tf.debugging.experimental.enable_dump_debug_info

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Enable dumping debugging information from a TensorFlow program.

Aliases:

  • tf.compat.v1.debugging.experimental.enable_dump_debug_info
  • tf.compat.v2.debugging.experimental.enable_dump_debug_info
tf.debugging.experimental.enable_dump_debug_info(
    dump_root,
    tensor_debug_mode=DEFAULT_TENSOR_DEBUG_MODE,
    circular_buffer_size=1000,
    op_regex=None,
    tensor_dtypes=None
)

The debugging information is dumped to a directory on the file system specified as dump_root.

The dumped debugging information can be ingested by debugger UIs.

The files in the dump directory contain the following information: - TensorFlow Function construction (e.g., compilation of Python functions decorated with @tf.function), the op types, names (if available), context, the input and output tensors, and the associated stack traces. - Execution of TensorFlow operations (ops) and Functions and their stack traces, op types, names (if available) and contexts. In addition, depending on the value of the tensor_debug_mode argument (see Args section below), the value(s) of the output tensors or more concise summaries of the tensor values will be dumped. - A snapshot of Python source files involved in the execution of the TensorFlow program.

Once enabled, the dumping can be disabled with the corresponding disable_dump_debug_info() method under the same Python namespace. Calling this method more than once with the same dump_root is idempotent. Calling this method more than once with different tensor_debug_modes leads to a ValueError. Calling this method more than once with different circular_buffer_sizes leads to a ValueError. Calling this method with a different dump_root abolishes the previously-enabled dump_root.

Usage example:

tf.debugging.experimental.enable_dump_debug_info('/tmp/my-tfdbg-dumps')

# Code to build, train and run your TensorFlow model...

Args:

  • dump_root: The directory path where the dumping information will be written.
  • tensor_debug_mode: Debug mode for tensor values, as a string. The currently supported options are:
    • "NO_TENSOR": (Default) Only traces the execution of ops' output tensors, while not dumping the value of the ops' output tensors or any form of concise summary of them.
  • circular_buffer_size: Size of the circular buffers for execution events. These circular buffers are designed to reduce the overhead of debugging dumping. They hold the most recent debug events concerning eager execution of ops and tf.functions and traces of tensor values computed inside tf.functions. They are written to the file system only when the proper flushing method is called (see description of return values below). Expected to be an integer. If <= 0, the circular-buffer behavior will be disabled, i.e., the execution debug events will be written to the file writers in the same way as non-execution events such as op creations and source-file snapshots.
  • op_regex: Dump data from only the tensors from op types that matches to the regular expression (through Python's re.match()). "Op type" refers to the names of the TensorFlow operations (e.g., "MatMul", "LogSoftmax"), which may repeat in a TensorFlow function. It does not refer to the names of nodes (e.g., "dense/MatMul", "dense_1/MatMul_1") which are unique within a function.
    • Example 1: Dump tensor data from only MatMul and Relu ops op_regex="^(MatMul|Relu)$".
    • Example 2: Dump tensors from all ops except Relu: op_regex="(?!^Relu$)". This filter operates in a logical AND relation with tensor_dtypes.
  • tensor_dtypes: Dump data from only the tensors of which the specified dtypes. This optional argument can be in any of the following format:
    • a list or tuple of DType objects or strings that can be converted to DType objects via tf.as_dtype(). Examples:
    • tensor_dtype=[tf.float32, tf.float64],
    • tensor_dtype=["float32", "float64"],
    • tensor_dtypes=(tf.int32, tf.bool),
    • tensor_dtypes=("int32", "bool")
    • a callable that takes a single DType argument and returns a Python boolean indicating whether the dtype is to be included in the data dumping. Examples:
    • tensor_dtype=lambda dtype: dtype.is_integer. This filter operates in a logical AND relation with op_regex.

Returns:

A DebugEventsWriter instance used by the dumping callback. The caller may use its flushing methods, including FlushNonExecutionFiles() and FlushExecutionFiles().