.. _troubleshooting: Troubleshooting ############### Here are Linux troubleshooting instructions. There is a specific `MacOS`_ section. - :ref:`network_error_proxy` - :ref:`slow_or_memory` - :ref:`TensorVariable_TypeError` - :ref:`out_of_memory` - :ref:`float64_output` - :ref:`test_pytensor` - :ref:`test_BLAS` .. _network_error_proxy: Why do I get a network error when I install PyTensor ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If you are behind a proxy, you must do some extra configuration steps before starting the installation. You must set the environment variable ``http_proxy`` to the proxy address. Using bash this is accomplished with the command ``export http_proxy="http://user:pass@my.site:port/"`` You can also provide the ``--proxy=[user:pass@]url:port`` parameter to pip. The ``[user:pass@]`` portion is optional. .. _TensorVariable_TypeError: How to solve TypeError: object of type 'TensorVariable' has no len() ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If you receive the following error, it is because the Python function *__len__* cannot be implemented on PyTensor variables: .. code-block:: python TypeError: object of type 'TensorVariable' has no len() Python requires that *__len__* returns an integer, yet it cannot be done as PyTensor's variables are symbolic. However, `var.shape[0]` can be used as a workaround. This error message cannot be made more explicit because the relevant aspects of Python's internals cannot be modified. .. _out_of_memory: How to solve Out of memory Error ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Occasionally PyTensor may fail to allocate memory when there appears to be more than enough reporting: Error allocating X bytes of device memory (out of memory). Driver report Y bytes free and Z total. where X is far less than Y and Z (i.e. X << Y < Z). This scenario arises when an operation requires allocation of a large contiguous block of memory but no blocks of sufficient size are available. A known example is related to writing data to shared variables. When updating a shared variable PyTensor will allocate new space if the size of the data does not match the size of the space already assigned to the variable. This can lead to memory fragmentation which means that a continugous block of memory of sufficient capacity may not be available even if the free memory overall is large enough. .. _float64_output: pytensor.function returns a float64 when the inputs are float32 and int{32, 64} ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ It should be noted that using float32 and int{32, 64} together inside a function would provide float64 as output. To help you find where float64 are created, see the :attr:`warn_float64` PyTensor flag. .. _test_pytensor: How to test that PyTensor works properly ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ An easy way to check something that could be wrong is by making sure ``PYTENSOR_FLAGS`` have the desired values as well as the ``~/.pytensorrc`` Also, check the following outputs : .. code-block:: bash ipython .. code-block:: python import pytensor pytensor.__file__ pytensor.__version__ Once you have installed PyTensor, you should run the test suite in the ``tests`` directory. .. code-block:: bash python -c "import numpy; numpy.test()" python -c "import scipy; scipy.test()" pip install pytest PYTENSOR_FLAGS='' pytest tests/ All PyTensor tests should pass (skipped tests and known failures are normal). If some test fails on your machine, you are encouraged to tell us what went wrong in the GitHub issues. .. _slow_or_memory: Why is my code so slow/uses so much memory ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ There is a few things you can easily do to change the trade-off between speed and memory usage. Could raise memory usage but speed up computation: - :attr:`config.allow_gc` =False Could lower the memory usage, but raise computation time: - :attr:`config.scan__allow_gc` = True - :attr:`config.scan__allow_output_prealloc` =False - Disable one or scan more rewrites: - ``optimizer_excluding=scan_pushout_seqs_ops`` - ``optimizer_excluding=scan_pushout_dot1`` - ``optimizer_excluding=scan_pushout_add`` - Disable all rewrites tagged as raising memory usage: ``optimizer_excluding=more_mem`` (currently only the 3 scan rewrites above) - `float16 `_. If you want to analyze the memory usage during computation, the simplest is to let the memory error happen during PyTensor execution and use the PyTensor flags :attr:`exception_verbosity=high`. .. _test_BLAS: How do I configure/test my BLAS library ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ There are many ways to configure BLAS for PyTensor. This is done with the PyTensor flags ``blas__ldflags`` (:ref:`libdoc_config`). The default is to use the BLAS installation information in NumPy, accessible via ``numpy.__config__.show()``. You can tell pytensor to use a different version of BLAS, in case you did not compile NumPy with a fast BLAS or if NumPy was compiled with a static library of BLAS (the latter is not supported in PyTensor). The short way to configure the PyTensor flags ``blas__ldflags`` is by setting the environment variable :envvar:`PYTENSOR_FLAGS` to ``blas__ldflags=XXX`` (in bash ``export PYTENSOR_FLAGS=blas__ldflags=XXX``) The ``${HOME}/.pytensorrc`` file is the simplest way to set a relatively permanent option like this one. Add a ``[blas]`` section with an ``ldflags`` entry like this: .. code-block:: cfg # other stuff can go here [blas] ldflags = -lf77blas -latlas -lgfortran #put your flags here # other stuff can go here For more information on the formatting of ``~/.pytensorrc`` and the configuration options that you can put there, see :ref:`libdoc_config`. Here are some different way to configure BLAS: 0) Do nothing and use the default config, which is to link against the same BLAS against which NumPy was built. This does not work in the case NumPy was compiled with a static library (e.g. ATLAS is compiled by default only as a static library). 1) Disable the usage of BLAS and fall back on NumPy for dot products. To do this, set the value of ``blas__ldflags`` as the empty string (ex: ``export PYTENSOR_FLAGS=blas__ldflags=``). Depending on the kind of matrix operations your PyTensor code performs, this might slow some things down (vs. linking with BLAS directly). 2) You can install the default (reference) version of BLAS if the NumPy version (against which PyTensor links) does not work. If you have root or sudo access in fedora you can do ``sudo yum install blas blas-devel``. Under Ubuntu/Debian ``sudo apt-get install libblas-dev``. Then use the PyTensor flags ``blas__ldflags=-lblas``. Note that the default version of blas is not optimized. Using an optimized version can give up to 10x speedups in the BLAS functions that we use. 3) Install the ATLAS library. ATLAS is an open source optimized version of BLAS. You can install a precompiled version on most OSes, but if you're willing to invest the time, you can compile it to have a faster version (we have seen speed-ups of up to 3x, especially on more recent computers, against the precompiled one). On Fedora, ``sudo yum install atlas-devel``. Under Ubuntu, ``sudo apt-get install libatlas-base-dev libatlas-base`` or ``libatlas3gf-sse2`` if your CPU supports SSE2 instructions. Then set the PyTensor flags ``blas__ldflags`` to ``-lf77blas -latlas -lgfortran``. Note that these flags are sometimes OS-dependent. 4) Use a faster version like MKL, GOTO, ... You are on your own to install it. See the doc of that software and set the PyTensor flags ``blas__ldflags`` correctly (for example, for MKL this might be ``-lmkl -lguide -lpthread`` or ``-lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core -lguide -liomp5 -lmkl_mc -lpthread``). .. note:: Make sure your BLAS libraries are available as dynamically-loadable libraries. ATLAS is often installed only as a static library. PyTensor is not able to use this static library. Your ATLAS installation might need to be modified to provide dynamically loadable libraries. (On Linux this typically means a library whose name ends with .so. On Windows this will be a .dll, and on OS-X it might be either a .dylib or a .so.) This might be just a problem with the way PyTensor passes compilation arguments to g++, but the problem is not fixed yet. .. note:: If you have problems linking with MKL, `Intel Line Advisor `_ and the `MKL User Guide `_ can help you find the correct flags to use. .. note:: If you have error that contain "gfortran" in it, like this one: ImportError: ('/home/Nick/.pytensor/compiledir_Linux-2.6.35-31-generic-x86_64-with-Ubuntu-10.10-maverick--2.6.6/tmpIhWJaI/0c99c52c82f7ddc775109a06ca04b360.so: undefined symbol: _gfortran_st_write_done' The problem is probably that NumPy is linked with a different blas then then one currently available (probably ATLAS). There is 2 possible fixes: 1) Uninstall ATLAS and install OpenBLAS. 2) Use the PyTensor flag "blas__ldflags=-lblas -lgfortran" 1) is better as OpenBLAS is faster then ATLAS and NumPy is probably already linked with it. So you won't need any other change in PyTensor files or PyTensor configuration. Testing BLAS ------------ It is recommended to test your PyTensor/BLAS integration. There are many versions of BLAS that exist and there can be up to 10x speed difference between them. Also, having PyTensor link directly against BLAS instead of using NumPy/SciPy as an intermediate layer reduces the computational overhead. This is important for BLAS calls to ``ger``, ``gemv`` and small ``gemm`` operations (automatically called when needed when you use ``dot()``). To run the PyTensor/BLAS speed test: .. code-block:: bash python $(python -c "import pathlib, pytensor; print(pathlib.Path(pytensor.__file__).parent / 'misc/check_blas.py')") This will print a table with different versions of BLAS/numbers of threads on multiple CPUs. It will also print some PyTensor/NumPy configuration information. Then, it will print the running time of the same benchmarks for your installation. Try to find a CPU similar to yours in the table, and check that the single-threaded timings are roughly the same. PyTensor should link to a parallel version of Blas and use all cores when possible. By default it should use all cores. Set the environment variable "OMP_NUM_THREADS=N" to specify to use N threads. .. _MacOS: Mac OS ------ Although the above steps should be enough, running PyTensor on a Mac may sometimes cause unexpected crashes, typically due to multiple versions of Python or other system libraries. If you encounter such problems, you may try the following. - You can ensure MacPorts shared libraries are given priority at run-time with ``export LD_LIBRARY_PATH=/opt/local/lib:$LD_LIBRARY_PATH``. In order to do the same at compile time, you can add to your ``~/.pytensorrc``: .. code-block:: cfg [gcc] cxxflags = -L/opt/local/lib - More generally, to investigate libraries issues, you can use the ``otool -L`` command on ``.so`` files found under your ``~/.pytensor`` directory. This will list shared libraries dependencies, and may help identify incompatibilities.