.nc:   0%|          | 0.00/8.13M [00:00<?, ?B/s]
786bd0aec7105a5acc13fc56fdb6bbe9.nc:  12%|█▏        | 1.00M/8.13M [00:00<00:03, 1.99MB/s]
786bd0aec7105a5acc13fc56fdb6bbe9.nc:  49%|████▉     | 4.00M/8.13M [00:00<00:00, 8.16MB/s]
                                                                                         
Warning 1: Value -32768 in the source dataset has been changed to -32767 in the destination dataset to avoid being treated as NoData. To avoid this, select a different NoData value for the destination dataset.
Warning 1: Value -32768 in the source dataset has been changed to -32767 in the destination dataset to avoid being treated as NoData. To avoid this, select a different NoData value for the destination dataset.
2026/06/17 17:03:42:   Currently, L2A dead pixel masks cannot be saved yet.
2026/06/17 17:03:42:   The 'isofit_atm_state' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:03:42:   The 'isofit_uncertainty' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:03:42:   Currently, the L2A metadata XML file does not contain all relevant keys and contains not updated values!
Captured log call
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 [2025-12-11T00:00:00] Please note that a dedicated catalogue entry for this dataset, post-processed and stored in Analysis Ready Cloud Optimized (ARCO) format (Zarr), is available for optimised time-series retrievals (i.e. for retrieving data from selected variables for a single point over an extended period of time in an efficient way). You can discover it [here](https://cds.climate.copernicus.eu/datasets/reanalysis-era5-single-levels-timeseries?tab=overview)
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 Request ID is 4b162816-065a-4c86-b2a6-3c41df7416a2
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to accepted
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to running
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to successful
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 [2025-12-11T00:00:00] Please note that a dedicated catalogue entry for this dataset, post-processed and stored in Analysis Ready Cloud Optimized (ARCO) format (Zarr), is available for optimised time-series retrievals (i.e. for retrieving data from selected variables for a single point over an extended period of time in an efficient way). You can discover it [here](https://cds.climate.copernicus.eu/datasets/reanalysis-era5-single-levels-timeseries?tab=overview)
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 Request ID is a483e8f2-ab14-45e9-8bfa-b9c058b70b05
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to accepted
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to running
INFO     ecmwf.datastores.legacy_client:legacy_client.py:192 status has been updated to successful

Teardown

PASSED Test_EnPT_Controller_ACWater::test_run_all_processors_without_acwater_installed 0:00:20.452361

Test to run all processors while replacing polymer_ac_enmap with None using mock.patch.

Setup

Call

Captured stdout call
EnPT Controller received the following configuration:
{'general_opts': {'CPUs': 24,
                  'create_logfile': True,
                  'disable_progress_bars': False,
                  'drop_bad_bands': True,
                  'log_level': 'DEBUG',
                  'n_lines_to_append': None,
                  'path_dem': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__tile2__DEM_ASTER.bsq',
                  'path_l1b_enmap_image': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/EnMAP_Level_1B/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z__rows700-730.zip',
                  'path_l1b_enmap_image_gapfill': '',
                  'path_l1b_snr_model': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/EnMAP_Sensor/EnMAP_Level_1B_SNR.zip',
                  'working_dir': '/tmp/tmpjg2az_2s'},
 'output': {'output_dir': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs',
            'output_format': 'GTiff',
            'output_interleave': 'pixel',
            'output_nodata_value': -32768},
 'processors': {'atmospheric_correction': {'auto_download_ecmwf': True,
                                           'blocksize': 100,
                                           'enable_ac': True,
                                           'enable_segmentation': True,
                                           'isofit_surface_category': 'multicomponent_surface',
                                           'land_ac_alg': 'SICOR',
                                           'mode_ac': 'combined',
                                           'path_isofit_surface_config': '',
                                           'path_isofit_surface_priors': '',
                                           'polymer_additional_results': True,
                                           'polymer_root': '/opt/conda/envs/ci_env/lib/python3.13/site-packages',
                                           'scale_factor_boa_ref': 10000,
                                           'threads': -1},
                'dead_pixel': {'algorithm': 'spectral',
                               'interp_method_spatial': 'linear',
                               'interp_method_spectral': 'linear',
                               'run_processor': True},
                'destriping': {'enable_along_track_destriping': False},
                'geometry': {'enable_absolute_coreg': False,
                             'enable_keystone_correction': False,
                             'enable_vnir_swir_coreg': False,
                             'path_reference_image': ''},
                'orthorectification': {'resamp_alg': 'bilinear',
                                       'target_coord_grid': {'x': array([ 0, 30]),
                                                             'y': array([ 0, 30])},
                                       'target_epsg': None,
                                       'target_projection_type': 'UTM',
                                       'vswir_overlap_algorithm': 'swir_only'},
                'smile': {'run_processor': False},
                'toa_ref': {'path_earthSunDist': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/earth_sun_distance/Earth_Sun_distances_per_day_edited__1980_2030.csv',
                            'path_solar_irr': '/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/enpt/resources/solar_irradiance/SUNp1fontenla__350-2500nm_@0.1nm_converted.txt',
                            'scale_factor_toa_ref': 10000}}}
2026/06/17 17:03:43:   Reading metadata for VNIR detector...
2026/06/17 17:03:43:   Calculating solar irradiance...
2026/06/17 17:03:43:   Reading metadata for SWIR detector...
2026/06/17 17:03:43:   Calculating solar irradiance...
2026/06/17 17:03:43:   Pre-processing user-provided DEM...
2026/06/17 17:03:43:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:03:43:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:03:43:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:03:43:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:03:44:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:03:44:   Computing VNIR geolayer...
2026/06/17 17:03:44:   Time for VNIR geolayer computation: 0.08 seconds
2026/06/17 17:03:44:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:03:44:   Computing SWIR geolayer...
2026/06/17 17:03:44:   Time for SWIR geolayer computation: 0.11 seconds
2026/06/17 17:03:44:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:03:44:   Correcting dead pixels of VNIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:44:   Percentage of defective pixels: 0.49
2026/06/17 17:03:44:   Percentage of pixels with a defect in any band: 35.60
2026/06/17 17:03:44:   Correcting dead pixels of SWIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:44:   Percentage of defective pixels: 0.50
2026/06/17 17:03:44:   Percentage of pixels with a defect in any band: 44.50
2026/06/17 17:03:44:   Transforming the 'mask_landwater' attribute from VNIR to SWIR sensor geometry.
2026/06/17 17:03:45:   Starting atmospheric correction for VNIR and SWIR detector in 'combined' mode. Source radiometric unit code is 'TOARad'.
2026/06/17 17:03:45:   Running atmospheric correction in 'land' mode, i.e., SICOR is applied to ALL surfaces. Uncertainty is expected for water surfaces because SICOR is designed for land only.
2026/06/17 17:03:45:   SICOR AC configuration: 
{'processing': {'Exception': None,
                'Exception_type': '',
                'clear_fraction': None,
                'interface': {'args': (), 'kwargs': {}},
                'status': 1,
                'tIO': 0.0,
                'tRT': 0.0,
                'uncertainties': {}},
 'retrieval': {'cpu': 24,
               'default_aot_value': 0.192,
               'disable_progressbars': False,
               'fn_LUT': '',
               'inversion': {'eps': 0.01,
                             'full': False,
                             'gnform': 'n',
                             'maxiter': 35},
               'land_only': False,
               'n_pca': 5,
               'segmentation': True,
               'segs': 200,
               'smoothing_sigma': 50,
               'sol_model': 'fontenla',
               'state_vector': {'ice': {'ll': 0.001,
                                        'prior_mean': 0.02,
                                        'prior_sigma': 1000.0,
                                        'ul': 0.499,
                                        'use_prior_mean': False},
                                'intercept': {'ll': 0.001,
                                              'prior_mean': 0.3,
                                              'prior_sigma': 1000.0,
                                              'ul': 0.999,
                                              'use_prior_mean': False},
                                'liquid_water': {'ll': 0.001,
                                                 'prior_mean': 0.02,
                                                 'prior_sigma': 1000.0,
                                                 'ul': 0.499,
                                                 'use_prior_mean': False},
                                'slope': {'ll': -0.0004,
                                          'prior_mean': 0.0002,
                                          'prior_sigma': 1000.0,
                                          'ul': 0.0004,
                                          'use_prior_mean': False},
                                'water_vapor': {'ll': 0.001,
                                                'prior_mean': 2.5,
                                                'prior_sigma': 1000.0,
                                                'ul': 4.999,
                                                'use_prior_mean': False}},
               'unknowns': {'ice_absorption_coefficients': {'sigma': 2.39e-07},
                            'liquid_water_absorption_coefficients': {'sigma': 2.43e-07},
                            'skyview': {'sigma': 0.1},
                            'water_vapor_absorption_coefficients': {'sigma': 0.01}}},
 'sensor': {'fit': {'idx': [14,
                            15,
                            16,
                            17,
                            18,
                            19,
                            20,
                            21,
                            22,
                            23,
                            24,
                            25,
                            26,
                            27,
                            28,
                            29,
                            30,
                            31],
                    'snr': [322.94254006,
                            313.45752342,
                            313.32464722,
                            306.19455173,
                            281.35641378,
                            227.9759974,
                            157.22390595,
                            148.93620623,
                            154.40197388,
                            182.60431866,
                            232.89644996,
                            250.1244036,
                            252.2267179,
                            272.16592448,
                            299.71964816,
                            316.11909184,
                            326.33202741,
                            312.28461288]},
            'name': 'EnMAP',
            'resamp_alg': 'nearest'}}
2026/06/17 17:03:45:   Setting up forward operator...
2026/06/17 17:03:45:   SICOR is applied to land AND water pixels.
2026/06/17 17:03:45:   Transforming VNIR data to SWIR sensor geometry to enable first guess retrievals for liquid water and ice...
2026/06/17 17:03:46:   Getting observation metadata...
2026/06/17 17:03:46:   Checking if observation metadata values are within LUT value ranges...
2026/06/17 17:03:46:   Loading solar irradiance model...
2026/06/17 17:03:46:   Loading RT LUT...
2026/06/17 17:03:46:   LUT file was properly downloaded and is available for AC!
2026/06/17 17:03:46:   Converting LUT to Fontenla solar model...
2026/06/17 17:03:46:   Resampling LUT to EnMAP wavelengths...
2026/06/17 17:03:49:   Reducing grid dimensionality of LUT to increase interpolation speed...
2026/06/17 17:03:49:   Calculating absorption coefficients of liquid water and ice...
2026/06/17 17:03:49:   Performing first guess water vapor retrieval based on a common band ratio using VNIR data...
2026/06/17 17:03:50:   Transforming CWV first guess map to SWIR sensor geometry to enable segmentation and 3 phases of water retrieval...
2026/06/17 17:03:50:   Performing first guess liquid water retrieval based on the NDWI...
2026/06/17 17:03:50:   Performing first guess ice retrieval based on the NDSI...
2026/06/17 17:03:50:   Calculating first guess for intercept and slope of absorption feature continuum...
2026/06/17 17:03:50:   Segmenting SWIR L1B spectra to enhance processing speed...
2026/06/17 17:03:51:   Preparing segmented SWIR L1B data cube...
2026/06/17 17:03:51:   Performing 3 phases of water retrieval...
2026/06/17 17:03:51:   Setting up multiprocessing...
2026/06/17 17:03:51:   Multiprocessing on 24 cpu's
2026/06/17 17:03:51:   Preparing optimal estimation input...
2026/06/17 17:03:51:   Optimization...
2026/06/17 17:03:53:   Done!
2026/06/17 17:03:53:   Runtime: 2.03 s
2026/06/17 17:03:53:   Smoothing segmented CWV retrieval map...
2026/06/17 17:03:53:   Transforming smoothed CWV retrieval map to VNIR sensor geometry to enable AC of VNIR data...
2026/06/17 17:03:53:   Starting surface reflectance retrieval...
2026/06/17 17:03:53:   Calculating surface reflectance for vnir detector...
2026/06/17 17:03:55:   Calculating surface reflectance for swir detector...
2026/06/17 17:03:57:   Smoothing segmented liquid water and ice maps...
2026/06/17 17:03:57:   SICOR atmospheric correction for EnMAP in land mode successfully finished!
2026/06/17 17:03:57:   Joining results of atmospheric correction.
2026/06/17 17:03:57:   Re-applying dead pixel correction to correct for spectral spikes due to fringe effect.
2026/06/17 17:03:57:   Correcting dead pixels of VNIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:57:   Percentage of defective pixels: 0.49
2026/06/17 17:03:57:   Percentage of pixels with a defect in any band: 35.60
2026/06/17 17:03:57:   Correcting dead pixels of SWIR detector...
Used algorithm: linear interpolation in the spectral domain
2026/06/17 17:03:57:   Percentage of defective pixels: 0.50
2026/06/17 17:03:57:   Percentage of pixels with a defect in any band: 44.50
2026/06/17 17:03:57:   Starting orthorectification...
2026/06/17 17:03:57:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 32630): (637410.0, 4942680.0, 666180.0, 4949340.0)
2026/06/17 17:03:57:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:03:58:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:03:58:   Merging VNIR and SWIR data...
2026/06/17 17:03:58:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:03:58:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:03:59:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:03:59:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:03:59:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:03:59:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:03:59:   Orthorectifying 'sicor_cwv' attribute...
2026/06/17 17:03:59:   Orthorectifying 'sicor_liq' attribute...
2026/06/17 17:04:00:   Orthorectifying 'sicor_ice' attribute...
2026/06/17 17:04:00:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:04:00:   Generating L2A metadata...
2026/06/17 17:04:01:   Pre-processing DEM to match EnMAP grid...
2026/06/17 17:04:01:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (222, 959, 202) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (222, 959, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.TIF.
Writing GeoArray of size (222, 959, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_CWV.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_LIQ.TIF.
Writing GeoArray of size (222, 959) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-ACOUT_SICOR_ICE.TIF.
2026/06/17 17:04:03:   Writing metadata to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-METADATA.XML
2026/06/17 17:04:03:   L2A product successfully written!
2026/06/17 17:04:03:   Total runtime of the processing chain: 0:00:20.401616
Captured stderr call
2026/06/17 17:03:42:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:03:45:   Polymer is not callable. As a fallback, SICOR is applied to water surfaces instead.

	progress: |==------------------------------------------------| 3.6% Complete  => 0:00:00
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	progress: |============--------------------------------------| 24.7% Complete  => 0:00:00
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	progress: |==============================--------------------| 59.6% Complete  => 0:00:00
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	progress: |==================================================| 100.0% Complete  => 0:00:01
2026/06/17 17:03:57:   VNIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
2026/06/17 17:03:57:   SWIR L2A data contain negative values indicating an overcorrection. Please check for errors in the input data, the options file, or the processing code.
2026/06/17 17:04:02:   Currently, L2A dead pixel masks cannot be saved yet.
2026/06/17 17:04:03:   The 'isofit_atm_state' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'isofit_uncertainty' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'polymer_logchl' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'polymer_logfb' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'polymer_rgli' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'polymer_rnir' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   The 'polymer_bitmask' attribute cannot be saved because it does not exist in the current EnMAP image.
2026/06/17 17:04:03:   Currently, the L2A metadata XML file does not contain all relevant keys and contains not updated values!

Teardown

tests/test_dead_pixel_correction.py 15 0:00:11.361007

PASSED Test_Dead_Pixel_Corrector::test_correct_using_2D_deadpixelmap_spatial 0:00:05.324835

Setup

Call

Teardown

PASSED Test_Dead_Pixel_Corrector::test_correct_using_2D_deadpixelmap_spectral 0:00:00.149583

Setup

Call

Teardown

PASSED Test_Dead_Pixel_Corrector::test_correct_using_3D_deadpixelmap_spatial 0:00:05.557372

Setup

Call

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PASSED Test_Dead_Pixel_Corrector::test_correct_using_3D_deadpixelmap_spectral 0:00:00.278940

Setup

Call

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PASSED Test_interp_nodata_along_axis_2d::test_axis_0 0:00:00.004902

Setup

Call

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PASSED Test_interp_nodata_along_axis_2d::test_axis_1 0:00:00.004165

Setup

Call

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PASSED Test_interp_nodata_along_axis_2d::test_bad_args 0:00:00.002067

Setup

Call

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PASSED Test_interp_nodata_along_axis::test_2d 0:00:00.003394

Setup

Call

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PASSED Test_interp_nodata_along_axis::test_3d_axis_0 0:00:00.004345

Setup

Call

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PASSED Test_interp_nodata_along_axis::test_3d_axis_1 0:00:00.005521

Setup

Call

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PASSED Test_interp_nodata_along_axis::test_3d_axis_2 0:00:00.007342

Setup

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PASSED Test_interp_nodata_along_axis::test_bad_args 0:00:00.001746

Setup

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PASSED Test_interp_nodata_spatially_2d::test_bad_args 0:00:00.002175

Setup

Call

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PASSED Test_interp_nodata_spatially_2d::test_interpolation_pandas 0:00:00.006036

Setup

Call

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PASSED Test_interp_nodata_spatially_2d::test_interpolation_scipy 0:00:00.008586

Setup

Call

Teardown

tests/test_dem_download.py 10 0:00:12.148599

PASSED Test_CopernicusDEMGenerator::test_run_equator_crossing 0:00:02.708450

Setup

Call

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PASSED Test_CopernicusDEMGenerator::test_run_lonlat_glo30 0:00:01.138937

Setup

Call

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PASSED Test_CopernicusDEMGenerator::test_run_lonlat_glo30_res1px 0:00:01.134365

Setup

Call

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PASSED Test_CopernicusDEMGenerator::test_run_lonlat_glo90 0:00:00.475447

Setup

Call

Teardown

PASSED Test_CopernicusDEMGenerator::test_run_only_water 0:00:00.256718

Setup

Call

Captured log call
WARNING  enpt.processors.dem_preprocessing.dem_download:logging.py:253 Can't open https://copernicus-dem-30m.s3.amazonaws.com/Copernicus_DSM_COG_10_S01_00_W001_00_DEM/Copernicus_DSM_COG_10_S01_00_W001_00_DEM.tif. Skipping it
WARNING  enpt.processors.dem_preprocessing.dem_download:logging.py:253 Can't open https://copernicus-dem-30m.s3.amazonaws.com/Copernicus_DSM_COG_10_S01_00_E000_00_DEM/Copernicus_DSM_COG_10_S01_00_E000_00_DEM.tif. Skipping it
WARNING  enpt.processors.dem_preprocessing.dem_download:logging.py:253 Can't open https://copernicus-dem-30m.s3.amazonaws.com/Copernicus_DSM_COG_10_N00_00_W001_00_DEM/Copernicus_DSM_COG_10_N00_00_W001_00_DEM.tif. Skipping it
WARNING  enpt.processors.dem_preprocessing.dem_download:logging.py:253 Can't open https://copernicus-dem-30m.s3.amazonaws.com/Copernicus_DSM_COG_10_N00_00_E000_00_DEM/Copernicus_DSM_COG_10_N00_00_E000_00_DEM.tif. Skipping it

Teardown

PASSED Test_CopernicusDEMGenerator::test_run_utm_glo30 0:00:01.811106

Setup

Call

Teardown

PASSED Test_CopernicusDEMGenerator::test_run_utm_glo30_res30 0:00:01.646448

Setup

Call

Teardown

PASSED Test_CopernicusDEMGenerator::test_run_utm_glo90 0:00:00.873274

Setup

Call

Teardown

PASSED Test_CopernicusDEMGenerator::test_run_zero_meridian_crossing 0:00:02.102187

Setup

Call

Teardown

PASSED Test_CopernicusDEMGenerator::test_wrong_product 0:00:00.001667

Setup

Call

Teardown

tests/test_dem_preprocessing.py 11 0:00:01.757505

PASSED Test_DEM_Processor::test_compute_aspect 0:00:00.048023

Setup

Call

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PASSED Test_DEM_Processor::test_compute_slopes 0:00:00.023015

Setup

Call

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PASSED Test_DEM_Processor::test_fill_gaps 0:00:00.022774

Setup

Call

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PASSED Test_DEM_Processor::test_get_dem_in_map_geometry__no_resampling 0:00:00.028358

Setup

Call

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PASSED Test_DEM_Processor::test_get_dem_in_map_geometry__with_resampling 0:00:00.131003

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_get_dem_in_map_geometry__with_resampling_big_array 0:00:01.213815

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_get_dem_in_sensor_geometry 0:00:00.175718

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_get_flat_dem 0:00:00.035206

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_init_demTooSmall 0:00:00.032072

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_init_noWGS84 0:00:00.024315

Setup

Call

Teardown

PASSED Test_DEM_Processor::test_init_nomapinfo 0:00:00.023207

Setup

Call

Teardown

tests/test_destriping.py 1 0:00:02.168351

PASSED Test_Destriping::test_destriping 0:00:02.168351

Setup

Call

Captured stdout call
2026/06/17 17:04:28:   Reading metadata for VNIR detector...
2026/06/17 17:04:29:   Calculating solar irradiance...
2026/06/17 17:04:29:   Reading metadata for SWIR detector...
2026/06/17 17:04:29:   Calculating solar irradiance...
2026/06/17 17:04:29:   Pre-processing user-provided DEM...
2026/06/17 17:04:29:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:04:29:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:04:29:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:04:30:   Computing VNIR geolayer...
2026/06/17 17:04:30:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:04:30:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:04:30:   Computing SWIR geolayer...
2026/06/17 17:04:30:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:04:30:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:04:28:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.

Teardown

tests/test_images_sensorgeo.py 6 0:00:25.446588

PASSED Test_EnMAPL1Product_SensorGeo::test_set_SWIRattr_with_transformedVNIRattr 0:00:02.417231

Setup

Captured stdout setup
2026/06/17 17:04:31:   Reading metadata for VNIR detector...
2026/06/17 17:04:31:   Calculating solar irradiance...
2026/06/17 17:04:31:   Reading metadata for SWIR detector...
2026/06/17 17:04:31:   Calculating solar irradiance...
2026/06/17 17:04:31:   Pre-processing user-provided DEM...
2026/06/17 17:04:31:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:04:32:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:04:32:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:04:32:   Computing VNIR geolayer...
2026/06/17 17:04:32:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:04:32:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:04:32:   Computing SWIR geolayer...
2026/06/17 17:04:32:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:04:32:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr setup
2026/06/17 17:04:30:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.

Call

Captured stdout call
2026/06/17 17:04:32:   Transforming the 'mask_snow' attribute from VNIR to SWIR sensor geometry.
Captured stderr call
2026/06/17 17:04:32:   The mask_snow is not yet available in SWIR sensor geometry. Use EnMAP_SWIR_SensorGeo.transform_vnir_to_swir_raster() to set it with a transformed version of the one provided in VNIR sensor geometry.

Teardown

PASSED Test_EnMAPL1Product_SensorGeo::test_set_SWIRattr_with_transformedVNIRattr__attrIsNone 0:00:00.002851

Setup

Call

Captured stdout call
2026/06/17 17:04:33:   Transforming the 'mask_haze' attribute from VNIR to SWIR sensor geometry.

Teardown

PASSED Test_EnMAPL1Product_SensorGeo::test_transform_swir_to_vnir_raster__no_geolayer 0:00:00.001555

Setup

Call

Teardown

PASSED Test_EnMAPL1Product_SensorGeo::test_transform_swir_to_vnir_raster_no_keystone 0:00:01.932272

Setup

Call

Teardown

PASSED Test_EnMAPL1Product_SensorGeo::test_transform_vnir_to_swir_raster__no_geolayer 0:00:00.001350

Setup

Call

Teardown

PASSED Test_EnMAPL1Product_SensorGeo::test_transform_vnir_to_swir_raster_with_keystone 0:00:21.091329

Setup

Call

Teardown

tests/test_isofit_enmap.py 65 0:01:58.758985

PASSED Test_ISOFIT_EnMAP::test__compute_cos_i 0:00:09.344497

Setup

Call

Captured stdout call
2026/06/17 17:04:56:   Downloading EnPT-internal resources for ISOFIT...
2026/06/17 17:04:56:   ISOFIT surface spectra zipfile already downloaded. Proceeding.
2026/06/17 17:04:56:   LUT zipfile already downloaded. Proceeding.
2026/06/17 17:04:56:   Downloading ISOFIT extra-files...
Downloading ISOFIT data
Output as: /root/.isofit/data
Pulling release v1.0.5
Downloading file
Unzipping /root/.isofit/isofit-data.zip
Done, now available at: /root/.isofit/data
Downloading ISOFIT examples
Output as: /root/.isofit/examples
Pulling release v1.3.4
Downloading file
Unzipping /root/.isofit/isofit-tutorials.zip
Downloading NEON data for the example
Output as: /root/.isofit/examples/isotuts/NEON/data
Downloading file
Unzipping /root/.isofit/examples/isotuts/NEON/NEON-subset-data.zip
Done, now available at: /root/.isofit/examples
[!] Be sure to build the examples for your system via `isofit build`

Teardown

PASSED Test_ISOFIT_EnMAP::test__compute_solar_phase 0:00:00.397752

Setup

Call

Captured stdout call
2026/06/17 17:05:05:   Downloading EnPT-internal resources for ISOFIT...
2026/06/17 17:05:05:   ISOFIT surface spectra zipfile already downloaded. Proceeding.
2026/06/17 17:05:05:   LUT zipfile already downloaded. Proceeding.
2026/06/17 17:05:05:   Downloading ISOFIT extra-files...
Downloading ISOFIT data
Output as: /root/.isofit/data
Path already exists, please remove it or set the overwrite flag if you would like to redownload
Downloading ISOFIT examples
Output as: /root/.isofit/examples
Path already exists, please remove it or set the overwrite flag if you would like to redownload

Teardown

SKIPPED Test_ISOFIT_EnMAP::test__run__backtransformed_l2_spectra_6s 0:00:00.001001

4x3 spectra within 10x10 image. Lines: different forward sim.: #1: UVEG LUT; #2: Luis LUT, #3: MODTRAN.

Skipped: too slow for running in CI

Setup

('/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_isofit_enmap.py', 186, 'Skipped: too slow for running in CI')

Teardown

PASSED Test_ISOFIT_EnMAP::test__run__backtransformed_l2_spectra_lut_mod5 0:01:11.099917

4x3 spectra within 10x10 image. Lines: different forward sim.: #1: UVEG LUT; #2: Luis LUT, #3: MODTRAN.

Setup

Call

Captured stdout call
2026/06/17 17:05:06:   Downloading EnPT-internal resources for ISOFIT...
2026/06/17 17:05:06:   ISOFIT surface spectra zipfile already downloaded. Proceeding.
2026/06/17 17:05:06:   LUT zipfile already downloaded. Proceeding.
2026/06/17 17:05:06:   Downloading ISOFIT extra-files...
Downloading ISOFIT data
Output as: /root/.isofit/data
Path already exists, please remove it or set the overwrite flag if you would like to redownload
Downloading ISOFIT examples
Output as: /root/.isofit/examples
Path already exists, please remove it or set the overwrite flag if you would like to redownload
2026/06/17 17:05:06:   Generating LUT file...
2026/06/17 17:05:18:   Flightline ID: 20220717T110603Z
2026/06/17 17:05:18:   no noise path found, proceeding without
2026/06/17 17:05:18:   Running ISOFIT...
2026/06/17 17:05:18:   Loading config file: /tmp/tmpjgnudhvz/workdir/config/isofit_config.json
2026/06/17 17:05:18:   Checking config sections for configuration issues
2026/06/17 17:05:18:   Configuration file checks complete, no errors found.
2026/06/17 17:05:26:   Building first forward model, will generate any necessary LUTs
2026/06/17 17:05:26:   Loading from wavelength_file: /tmp/tmpjgnudhvz/extracted/backtransformed_l2_spectra_v9/enmap_wavelengths.txt
2026/06/17 17:05:26:   Prebuilt LUT provided
2026/06/17 17:05:33:   Loading LUT into memory
2026/06/17 17:05:33:   LUT grid loaded from file: OrderedDict({'AERFRAC_2': [0.05, 0.12, 0.2, 0.3, 0.4, 0.8], 'H2OSTR': [0.0, 1.0, 1.5, 2.0, 2.7, 3.5, 5.0], 'observer_zenith': [0, 10.0, 20.0, 30.0, 40.0], 'relative_azimuth': [0, 25.0, 50.0, 85.0, 120.0, 155.0, 180.0], 'solar_zenith': [0, 10.0, 20.0, 35.0, 50.0, 70.0], 'surface_elevation_km': [0, 0.7, 2.5, 8.0]})
2026/06/17 17:05:57:   Beginning 100 inversions in 100 chunks using 20 cores
2026/06/17 17:06:13:   Inversions complete.  15.92s total, 6.2814 spectra/s, 0.3141 spectra/s/core
2026/06/17 17:06:14:   ISOFIT finished.
2026/06/17 17:06:14:   Stopping ray.
Captured stderr call
2026/06/17 17:05:18:   
******************************************************************************************
! Number of threads is greater than 1 (currently: 24), this may greatly impact performance
! Please set this the environment variables 'MKL_NUM_THREADS' and 'OMP_NUM_THREADS' to '1'
******************************************************************************************
2026-06-17 17:05:21,827	WARNING services.py:2168 -- WARNING: The object store is using /tmp instead of /dev/shm because /dev/shm has only 66883584 bytes available. This will harm performance! You may be able to free up space by deleting files in /dev/shm. If you are inside a Docker container, you can increase /dev/shm size by passing '--shm-size=10.24gb' to 'docker run' (or add it to the run_options list in a Ray cluster config). Make sure to set this to more than 30% of available RAM.
2026-06-17 17:05:25,209	INFO worker.py:2013 -- Started a local Ray instance.
(raylet) WARNING: All log messages before absl::InitializeLog() is called are written to STDERR
(raylet) I0000 00:00:1781715973.873928    1303 chttp2_transport.cc:1182] ipv4:172.17.0.32:36965: Got goaway [2] err=UNAVAILABLE:GOAWAY received; Error code: 2; Debug Text: Cancelling all calls {grpc_status:14, http2_error:2, created_time:"2026-06-17T17:06:13.873924398+00:00"}
(raylet) I0000 00:00:1781715974.023134    1299 chttp2_transport.cc:1182] ipv4:172.17.0.32:46685: Got goaway [2] err=UNAVAILABLE:GOAWAY received; Error code: 2; Debug Text: Cancelling all calls {grpc_status:14, http2_error:2, created_time:"2026-06-17T17:06:14.023116398+00:00"} [repeated 7x across cluster] (Ray deduplicates logs by default. Set RAY_DEDUP_LOGS=0 to disable log deduplication, or see https://docs.ray.io/en/master/ray-observability/user-guides/configure-logging.html#log-deduplication for more options.)

Teardown

SKIPPED Test_ISOFIT_EnMAP::test_apply_oe__direct_call 0:00:00.000808

Skipped: too slow for running in CI

Setup

('/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_isofit_enmap.py', 120, 'Skipped: too slow for running in CI')

Teardown

SKIPPED Test_ISOFIT_EnMAP::test_apply_oe_on_map_geometry 0:00:00.000669

Skipped: too slow for running in CI

Setup

('/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_isofit_enmap.py', 154, 'Skipped: too slow for running in CI')

Teardown

PASSED Test_ISOFIT_EnMAP::test_download_isofit_resources 0:00:04.317838

Setup

Call

Captured stdout call
2026/06/17 17:06:17:   ISOFIT surface spectra zipfile successfully downloaded.
2026/06/17 17:06:20:   LUT zipfile successfully downloaded.
2026/06/17 17:06:20:   ISOFIT surface spectra zipfile already downloaded. Proceeding.
2026/06/17 17:06:21:   LUT zipfile already downloaded. Proceeding.
Captured log call
INFO     test_downloads:_isofit_downloads.py:83 ISOFIT surface spectra zipfile successfully downloaded.
INFO     test_downloads:_isofit_downloads.py:83 LUT zipfile successfully downloaded.
INFO     test_downloads:_isofit_downloads.py:87 ISOFIT surface spectra zipfile already downloaded. Proceeding.
INFO     test_downloads:_isofit_downloads.py:87 LUT zipfile already downloaded. Proceeding.

Teardown

PASSED Test_ISOFIT_EnMAP::test_generate_input_files 0:00:23.314618

Setup

Call

Captured stdout call
2026/06/17 17:06:21:   Downloading EnPT-internal resources for ISOFIT...
2026/06/17 17:06:21:   ISOFIT surface spectra zipfile already downloaded. Proceeding.
2026/06/17 17:06:21:   LUT zipfile already downloaded. Proceeding.
2026/06/17 17:06:21:   Downloading ISOFIT extra-files...
Downloading ISOFIT data
Output as: /root/.isofit/data
Path already exists, please remove it or set the overwrite flag if you would like to redownload
Downloading ISOFIT examples
Output as: /root/.isofit/examples
Path already exists, please remove it or set the overwrite flag if you would like to redownload
2026/06/17 17:06:21:   Reading Input Data
2026/06/17 17:06:22:   Reading metadata for VNIR detector...
2026/06/17 17:06:22:   Calculating solar irradiance...
2026/06/17 17:06:22:   Reading metadata for SWIR detector...
2026/06/17 17:06:22:   Calculating solar irradiance...
2026/06/17 17:06:22:   Pre-processing user-provided DEM...
2026/06/17 17:06:22:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:06:23:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:06:23:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:06:23:   Computing VNIR geolayer...
2026/06/17 17:06:24:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:06:24:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:06:24:   Computing SWIR geolayer...
2026/06/17 17:06:24:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:06:24:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:06:24:   Starting orthorectification...
2026/06/17 17:06:24:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 32630): (636990.0, 4940640.0, 666180.0, 4949340.0)
2026/06/17 17:06:24:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:06:25:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:06:26:   Merging VNIR and SWIR data...
2026/06/17 17:06:27:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:06:27:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:06:27:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:06:27:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:06:28:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:06:28:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:06:28:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:06:29:   Generating L2A metadata...
2026/06/17 17:06:30:   Pre-processing DEM to match EnMAP grid...
2026/06/17 17:06:30:   Generating radiance file...
Writing GeoArray of size (290, 973, 202) to /tmp/tmpef5iv04m/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z_rdn.
2026/06/17 17:06:31:   Generating location file...
Writing GeoArray of size (290, 973, 3) to /tmp/tmpef5iv04m/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z_loc.
2026/06/17 17:06:31:   Generating observation file...
Writing GeoArray of size (290, 973, 11) to /tmp/tmpef5iv04m/ENMAP01-____L2A-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z_obs.
2026/06/17 17:06:31:   Generating wavelength file...
2026/06/17 17:06:31:   Generating surface file for default set of surface coverage types...
0 ['filtered_other']
0 ['filtered_veg']
0 ['filtered_ocean']
0 ['surface_Liquids']
1 ['surface_Liquids']
2026/06/17 17:06:34:   Generating LUT file...
Captured stderr call
2026/06/17 17:06:21:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.

Teardown

SKIPPED Test_ISOFIT_EnMAP::test_run_on_map_geometry 0:00:00.000506

Skipped: too slow for running in CI

Setup

('/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_isofit_enmap.py', 214, 'Skipped: too slow for running in CI')

Teardown

SKIPPED Test_ISOFIT_EnMAP::test_run_on_map_geometry_no_segmentation 0:00:00.000645

Skipped: too slow for running in CI

Setup

('/builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/test_isofit_enmap.py', 218, 'Skipped: too slow for running in CI')

Teardown

PASSED Test_LUTTransformer::test_modtran_lut_to_netcdf 0:00:10.280735

Setup

Call

Teardown

tests/test_l1b_reader.py 11 0:03:42.878196

PASSED Test_L1B_Reader::test_append_100_lines 0:00:37.121309

Setup

Call

Captured stdout call
2026/06/17 17:06:55:   Reading Input Data
2026/06/17 17:06:55:   Reading metadata for VNIR detector...
2026/06/17 17:06:55:   Reading metadata for SWIR detector...
2026/06/17 17:06:55:   Pre-processing user-provided DEM...
2026/06/17 17:06:55:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:06:56:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:06:56:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:06:56:   Reading metadata for VNIR detector...
2026/06/17 17:06:56:   Reading metadata for SWIR detector...
2026/06/17 17:06:57:   Pre-processing user-provided DEM...
2026/06/17 17:06:57:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:06:57:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:06:57:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:06:58:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:06:58:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:06:58:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:06:58:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:06:58:   Computing VNIR geolayer...
2026/06/17 17:06:58:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:06:58:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:06:58:   Computing SWIR geolayer...
2026/06/17 17:06:59:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:06:59:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:06:59:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpuucu_t7a/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:00:   L1B product successfully written!
2026/06/17 17:07:00:   Reading Input Data
2026/06/17 17:07:00:   Reading metadata for VNIR detector...
2026/06/17 17:07:00:   Reading metadata for SWIR detector...
2026/06/17 17:07:01:   Pre-processing user-provided DEM...
2026/06/17 17:07:01:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:01:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:01:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:02:   Computing VNIR geolayer...
2026/06/17 17:07:02:   Time for VNIR geolayer computation: 0.40 seconds
2026/06/17 17:07:02:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:03:   Computing SWIR geolayer...
2026/06/17 17:07:03:   Time for SWIR geolayer computation: 0.45 seconds
2026/06/17 17:07:03:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:04:   Reading Input Data
2026/06/17 17:07:04:   Reading metadata for VNIR detector...
2026/06/17 17:07:04:   Reading metadata for SWIR detector...
2026/06/17 17:07:05:   Pre-processing user-provided DEM...
2026/06/17 17:07:05:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:05:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:05:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:06:   Reading metadata for VNIR detector...
2026/06/17 17:07:06:   Reading metadata for SWIR detector...
2026/06/17 17:07:07:   Pre-processing user-provided DEM...
2026/06/17 17:07:07:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:07:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:07:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:08:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:08:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:07:08:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:08:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:07:09:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:11:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:12:   Computing VNIR geolayer...
2026/06/17 17:07:12:   Time for VNIR geolayer computation: 0.21 seconds
2026/06/17 17:07:12:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:13:   Computing SWIR geolayer...
2026/06/17 17:07:13:   Time for SWIR geolayer computation: 0.26 seconds
2026/06/17 17:07:13:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:13:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpag7j11bd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:14:   L1B product successfully written!
2026/06/17 17:07:14:   Reading Input Data
2026/06/17 17:07:15:   Reading metadata for VNIR detector...
2026/06/17 17:07:15:   Reading metadata for SWIR detector...
2026/06/17 17:07:15:   Pre-processing user-provided DEM...
2026/06/17 17:07:15:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:15:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:15:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:16:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:17:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:18:   Computing VNIR geolayer...
2026/06/17 17:07:18:   Time for VNIR geolayer computation: 0.25 seconds
2026/06/17 17:07:18:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:19:   Computing SWIR geolayer...
2026/06/17 17:07:19:   Time for SWIR geolayer computation: 0.29 seconds
2026/06/17 17:07:19:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:19:   Reading Input Data
2026/06/17 17:07:19:   Reading metadata for VNIR detector...
2026/06/17 17:07:20:   Reading metadata for SWIR detector...
2026/06/17 17:07:20:   Pre-processing user-provided DEM...
2026/06/17 17:07:20:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:20:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:20:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:21:   Reading metadata for VNIR detector...
2026/06/17 17:07:21:   Reading metadata for SWIR detector...
2026/06/17 17:07:21:   Pre-processing user-provided DEM...
2026/06/17 17:07:21:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:21:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:22:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:22:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:22:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:22:   Computing VNIR geolayer...
2026/06/17 17:07:22:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:22:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:22:   Computing SWIR geolayer...
2026/06/17 17:07:22:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:22:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:22:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp6or7rjtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:23:   L1B product successfully written!
2026/06/17 17:07:23:   Reading Input Data
2026/06/17 17:07:23:   Reading metadata for VNIR detector...
2026/06/17 17:07:23:   Reading metadata for SWIR detector...
2026/06/17 17:07:24:   Pre-processing user-provided DEM...
2026/06/17 17:07:24:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:24:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:24:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:24:   Computing VNIR geolayer...
2026/06/17 17:07:24:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:24:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:24:   Computing SWIR geolayer...
2026/06/17 17:07:24:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:24:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:24:   Reading Input Data
2026/06/17 17:07:25:   Reading metadata for VNIR detector...
2026/06/17 17:07:25:   Reading metadata for SWIR detector...
2026/06/17 17:07:25:   Pre-processing user-provided DEM...
2026/06/17 17:07:25:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:25:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:26:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:26:   Reading metadata for VNIR detector...
2026/06/17 17:07:26:   Reading metadata for SWIR detector...
2026/06/17 17:07:26:   Pre-processing user-provided DEM...
2026/06/17 17:07:26:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:27:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:27:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:27:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:27:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:27:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:28:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:28:   Computing VNIR geolayer...
2026/06/17 17:07:28:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:28:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:28:   Computing SWIR geolayer...
2026/06/17 17:07:28:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:28:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:29:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmprl9fw6gd/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:29:   L1B product successfully written!
2026/06/17 17:07:29:   Reading Input Data
2026/06/17 17:07:29:   Reading metadata for VNIR detector...
2026/06/17 17:07:29:   Reading metadata for SWIR detector...
2026/06/17 17:07:30:   Pre-processing user-provided DEM...
2026/06/17 17:07:30:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:30:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:30:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:30:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:31:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:31:   Computing VNIR geolayer...
2026/06/17 17:07:31:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:31:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:31:   Computing SWIR geolayer...
2026/06/17 17:07:31:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:31:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:06:55:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:06:56:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:00:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:04:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:06:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:14:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:19:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:21:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:22:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:07:22:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:07:23:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:25:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:26:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:27:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:07:27:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:07:29:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_append_10_lines 0:00:29.808889

Setup

Call

Captured stdout call
2026/06/17 17:07:32:   Reading Input Data
2026/06/17 17:07:32:   Reading metadata for VNIR detector...
2026/06/17 17:07:32:   Reading metadata for SWIR detector...
2026/06/17 17:07:32:   Pre-processing user-provided DEM...
2026/06/17 17:07:32:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:33:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:33:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:33:   Reading metadata for VNIR detector...
2026/06/17 17:07:33:   Reading metadata for SWIR detector...
2026/06/17 17:07:34:   Pre-processing user-provided DEM...
2026/06/17 17:07:34:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:34:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:34:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:34:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:34:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:07:35:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:35:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:07:35:   Computing VNIR geolayer...
2026/06/17 17:07:35:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:07:35:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:35:   Computing SWIR geolayer...
2026/06/17 17:07:35:   Time for SWIR geolayer computation: 0.12 seconds
2026/06/17 17:07:35:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:36:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1xee78wv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:36:   L1B product successfully written!
2026/06/17 17:07:36:   Reading Input Data
2026/06/17 17:07:36:   Reading metadata for VNIR detector...
2026/06/17 17:07:36:   Reading metadata for SWIR detector...
2026/06/17 17:07:37:   Pre-processing user-provided DEM...
2026/06/17 17:07:37:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:37:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:37:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:37:   Computing VNIR geolayer...
2026/06/17 17:07:37:   Time for VNIR geolayer computation: 0.17 seconds
2026/06/17 17:07:37:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:38:   Computing SWIR geolayer...
2026/06/17 17:07:38:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:07:38:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:38:   Reading Input Data
2026/06/17 17:07:39:   Reading metadata for VNIR detector...
2026/06/17 17:07:39:   Reading metadata for SWIR detector...
2026/06/17 17:07:39:   Pre-processing user-provided DEM...
2026/06/17 17:07:39:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:39:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:39:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:40:   Reading metadata for VNIR detector...
2026/06/17 17:07:40:   Reading metadata for SWIR detector...
2026/06/17 17:07:40:   Pre-processing user-provided DEM...
2026/06/17 17:07:40:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:41:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:41:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:41:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:41:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:07:41:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:41:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:07:41:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:42:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:43:   Computing VNIR geolayer...
2026/06/17 17:07:43:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:07:43:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:43:   Computing SWIR geolayer...
2026/06/17 17:07:43:   Time for SWIR geolayer computation: 0.12 seconds
2026/06/17 17:07:43:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:44:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpvw9_b8yq/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:44:   L1B product successfully written!
2026/06/17 17:07:44:   Reading Input Data
2026/06/17 17:07:44:   Reading metadata for VNIR detector...
2026/06/17 17:07:45:   Reading metadata for SWIR detector...
2026/06/17 17:07:45:   Pre-processing user-provided DEM...
2026/06/17 17:07:45:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:45:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:45:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:45:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:46:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:47:   Computing VNIR geolayer...
2026/06/17 17:07:47:   Time for VNIR geolayer computation: 0.16 seconds
2026/06/17 17:07:47:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:47:   Computing SWIR geolayer...
2026/06/17 17:07:47:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:07:47:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:48:   Reading Input Data
2026/06/17 17:07:48:   Reading metadata for VNIR detector...
2026/06/17 17:07:48:   Reading metadata for SWIR detector...
2026/06/17 17:07:48:   Pre-processing user-provided DEM...
2026/06/17 17:07:48:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:49:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:49:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:49:   Reading metadata for VNIR detector...
2026/06/17 17:07:49:   Reading metadata for SWIR detector...
2026/06/17 17:07:50:   Pre-processing user-provided DEM...
2026/06/17 17:07:50:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:50:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:50:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:50:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:50:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:50:   Computing VNIR geolayer...
2026/06/17 17:07:50:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:50:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:51:   Computing SWIR geolayer...
2026/06/17 17:07:51:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:51:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:51:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpdh2c138t/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:51:   L1B product successfully written!
2026/06/17 17:07:51:   Reading Input Data
2026/06/17 17:07:51:   Reading metadata for VNIR detector...
2026/06/17 17:07:52:   Reading metadata for SWIR detector...
2026/06/17 17:07:52:   Pre-processing user-provided DEM...
2026/06/17 17:07:52:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:52:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:52:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:52:   Computing VNIR geolayer...
2026/06/17 17:07:52:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:07:52:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:53:   Computing SWIR geolayer...
2026/06/17 17:07:53:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:07:53:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:53:   Reading Input Data
2026/06/17 17:07:53:   Reading metadata for VNIR detector...
2026/06/17 17:07:53:   Reading metadata for SWIR detector...
2026/06/17 17:07:54:   Pre-processing user-provided DEM...
2026/06/17 17:07:54:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:54:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:54:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:55:   Reading metadata for VNIR detector...
2026/06/17 17:07:55:   Reading metadata for SWIR detector...
2026/06/17 17:07:55:   Pre-processing user-provided DEM...
2026/06/17 17:07:55:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:55:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:55:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:56:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:07:56:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:07:56:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:07:56:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:07:57:   Computing VNIR geolayer...
2026/06/17 17:07:57:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:07:57:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:07:57:   Computing SWIR geolayer...
2026/06/17 17:07:57:   Time for SWIR geolayer computation: 0.14 seconds
2026/06/17 17:07:57:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:07:57:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt2ejjtuo/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:07:58:   L1B product successfully written!
2026/06/17 17:07:58:   Reading Input Data
2026/06/17 17:07:58:   Reading metadata for VNIR detector...
2026/06/17 17:07:58:   Reading metadata for SWIR detector...
2026/06/17 17:07:58:   Pre-processing user-provided DEM...
2026/06/17 17:07:59:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:07:59:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:07:59:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:07:59:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:00:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:01:   Computing VNIR geolayer...
2026/06/17 17:08:01:   Time for VNIR geolayer computation: 0.16 seconds
2026/06/17 17:08:01:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:01:   Computing SWIR geolayer...
2026/06/17 17:08:01:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:08:01:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:07:32:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:33:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:34:   A minimum of 50 lines is required, only 10 were selected
2026/06/17 17:07:34:   Set the number of line to 50
2026/06/17 17:07:35:   A minimum of 50 lines is required, only 10 were selected
2026/06/17 17:07:35:   Set the number of line to 50
2026/06/17 17:07:36:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:39:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:40:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:41:   A minimum of 50 lines is required, only 10 were selected
2026/06/17 17:07:41:   Set the number of line to 50
2026/06/17 17:07:41:   A minimum of 50 lines is required, only 10 were selected
2026/06/17 17:07:41:   Set the number of line to 50
2026/06/17 17:07:44:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:48:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:49:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:50:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:07:50:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:07:51:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:53:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:54:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:07:56:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:07:56:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:07:58:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_append_150_lines 0:00:35.973068

Setup

Call

Captured stdout call
2026/06/17 17:08:01:   Reading Input Data
2026/06/17 17:08:02:   Reading metadata for VNIR detector...
2026/06/17 17:08:02:   Reading metadata for SWIR detector...
2026/06/17 17:08:02:   Pre-processing user-provided DEM...
2026/06/17 17:08:03:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:03:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:03:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:04:   Reading metadata for VNIR detector...
2026/06/17 17:08:04:   Reading metadata for SWIR detector...
2026/06/17 17:08:04:   Pre-processing user-provided DEM...
2026/06/17 17:08:05:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:05:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:05:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:05:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:05:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:08:06:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:06:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:08:06:   Computing VNIR geolayer...
2026/06/17 17:08:06:   Time for VNIR geolayer computation: 0.20 seconds
2026/06/17 17:08:06:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:07:   Computing SWIR geolayer...
2026/06/17 17:08:07:   Time for SWIR geolayer computation: 0.25 seconds
2026/06/17 17:08:07:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:07:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp04_hpc0_/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:09:   L1B product successfully written!
2026/06/17 17:08:09:   Reading Input Data
2026/06/17 17:08:09:   Reading metadata for VNIR detector...
2026/06/17 17:08:09:   Reading metadata for SWIR detector...
2026/06/17 17:08:10:   Pre-processing user-provided DEM...
2026/06/17 17:08:10:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:10:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:10:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:11:   Computing VNIR geolayer...
2026/06/17 17:08:11:   Time for VNIR geolayer computation: 0.39 seconds
2026/06/17 17:08:11:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:12:   Computing SWIR geolayer...
2026/06/17 17:08:12:   Time for SWIR geolayer computation: 0.46 seconds
2026/06/17 17:08:12:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:13:   Reading Input Data
2026/06/17 17:08:13:   Reading metadata for VNIR detector...
2026/06/17 17:08:13:   Reading metadata for SWIR detector...
2026/06/17 17:08:13:   Pre-processing user-provided DEM...
2026/06/17 17:08:14:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:14:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:14:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:14:   Reading metadata for VNIR detector...
2026/06/17 17:08:15:   Reading metadata for SWIR detector...
2026/06/17 17:08:15:   Pre-processing user-provided DEM...
2026/06/17 17:08:15:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:15:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:15:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:16:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:16:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:08:16:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:16:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:08:16:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:17:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:18:   Computing VNIR geolayer...
2026/06/17 17:08:18:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:08:18:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:18:   Computing SWIR geolayer...
2026/06/17 17:08:19:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:08:19:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:19:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp1tfydxtj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:20:   L1B product successfully written!
2026/06/17 17:08:20:   Reading Input Data
2026/06/17 17:08:20:   Reading metadata for VNIR detector...
2026/06/17 17:08:20:   Reading metadata for SWIR detector...
2026/06/17 17:08:20:   Pre-processing user-provided DEM...
2026/06/17 17:08:20:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:21:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:21:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:21:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:22:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:23:   Computing VNIR geolayer...
2026/06/17 17:08:23:   Time for VNIR geolayer computation: 0.24 seconds
2026/06/17 17:08:23:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:23:   Computing SWIR geolayer...
2026/06/17 17:08:24:   Time for SWIR geolayer computation: 0.29 seconds
2026/06/17 17:08:24:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:24:   Reading Input Data
2026/06/17 17:08:25:   Reading metadata for VNIR detector...
2026/06/17 17:08:25:   Reading metadata for SWIR detector...
2026/06/17 17:08:25:   Pre-processing user-provided DEM...
2026/06/17 17:08:25:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:25:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:26:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:26:   Reading metadata for VNIR detector...
2026/06/17 17:08:26:   Reading metadata for SWIR detector...
2026/06/17 17:08:27:   Pre-processing user-provided DEM...
2026/06/17 17:08:27:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:27:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:27:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:27:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:27:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:27:   Computing VNIR geolayer...
2026/06/17 17:08:27:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:08:27:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:27:   Computing SWIR geolayer...
2026/06/17 17:08:28:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:28:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:28:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp23z4ljlj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:28:   L1B product successfully written!
2026/06/17 17:08:28:   Reading Input Data
2026/06/17 17:08:28:   Reading metadata for VNIR detector...
2026/06/17 17:08:29:   Reading metadata for SWIR detector...
2026/06/17 17:08:29:   Pre-processing user-provided DEM...
2026/06/17 17:08:29:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:29:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:29:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:29:   Computing VNIR geolayer...
2026/06/17 17:08:29:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:08:29:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:30:   Computing SWIR geolayer...
2026/06/17 17:08:30:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:30:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:30:   Reading Input Data
2026/06/17 17:08:30:   Reading metadata for VNIR detector...
2026/06/17 17:08:30:   Reading metadata for SWIR detector...
2026/06/17 17:08:31:   Pre-processing user-provided DEM...
2026/06/17 17:08:31:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:31:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:31:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:32:   Reading metadata for VNIR detector...
2026/06/17 17:08:32:   Reading metadata for SWIR detector...
2026/06/17 17:08:32:   Pre-processing user-provided DEM...
2026/06/17 17:08:32:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:32:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:32:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:33:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:33:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:33:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:33:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:34:   Computing VNIR geolayer...
2026/06/17 17:08:34:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:08:34:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:34:   Computing SWIR geolayer...
2026/06/17 17:08:34:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:34:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:34:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpsx_r5nfy/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:35:   L1B product successfully written!
2026/06/17 17:08:35:   Reading Input Data
2026/06/17 17:08:35:   Reading metadata for VNIR detector...
2026/06/17 17:08:35:   Reading metadata for SWIR detector...
2026/06/17 17:08:36:   Pre-processing user-provided DEM...
2026/06/17 17:08:36:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:36:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:36:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:36:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:37:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:37:   Computing VNIR geolayer...
2026/06/17 17:08:37:   Time for VNIR geolayer computation: 0.08 seconds
2026/06/17 17:08:37:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:37:   Computing SWIR geolayer...
2026/06/17 17:08:37:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:37:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:08:02:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:04:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:05:   n_lines (150) exceeds the total number of line of second image
2026/06/17 17:08:05:   Set to the image number of line
2026/06/17 17:08:06:   n_lines (150) exceeds the total number of line of second image
2026/06/17 17:08:06:   Set to the image number of line
2026/06/17 17:08:09:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:13:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:14:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:16:   n_lines (150) exceeds the total number of line of second image
2026/06/17 17:08:16:   Set to the image number of line
2026/06/17 17:08:16:   n_lines (150) exceeds the total number of line of second image
2026/06/17 17:08:16:   Set to the image number of line
2026/06/17 17:08:20:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:25:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:26:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:27:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:08:27:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:08:28:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:30:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:31:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:33:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:08:33:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:08:35:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_append_50_lines 0:00:33.156726

Setup

Call

Captured stdout call
2026/06/17 17:08:37:   Reading Input Data
2026/06/17 17:08:38:   Reading metadata for VNIR detector...
2026/06/17 17:08:38:   Reading metadata for SWIR detector...
2026/06/17 17:08:38:   Pre-processing user-provided DEM...
2026/06/17 17:08:38:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:38:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:39:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:39:   Reading metadata for VNIR detector...
2026/06/17 17:08:39:   Reading metadata for SWIR detector...
2026/06/17 17:08:39:   Pre-processing user-provided DEM...
2026/06/17 17:08:40:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:40:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:40:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:40:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:40:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:08:40:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:40:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:08:40:   Computing VNIR geolayer...
2026/06/17 17:08:41:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:08:41:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:41:   Computing SWIR geolayer...
2026/06/17 17:08:41:   Time for SWIR geolayer computation: 0.12 seconds
2026/06/17 17:08:41:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:41:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp9z_rn9ji/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:42:   L1B product successfully written!
2026/06/17 17:08:42:   Reading Input Data
2026/06/17 17:08:42:   Reading metadata for VNIR detector...
2026/06/17 17:08:42:   Reading metadata for SWIR detector...
2026/06/17 17:08:42:   Pre-processing user-provided DEM...
2026/06/17 17:08:43:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:43:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:43:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:43:   Computing VNIR geolayer...
2026/06/17 17:08:43:   Time for VNIR geolayer computation: 0.17 seconds
2026/06/17 17:08:43:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:44:   Computing SWIR geolayer...
2026/06/17 17:08:44:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:08:44:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:44:   Reading Input Data
2026/06/17 17:08:44:   Reading metadata for VNIR detector...
2026/06/17 17:08:44:   Reading metadata for SWIR detector...
2026/06/17 17:08:45:   Pre-processing user-provided DEM...
2026/06/17 17:08:45:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:45:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:45:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:46:   Reading metadata for VNIR detector...
2026/06/17 17:08:46:   Reading metadata for SWIR detector...
2026/06/17 17:08:46:   Pre-processing user-provided DEM...
2026/06/17 17:08:46:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:46:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:46:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:47:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:47:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:08:47:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:47:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:08:47:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:48:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:48:   Computing VNIR geolayer...
2026/06/17 17:08:48:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:08:48:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:49:   Computing SWIR geolayer...
2026/06/17 17:08:49:   Time for SWIR geolayer computation: 0.12 seconds
2026/06/17 17:08:49:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:49:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (150, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (150, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (150, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (150, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt6cip15l/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:50:   L1B product successfully written!
2026/06/17 17:08:50:   Reading Input Data
2026/06/17 17:08:50:   Reading metadata for VNIR detector...
2026/06/17 17:08:50:   Reading metadata for SWIR detector...
2026/06/17 17:08:51:   Pre-processing user-provided DEM...
2026/06/17 17:08:51:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:51:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:51:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:51:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:08:52:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:08:52:   Computing VNIR geolayer...
2026/06/17 17:08:53:   Time for VNIR geolayer computation: 0.16 seconds
2026/06/17 17:08:53:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:53:   Computing SWIR geolayer...
2026/06/17 17:08:53:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:08:53:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:53:   Reading Input Data
2026/06/17 17:08:54:   Reading metadata for VNIR detector...
2026/06/17 17:08:54:   Reading metadata for SWIR detector...
2026/06/17 17:08:54:   Pre-processing user-provided DEM...
2026/06/17 17:08:54:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:55:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:55:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:55:   Reading metadata for VNIR detector...
2026/06/17 17:08:55:   Reading metadata for SWIR detector...
2026/06/17 17:08:56:   Pre-processing user-provided DEM...
2026/06/17 17:08:56:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:56:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:56:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:56:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:08:56:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:08:56:   Computing VNIR geolayer...
2026/06/17 17:08:56:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:08:56:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:57:   Computing SWIR geolayer...
2026/06/17 17:08:57:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:57:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:57:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8ivxtau5/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:08:57:   L1B product successfully written!
2026/06/17 17:08:57:   Reading Input Data
2026/06/17 17:08:57:   Reading metadata for VNIR detector...
2026/06/17 17:08:58:   Reading metadata for SWIR detector...
2026/06/17 17:08:58:   Pre-processing user-provided DEM...
2026/06/17 17:08:58:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:08:58:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:08:58:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:08:58:   Computing VNIR geolayer...
2026/06/17 17:08:58:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:08:58:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:08:59:   Computing SWIR geolayer...
2026/06/17 17:08:59:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:08:59:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:08:59:   Reading Input Data
2026/06/17 17:08:59:   Reading metadata for VNIR detector...
2026/06/17 17:09:00:   Reading metadata for SWIR detector...
2026/06/17 17:09:00:   Pre-processing user-provided DEM...
2026/06/17 17:09:00:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:01:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:01:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:02:   Reading metadata for VNIR detector...
2026/06/17 17:09:02:   Reading metadata for SWIR detector...
2026/06/17 17:09:02:   Pre-processing user-provided DEM...
2026/06/17 17:09:02:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:02:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:03:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:03:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:03:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:03:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:04:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:05:   Computing VNIR geolayer...
2026/06/17 17:09:05:   Time for VNIR geolayer computation: 0.15 seconds
2026/06/17 17:09:05:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:05:   Computing SWIR geolayer...
2026/06/17 17:09:06:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:09:06:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:06:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpulk8i2mv/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:06:   L1B product successfully written!
2026/06/17 17:09:06:   Reading Input Data
2026/06/17 17:09:07:   Reading metadata for VNIR detector...
2026/06/17 17:09:07:   Reading metadata for SWIR detector...
2026/06/17 17:09:07:   Pre-processing user-provided DEM...
2026/06/17 17:09:08:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:08:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:08:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:08:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:09:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:10:   Computing VNIR geolayer...
2026/06/17 17:09:10:   Time for VNIR geolayer computation: 0.15 seconds
2026/06/17 17:09:10:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:10:   Computing SWIR geolayer...
2026/06/17 17:09:10:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:09:10:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:08:38:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:39:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:42:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:44:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:45:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:50:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:54:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:55:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:56:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:08:56:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:08:57:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:08:59:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:01:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:03:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:09:03:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:09:07:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_append_80_lines 0:00:31.021486

Setup

Call

Captured stdout call
2026/06/17 17:09:11:   Reading Input Data
2026/06/17 17:09:11:   Reading metadata for VNIR detector...
2026/06/17 17:09:11:   Reading metadata for SWIR detector...
2026/06/17 17:09:12:   Pre-processing user-provided DEM...
2026/06/17 17:09:12:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:12:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:12:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:13:   Reading metadata for VNIR detector...
2026/06/17 17:09:13:   Reading metadata for SWIR detector...
2026/06/17 17:09:13:   Pre-processing user-provided DEM...
2026/06/17 17:09:13:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:14:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:14:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:14:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:14:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:09:14:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:14:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:09:14:   Computing VNIR geolayer...
2026/06/17 17:09:15:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:09:15:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:15:   Computing SWIR geolayer...
2026/06/17 17:09:15:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:15:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:15:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (180, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (180, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (180, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (180, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (180, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (180, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpaxpp4d5g/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:16:   L1B product successfully written!
2026/06/17 17:09:16:   Reading Input Data
2026/06/17 17:09:16:   Reading metadata for VNIR detector...
2026/06/17 17:09:16:   Reading metadata for SWIR detector...
2026/06/17 17:09:17:   Pre-processing user-provided DEM...
2026/06/17 17:09:17:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:17:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:17:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:17:   Computing VNIR geolayer...
2026/06/17 17:09:18:   Time for VNIR geolayer computation: 0.22 seconds
2026/06/17 17:09:18:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:18:   Computing SWIR geolayer...
2026/06/17 17:09:18:   Time for SWIR geolayer computation: 0.26 seconds
2026/06/17 17:09:18:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:19:   Reading Input Data
2026/06/17 17:09:19:   Reading metadata for VNIR detector...
2026/06/17 17:09:19:   Reading metadata for SWIR detector...
2026/06/17 17:09:19:   Pre-processing user-provided DEM...
2026/06/17 17:09:19:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:19:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:20:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:20:   Reading metadata for VNIR detector...
2026/06/17 17:09:20:   Reading metadata for SWIR detector...
2026/06/17 17:09:21:   Pre-processing user-provided DEM...
2026/06/17 17:09:21:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:21:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:21:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:21:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:21:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:09:22:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:22:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:09:22:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:23:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:23:   Computing VNIR geolayer...
2026/06/17 17:09:23:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:09:23:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:24:   Computing SWIR geolayer...
2026/06/17 17:09:24:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:24:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:24:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (180, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (180, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (180, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (180, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (180, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (180, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (180, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjycd8jx3/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:25:   L1B product successfully written!
2026/06/17 17:09:25:   Reading Input Data
2026/06/17 17:09:25:   Reading metadata for VNIR detector...
2026/06/17 17:09:25:   Reading metadata for SWIR detector...
2026/06/17 17:09:26:   Pre-processing user-provided DEM...
2026/06/17 17:09:26:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:26:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:26:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:26:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:27:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:28:   Computing VNIR geolayer...
2026/06/17 17:09:28:   Time for VNIR geolayer computation: 0.20 seconds
2026/06/17 17:09:28:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:28:   Computing SWIR geolayer...
2026/06/17 17:09:29:   Time for SWIR geolayer computation: 0.25 seconds
2026/06/17 17:09:29:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:29:   Reading Input Data
2026/06/17 17:09:29:   Reading metadata for VNIR detector...
2026/06/17 17:09:30:   Reading metadata for SWIR detector...
2026/06/17 17:09:30:   Pre-processing user-provided DEM...
2026/06/17 17:09:30:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:30:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:30:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:31:   Reading metadata for VNIR detector...
2026/06/17 17:09:31:   Reading metadata for SWIR detector...
2026/06/17 17:09:31:   Pre-processing user-provided DEM...
2026/06/17 17:09:31:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:31:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:31:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:32:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:32:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:32:   Computing VNIR geolayer...
2026/06/17 17:09:32:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:09:32:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:32:   Computing SWIR geolayer...
2026/06/17 17:09:32:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:32:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:32:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpjii08rfl/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:33:   L1B product successfully written!
2026/06/17 17:09:33:   Reading Input Data
2026/06/17 17:09:33:   Reading metadata for VNIR detector...
2026/06/17 17:09:33:   Reading metadata for SWIR detector...
2026/06/17 17:09:33:   Pre-processing user-provided DEM...
2026/06/17 17:09:33:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:34:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:34:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:34:   Computing VNIR geolayer...
2026/06/17 17:09:34:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:09:34:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:34:   Computing SWIR geolayer...
2026/06/17 17:09:34:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:34:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:34:   Reading Input Data
2026/06/17 17:09:35:   Reading metadata for VNIR detector...
2026/06/17 17:09:35:   Reading metadata for SWIR detector...
2026/06/17 17:09:35:   Pre-processing user-provided DEM...
2026/06/17 17:09:35:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:35:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:36:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:36:   Reading metadata for VNIR detector...
2026/06/17 17:09:36:   Reading metadata for SWIR detector...
2026/06/17 17:09:36:   Pre-processing user-provided DEM...
2026/06/17 17:09:37:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:37:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:37:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:37:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:37:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:37:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:38:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:38:   Computing VNIR geolayer...
2026/06/17 17:09:38:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:09:38:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:38:   Computing SWIR geolayer...
2026/06/17 17:09:38:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:38:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:39:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpx7ncyupr/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:39:   L1B product successfully written!
2026/06/17 17:09:39:   Reading Input Data
2026/06/17 17:09:39:   Reading metadata for VNIR detector...
2026/06/17 17:09:39:   Reading metadata for SWIR detector...
2026/06/17 17:09:40:   Pre-processing user-provided DEM...
2026/06/17 17:09:40:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:40:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:40:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:40:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:41:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:41:   Computing VNIR geolayer...
2026/06/17 17:09:41:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:09:41:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:41:   Computing SWIR geolayer...
2026/06/17 17:09:41:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:09:41:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:09:11:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:13:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:16:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:19:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:20:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:25:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:29:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:31:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:32:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:09:32:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:09:33:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:35:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:36:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:37:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:09:37:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:09:39:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_append_all_lines 0:00:36.201183

Setup

Call

Captured stdout call
2026/06/17 17:09:42:   Reading Input Data
2026/06/17 17:09:42:   Reading metadata for VNIR detector...
2026/06/17 17:09:42:   Reading metadata for SWIR detector...
2026/06/17 17:09:42:   Pre-processing user-provided DEM...
2026/06/17 17:09:42:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:42:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:43:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:43:   Reading metadata for VNIR detector...
2026/06/17 17:09:43:   Reading metadata for SWIR detector...
2026/06/17 17:09:44:   Pre-processing user-provided DEM...
2026/06/17 17:09:44:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:44:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:44:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:44:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:44:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:09:44:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:44:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:09:45:   Computing VNIR geolayer...
2026/06/17 17:09:45:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:09:45:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:45:   Computing SWIR geolayer...
2026/06/17 17:09:45:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:09:45:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:46:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpixtigd2o/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:46:   L1B product successfully written!
2026/06/17 17:09:46:   Reading Input Data
2026/06/17 17:09:46:   Reading metadata for VNIR detector...
2026/06/17 17:09:47:   Reading metadata for SWIR detector...
2026/06/17 17:09:47:   Pre-processing user-provided DEM...
2026/06/17 17:09:47:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:47:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:47:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:48:   Computing VNIR geolayer...
2026/06/17 17:09:48:   Time for VNIR geolayer computation: 0.25 seconds
2026/06/17 17:09:48:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:48:   Computing SWIR geolayer...
2026/06/17 17:09:49:   Time for SWIR geolayer computation: 0.29 seconds
2026/06/17 17:09:49:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:49:   Reading Input Data
2026/06/17 17:09:49:   Reading metadata for VNIR detector...
2026/06/17 17:09:49:   Reading metadata for SWIR detector...
2026/06/17 17:09:50:   Pre-processing user-provided DEM...
2026/06/17 17:09:50:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:50:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:50:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:50:   Reading metadata for VNIR detector...
2026/06/17 17:09:51:   Reading metadata for SWIR detector...
2026/06/17 17:09:51:   Pre-processing user-provided DEM...
2026/06/17 17:09:51:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:51:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:51:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:52:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:09:52:   Append new image to VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR
2026/06/17 17:09:52:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:09:52:   Append new image to SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR
2026/06/17 17:09:52:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:53:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:54:   Computing VNIR geolayer...
2026/06/17 17:09:54:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:09:54:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:09:54:   Computing SWIR geolayer...
2026/06/17 17:09:55:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:09:55:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:09:55:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (200, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (200, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (200, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (200, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpt80iwmrj/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:09:56:   L1B product successfully written!
2026/06/17 17:09:56:   Reading Input Data
2026/06/17 17:09:56:   Reading metadata for VNIR detector...
2026/06/17 17:09:56:   Reading metadata for SWIR detector...
2026/06/17 17:09:56:   Pre-processing user-provided DEM...
2026/06/17 17:09:56:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:09:56:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:09:57:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:09:57:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:09:58:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:09:59:   Computing VNIR geolayer...
2026/06/17 17:09:59:   Time for VNIR geolayer computation: 0.25 seconds
2026/06/17 17:09:59:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:00:   Computing SWIR geolayer...
2026/06/17 17:10:00:   Time for SWIR geolayer computation: 0.52 seconds
2026/06/17 17:10:00:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:01:   Reading Input Data
2026/06/17 17:10:01:   Reading metadata for VNIR detector...
2026/06/17 17:10:01:   Reading metadata for SWIR detector...
2026/06/17 17:10:02:   Pre-processing user-provided DEM...
2026/06/17 17:10:02:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:02:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:02:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:03:   Reading metadata for VNIR detector...
2026/06/17 17:10:03:   Reading metadata for SWIR detector...
2026/06/17 17:10:04:   Pre-processing user-provided DEM...
2026/06/17 17:10:04:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:04:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:04:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:05:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:10:05:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:10:05:   Computing VNIR geolayer...
2026/06/17 17:10:05:   Time for VNIR geolayer computation: 0.16 seconds
2026/06/17 17:10:05:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:05:   Computing SWIR geolayer...
2026/06/17 17:10:05:   Time for SWIR geolayer computation: 0.22 seconds
2026/06/17 17:10:05:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:06:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpm0v1cozb/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:10:06:   L1B product successfully written!
2026/06/17 17:10:06:   Reading Input Data
2026/06/17 17:10:07:   Reading metadata for VNIR detector...
2026/06/17 17:10:07:   Reading metadata for SWIR detector...
2026/06/17 17:10:07:   Pre-processing user-provided DEM...
2026/06/17 17:10:07:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:07:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:08:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:08:   Computing VNIR geolayer...
2026/06/17 17:10:08:   Time for VNIR geolayer computation: 0.15 seconds
2026/06/17 17:10:08:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:08:   Computing SWIR geolayer...
2026/06/17 17:10:08:   Time for SWIR geolayer computation: 0.20 seconds
2026/06/17 17:10:08:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:09:   Reading Input Data
2026/06/17 17:10:09:   Reading metadata for VNIR detector...
2026/06/17 17:10:09:   Reading metadata for SWIR detector...
2026/06/17 17:10:10:   Pre-processing user-provided DEM...
2026/06/17 17:10:10:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:10:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:10:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:11:   Reading metadata for VNIR detector...
2026/06/17 17:10:11:   Reading metadata for SWIR detector...
2026/06/17 17:10:12:   Pre-processing user-provided DEM...
2026/06/17 17:10:12:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:12:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:12:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:13:   Check new image for VNIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR 
2026/06/17 17:10:13:   Check new image for SWIR: ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR 
2026/06/17 17:10:13:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:10:14:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:10:14:   Computing VNIR geolayer...
2026/06/17 17:10:14:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:10:14:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:14:   Computing SWIR geolayer...
2026/06/17 17:10:14:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:10:14:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:15:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmp8n0463f9/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:10:15:   L1B product successfully written!
2026/06/17 17:10:15:   Reading Input Data
2026/06/17 17:10:15:   Reading metadata for VNIR detector...
2026/06/17 17:10:15:   Reading metadata for SWIR detector...
2026/06/17 17:10:16:   Pre-processing user-provided DEM...
2026/06/17 17:10:16:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:16:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:16:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:16:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:10:17:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:10:17:   Computing VNIR geolayer...
2026/06/17 17:10:17:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:10:17:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:17:   Computing SWIR geolayer...
2026/06/17 17:10:18:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:10:18:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:09:42:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:43:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:46:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:49:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:50:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:09:56:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:01:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:03:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:05:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:10:05:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:10:06:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:09:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:11:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:13:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::VNIR don't fit to be appended.
2026/06/17 17:10:13:   ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR and ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z::SWIR don't fit to be appended.
2026/06/17 17:10:15:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_read_and_save_single_image_no_snr 0:00:04.343665

Test to read test image 1, save it and read the saved result again - without SNR.

Setup

Call

Captured stdout call
2026/06/17 17:10:18:   Reading Input Data
2026/06/17 17:10:18:   Reading metadata for VNIR detector...
2026/06/17 17:10:18:   Reading metadata for SWIR detector...
2026/06/17 17:10:19:   Pre-processing user-provided DEM...
2026/06/17 17:10:19:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:19:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:19:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:19:   Computing VNIR geolayer...
2026/06/17 17:10:19:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:10:19:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:20:   Computing SWIR geolayer...
2026/06/17 17:10:20:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:10:20:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:20:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpwkz3i564/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:10:20:   L1B product successfully written!
2026/06/17 17:10:20:   Reading Input Data
2026/06/17 17:10:20:   Reading metadata for VNIR detector...
2026/06/17 17:10:21:   Reading metadata for SWIR detector...
2026/06/17 17:10:21:   Pre-processing user-provided DEM...
2026/06/17 17:10:21:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:21:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:21:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:21:   Computing VNIR geolayer...
2026/06/17 17:10:21:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:21:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:22:   Computing SWIR geolayer...
2026/06/17 17:10:22:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:22:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:10:18:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:20:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_read_and_save_single_image_with_snr 0:00:05.873332

Test to read test image 1, save it and read the saved result again - with SNR.

Setup

Call

Captured stdout call
2026/06/17 17:10:22:   Reading Input Data
2026/06/17 17:10:22:   Reading metadata for VNIR detector...
2026/06/17 17:10:23:   Reading metadata for SWIR detector...
2026/06/17 17:10:23:   Pre-processing user-provided DEM...
2026/06/17 17:10:23:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:23:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:23:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:23:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:10:24:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:10:24:   Computing VNIR geolayer...
2026/06/17 17:10:24:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:24:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:25:   Computing SWIR geolayer...
2026/06/17 17:10:25:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:25:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:25:   Write product to: /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLASSES.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUD.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CLOUDSHADOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_HAZE.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_SNOW.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_CIRRUS.TIF.
Writing GeoArray of size (100, 1000, 88) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_VNIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_VNIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_VNIR.png.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-SPECTRAL_IMAGE_SWIR.TIF.
Writing GeoArray of size (100, 1000, 130) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_PIXELMASK_SWIR.TIF.
Writing GeoArray of size (100, 1000) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_QUALITY_TESTFLAGS_SWIR.TIF.
Writing GeoArray of size (100, 1000, 3) to /builds/EnMAP/GFZ_Tools_EnMAP_BOX/EnPT/tests/data/test_outputs/test_reader/tmpf_1qbp_i/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z/ENMAP01-____L1B-DT000400126_20170218T110115Z_002_V000204_20200206T182719Z-QL_SWIR.png.
2026/06/17 17:10:25:   L1B product successfully written!
2026/06/17 17:10:25:   Reading Input Data
2026/06/17 17:10:26:   Reading metadata for VNIR detector...
2026/06/17 17:10:26:   Reading metadata for SWIR detector...
2026/06/17 17:10:26:   Pre-processing user-provided DEM...
2026/06/17 17:10:26:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:26:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:26:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:26:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:10:27:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:10:27:   Computing VNIR geolayer...
2026/06/17 17:10:28:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:28:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:28:   Computing SWIR geolayer...
2026/06/17 17:10:28:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:28:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:10:22:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:25:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_read_inputdata__download_dem__tgt_lonlat 0:00:03.537674

Setup

Call

Captured stdout call
2026/06/17 17:10:28:   Reading Input Data
2026/06/17 17:10:28:   Reading metadata for VNIR detector...
2026/06/17 17:10:28:   Reading metadata for SWIR detector...
2026/06/17 17:10:29:   Automatic download of Copernicus GLO-30 DEM (target EPSG: 4326)...
2026/06/17 17:10:29:   2 DEM tiles potentially required...
2026/06/17 17:10:30:   Subsetting DEM (native Copernicus grid retained)...
2026/06/17 17:10:30:   DEM download complete. Shape: (453, 1458)
2026/06/17 17:10:30:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:31:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:31:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:31:   Computing VNIR geolayer...
2026/06/17 17:10:31:   Time for VNIR geolayer computation: 0.10 seconds
2026/06/17 17:10:31:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:31:   Computing SWIR geolayer...
2026/06/17 17:10:31:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:31:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:10:28:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_read_inputdata__download_dem__tgt_utm 0:00:03.449637

Setup

Call

Captured stdout call
2026/06/17 17:10:32:   Reading Input Data
2026/06/17 17:10:32:   Reading metadata for VNIR detector...
2026/06/17 17:10:32:   Reading metadata for SWIR detector...
2026/06/17 17:10:32:   Automatic download of Copernicus GLO-30 DEM (target EPSG: 4326)...
2026/06/17 17:10:32:   2 DEM tiles potentially required...
2026/06/17 17:10:33:   Subsetting DEM (native Copernicus grid retained)...
2026/06/17 17:10:34:   DEM download complete. Shape: (453, 1458)
2026/06/17 17:10:34:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:34:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:34:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:34:   Computing VNIR geolayer...
2026/06/17 17:10:35:   Time for VNIR geolayer computation: 0.12 seconds
2026/06/17 17:10:35:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:35:   Computing SWIR geolayer...
2026/06/17 17:10:35:   Time for SWIR geolayer computation: 0.17 seconds
2026/06/17 17:10:35:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:10:32:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_L1B_Reader::test_read_inputdata_dont_drop_bad_bands 0:00:02.391227

Setup

Call

Captured stdout call
2026/06/17 17:10:35:   Reading Input Data
2026/06/17 17:10:35:   Reading metadata for VNIR detector...
2026/06/17 17:10:36:   Reading metadata for SWIR detector...
2026/06/17 17:10:36:   Pre-processing user-provided DEM...
2026/06/17 17:10:36:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:36:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:36:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:37:   Computing VNIR geolayer...
2026/06/17 17:10:37:   Time for VNIR geolayer computation: 0.11 seconds
2026/06/17 17:10:37:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:37:   Computing SWIR geolayer...
2026/06/17 17:10:37:   Time for SWIR geolayer computation: 0.15 seconds
2026/06/17 17:10:37:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:10:35:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

tests/test_orthorectification.py 8 0:00:14.300313

PASSED Test_Orthorectifier::test_run_transformation_ll 0:00:07.075855

Setup

Call

Captured stdout call
2026/06/17 17:10:38:   Reading Input Data
2026/06/17 17:10:38:   Reading metadata for VNIR detector...
2026/06/17 17:10:38:   Calculating solar irradiance...
2026/06/17 17:10:38:   Reading metadata for SWIR detector...
2026/06/17 17:10:38:   Calculating solar irradiance...
2026/06/17 17:10:38:   Pre-processing user-provided DEM...
2026/06/17 17:10:38:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:39:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:39:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:39:   Computing VNIR geolayer...
2026/06/17 17:10:39:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:39:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:39:   Computing SWIR geolayer...
2026/06/17 17:10:39:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:39:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:39:   Starting orthorectification...
2026/06/17 17:10:39:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 4326): (-1.2717290915354968, 44.60009471477741, -0.9054060033197534, 44.68406888113938)
2026/06/17 17:10:39:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:10:40:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:10:42:   Merging VNIR and SWIR data...
2026/06/17 17:10:42:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:10:42:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:10:42:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:10:42:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:10:43:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:10:43:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:10:43:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:10:44:   Generating L2A metadata...
2026/06/17 17:10:44:   Pre-processing DEM to match EnMAP grid...
Captured stderr call
2026/06/17 17:10:38:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_Orthorectifier::test_run_transformation_utm 0:00:07.209775

Setup

Call

Captured stdout call
2026/06/17 17:10:45:   Reading Input Data
2026/06/17 17:10:45:   Reading metadata for VNIR detector...
2026/06/17 17:10:45:   Calculating solar irradiance...
2026/06/17 17:10:45:   Reading metadata for SWIR detector...
2026/06/17 17:10:45:   Calculating solar irradiance...
2026/06/17 17:10:45:   Pre-processing user-provided DEM...
2026/06/17 17:10:45:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:46:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:46:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:46:   Computing VNIR geolayer...
2026/06/17 17:10:46:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:46:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:46:   Computing SWIR geolayer...
2026/06/17 17:10:46:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:46:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:46:   Starting orthorectification...
2026/06/17 17:10:46:   Computed common target extent of orthorectified image (xmin, ymin, xmax, ymax in EPSG 32630): (636990.0, 4940640.0, 666180.0, 4949340.0)
2026/06/17 17:10:46:   Orthorectifying VNIR data using 'bilinear' resampling algorithm...
2026/06/17 17:10:47:   Orthorectifying SWIR data using 'bilinear' resampling algorithm...
2026/06/17 17:10:49:   Merging VNIR and SWIR data...
2026/06/17 17:10:49:   Orthorectifying 'mask_landwater' attribute...
2026/06/17 17:10:49:   Orthorectifying 'mask_clouds' attribute...
2026/06/17 17:10:49:   Orthorectifying 'mask_cloudshadow' attribute...
2026/06/17 17:10:49:   Orthorectifying 'mask_haze' attribute...
2026/06/17 17:10:50:   Orthorectifying 'mask_snow' attribute...
2026/06/17 17:10:50:   Orthorectifying 'mask_cirrus' attribute...
2026/06/17 17:10:50:   Setting all pixels to nodata that have values in the VNIR or the SWIR only...
2026/06/17 17:10:51:   Generating L2A metadata...
2026/06/17 17:10:52:   Pre-processing DEM to match EnMAP grid...
Captured stderr call
2026/06/17 17:10:45:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_compute_stack 0:00:00.002237

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_get_stack_average 0:00:00.002896

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_get_stack_order_by_wvl 0:00:00.002155

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_get_stack_swir_only 0:00:00.001874

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_get_stack_vnir_only 0:00:00.001883

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_Stacker::test_validate_input 0:00:00.003637

Setup

Call

Teardown

tests/test_radiometric_transform.py 1 0:00:03.194892

PASSED Test_Radiometric_Transformer::test_transform_TOARad2TOARef 0:00:03.194892

Setup

Call

Captured stdout call
Tmp dir: /tmp/tmp1lv2jfpv
2026/06/17 17:10:52:   Reading Input Data
2026/06/17 17:10:52:   Reading metadata for VNIR detector...
2026/06/17 17:10:52:   Calculating solar irradiance...
2026/06/17 17:10:52:   Reading metadata for SWIR detector...
2026/06/17 17:10:52:   Calculating solar irradiance...
2026/06/17 17:10:53:   Pre-processing user-provided DEM...
2026/06/17 17:10:53:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:53:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:53:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:53:   Computing SNR from VNIR TOA radiance.
2026/06/17 17:10:54:   Computing SNR from SWIR TOA radiance.
2026/06/17 17:10:54:   Computing VNIR geolayer...
2026/06/17 17:10:54:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:54:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:54:   Computing SWIR geolayer...
2026/06/17 17:10:55:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:10:55:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:55:   Converting TOA radiance to TOA reflectance for VNIR detector...
2026/06/17 17:10:55:   Converting TOA radiance to TOA reflectance for SWIR detector...
Captured stderr call
2026/06/17 17:10:52:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

tests/test_spatial_optimization.py 1 0:00:12.610809

PASSED Test_Spatial_Optimizer::test_optimize_geolayer 0:00:12.610809

Setup

Call

Captured stdout call
2026/06/17 17:10:55:   Reading Input Data
2026/06/17 17:10:55:   Reading metadata for VNIR detector...
2026/06/17 17:10:55:   Calculating solar irradiance...
2026/06/17 17:10:55:   Reading metadata for SWIR detector...
2026/06/17 17:10:56:   Calculating solar irradiance...
2026/06/17 17:10:56:   Pre-processing user-provided DEM...
2026/06/17 17:10:56:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:10:56:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:10:56:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:10:56:   Computing VNIR geolayer...
2026/06/17 17:10:56:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:10:56:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:10:57:   Computing SWIR geolayer...
2026/06/17 17:10:57:   Time for SWIR geolayer computation: 0.16 seconds
2026/06/17 17:10:57:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
2026/06/17 17:10:57:   Temporarily transforming EnMAP band 40 to map geometry for co-registration.
2026/06/17 17:10:57:   Temporarily transforming EnMAP water mask to map geometry for co-registration.
2026/06/17 17:10:58:   Preparing reference image for co-registration.
2026/06/17 17:10:58:   Computing tie points between the EnMAP image and the given spatial reference image.
Calculating footprint polygon and actual data corner coordinates for reference image...
Bounding box of calculated footprint for reference image:
	(637005.0, 4940640.0, 666300.0, 4949895.0)
Bounding box of calculated footprint for image to be shifted:
	(637009.9236523756, 4940648.633479693, 666298.6703669054, 4949893.375184522)
Matching window position (X,Y): 651655.4222751356/4945271.096554121
Target window size (256, 256) not possible due to too small overlap area or window position too close to an image edge. New matching window size: (164, 164).
Initializing tie points grid...
With respect to the provided bad data mask(s) 81 points of initially 242 have been excluded.
Calculating tie point grid (161 points) using 24 CPU cores...
Found 131 matches.
Performing validity checks...
41 tie points flagged by level 1 filtering (reliability).
11 tie points flagged by level 2 filtering (SSIM).
9 tie points flagged by level 3 filtering (RANSAC)
81 valid tie points remain after filtering.
2026/06/17 17:11:06:   Generating misregistration array.
interpolation runtime: 0.31s
interpolation runtime: 0.36s
2026/06/17 17:11:07:   Transforming spatial optimization results back to sensor geometry.
2026/06/17 17:11:07:   Applying results of spatial optimization to geolayer.
Captured stderr call
2026/06/17 17:10:55:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
2026/06/17 17:10:57:   Statically using band 40 for co-registration.

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Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

tests/test_spatial_transform.py 17 0:00:50.456694

PASSED Test_Geometry_Transformer::test_to_map_geometry 0:00:04.158633

Setup

Call

Captured stdout call
2026/06/17 17:11:08:   Reading Input Data
2026/06/17 17:11:08:   Reading metadata for VNIR detector...
2026/06/17 17:11:08:   Calculating solar irradiance...
2026/06/17 17:11:08:   Reading metadata for SWIR detector...
2026/06/17 17:11:09:   Calculating solar irradiance...
2026/06/17 17:11:09:   Pre-processing user-provided DEM...
2026/06/17 17:11:09:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:11:10:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:11:10:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:11:10:   Computing VNIR geolayer...
2026/06/17 17:11:10:   Time for VNIR geolayer computation: 0.15 seconds
2026/06/17 17:11:10:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:11:10:   Computing SWIR geolayer...
2026/06/17 17:11:11:   Time for SWIR geolayer computation: 0.21 seconds
2026/06/17 17:11:11:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:11:08:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_Geometry_Transformer::test_to_sensor_geometry 0:00:03.427712

Setup

Call

Captured stdout call
2026/06/17 17:11:12:   Reading Input Data
2026/06/17 17:11:12:   Reading metadata for VNIR detector...
2026/06/17 17:11:12:   Calculating solar irradiance...
2026/06/17 17:11:13:   Reading metadata for SWIR detector...
2026/06/17 17:11:13:   Calculating solar irradiance...
2026/06/17 17:11:13:   Pre-processing user-provided DEM...
2026/06/17 17:11:13:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:11:14:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:11:14:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:11:14:   Computing VNIR geolayer...
2026/06/17 17:11:14:   Time for VNIR geolayer computation: 0.15 seconds
2026/06/17 17:11:14:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:11:14:   Computing SWIR geolayer...
2026/06/17 17:11:14:   Time for SWIR geolayer computation: 0.19 seconds
2026/06/17 17:11:14:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr call
2026/06/17 17:11:12:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log call
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Teardown

PASSED Test_VNIR_SWIR_SensorGeometryTransformer::test_transform_sensorgeo_SWIR_to_VNIR_2D 0:00:02.824804

Setup

Captured stdout setup
2026/06/17 17:11:15:   Reading Input Data
2026/06/17 17:11:16:   Reading metadata for VNIR detector...
2026/06/17 17:11:16:   Calculating solar irradiance...
2026/06/17 17:11:16:   Reading metadata for SWIR detector...
2026/06/17 17:11:16:   Calculating solar irradiance...
2026/06/17 17:11:16:   Pre-processing user-provided DEM...
2026/06/17 17:11:16:   Reading image masks in VNIR sensor geometry.
2026/06/17 17:11:17:   Converting DN values to radiance [mW/m^2/sr/nm] for VNIR detector...
2026/06/17 17:11:17:   Converting DN values to radiance [mW/m^2/sr/nm] for SWIR detector...
2026/06/17 17:11:17:   Computing VNIR geolayer...
2026/06/17 17:11:17:   Time for VNIR geolayer computation: 0.09 seconds
2026/06/17 17:11:17:   Transforming DEM to VNIR sensor geometry (using first band of VNIR geolayer)...
2026/06/17 17:11:17:   Computing SWIR geolayer...
2026/06/17 17:11:17:   Time for SWIR geolayer computation: 0.13 seconds
2026/06/17 17:11:17:   Transforming DEM to SWIR sensor geometry (using first band of SWIR geolayer)...
Captured stderr setup
2026/06/17 17:11:15:   The input EnMAP Level-1B image was processed with an old version of the ground segment processing system (version 00.02.04), which, e.g. did not include de-striping. It is highly recommended to re-download the dataset in the latest processing version from the archive via the EOWEB GeoPortal (www.eoweb.dlr.de) before passing it to EnPT.
Captured log setup
INFO     enpt.io.reader:reader.py:82 Reading Input Data

Call

Teardown

PASSED Test_VNIR_SWIR_SensorGeometryTransformer::test_transform_sensorgeo_SWIR_to_VNIR_2band3DInput_2DGeolayer 0:00:00.445985

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_SensorGeometryTransformer::test_transform_sensorgeo_SWIR_to_VNIR_2band3DInput_3DGeolayer 0:00:00.411782

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_SensorGeometryTransformer::test_transform_sensorgeo_VNIR_to_SWIR_2D 0:00:00.397308

Setup

Call

Teardown

PASSED Test_VNIR_SWIR_SensorGeometryTransformer::test_transform_sensorgeo_VNIR_to_SWIR_3D 0:00:23.843790

Setup

Call

Teardown

PASSED Test_RPC_Geolayer_Generator::test_compute_geolayer 0:00:00.424245

Setup

Call

Teardown

PASSED Test_RPC_Geolayer_Generator::test_compute_geolayer_average_elevation 0:00:00.373568

Setup

Call

Teardown

PASSED Test_RPC_Geolayer_Generator::test_compute_normalized_image_coordinates 0:00:00.003806

Setup

Call

Teardown

PASSED Test_RPC_Geolayer_Generator::test_normalize_coordinates 0:00:00.002745

Setup

Call

Teardown

PASSED Test_RPC_Geolayer_Generator::test_transform_LonLatHeight_to_RowCol 0:00:00.002969

Setup

Call

Teardown

PASSED Test_RPC_3D_Geolayer_Generator::test_compute_geolayer_average_elevation 0:00:06.863159

Setup

Call

Teardown

PASSED Test_RPC_3D_Geolayer_Generator::test_compute_geolayer_faulty_coeff_set 0:00:00.456970

Test in case of a faulty/inaccurate coeff set the result really does not contain NaNs.

NOTE: NaNs should be filled automatically.

Setup

Call

Teardown

PASSED Test_RPC_3D_Geolayer_Generator::test_compute_geolayer_multiple_coeff_sets_multiprocessing 0:00:05.185028

Setup

Call

Teardown

PASSED Test_RPC_3D_Geolayer_Generator::test_compute_geolayer_multiple_coeff_sets_singleprocessing 0:00:01.256611

Setup

Call

Teardown

PASSED Test_RPC_3D_Geolayer_Generator::test_compute_geolayer_one_unique_coeff_set 0:00:00.377579

Setup

Call

Teardown

tests/test_srf.py 1 0:00:00.004353

PASSED Test_SRF::test_from_cwl_fwhm 0:00:00.004353

Setup

Call

Teardown