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TensorFlow Version Semantics

Semantic Versioning 2.0

TensorFlow follows Semantic Versioning 2.0 (semver) for its public API. Each release version of TensorFlow has the form MAJOR.MINOR.PATCH. Changes to the each number have the following meaning:

  • MAJOR: Backwards incompatible changes. Code and data that worked with a previous major release will not necessarily work with a new release. However, in some cases existing TensorFlow data (graphs, checkpoints, and other protobufs) may be migratable to the newer release; see below for details on data compatibility.

  • MINOR: Backwards compatible features, speed improvements, etc. Code and data that worked with a previous minor release and which depends only the public API will continue to work unchanged. For details on what is and is not the public API, see below.

  • PATCH: Backwards compatible bug fixes.

What is covered

Only the public APIs of TensorFlow are backwards compatible across minor and patch versions. The public APIs consist of

  • The documented public Python API, excluding tf.contrib. This includes all public functions and classes (whose names do not start with _) in the tensorflow module and its submodules. Note that the code in the examples/ to tools/ directories is not reachable through the tensorflow Python module and is thus not covered by the compatibility guarantee.

If a symbol is available through the tensorflow Python module or its submodules, but is not documented, then it is not considered part of the public API.

What is not covered

Some API functions are explicitly marked as "experimental" and can change in backward incompatible ways between minor releases. These include:

  • Experimental APIs: The tf.contrib module and its submodules in Python and any functions in the C API or fields in protocol buffers that are explicitly commented as being experimental.

  • Other languages: TensorFlow APIs in languages other than Python and C, such as:

  • C++ (exposed through header files in tensorflow/cc).

  • Java, and
  • Go

  • Details of composite ops: Many public functions in Python expand to several primitive ops in the graph, and these details will be part of any graphs saved to disk as GraphDefs. These details are allowed to change for minor releases. In particular, regressions tests that check for exact matching between graphs are likely to break across minor releases, even though the behavior of the graph should be unchanged and existing checkpoints will still work.

  • Floating point numerical details: The specific floating point values computed by ops may change at any time: users should rely only on approximate accuracy and numerical stability, not on the specific bits computed. Changes to numerical formulas in minor and patch releases should result in comparable or improved accuracy, with the caveat that in machine learning improved accuracy of specific formulas may result in worse accuracy for the overall system.

  • Random numbers: The specific random numbers computed by the random ops may change at any time: users should rely only on approximately correct distributions and statistical strength, not the specific bits computed. However, we will make changes to random bits rarely and ideally never for patch releases, and all such intended changes will be documented.

  • Distributed Tensorflow: Running 2 different versions of TensorFlow in a single cluster is unsupported. There are no guarantees about backwards compatibility of the wire protocol.

  • Bugs: We reserve the right to make backwards incompatible behavior (though not API) changes if the current implementation is clearly broken, i.e., if it is contradicting the documentation, or if a well-known and well-defined intended behavior is not properly implemented due to a bug. For example, if an optimizer claims to implement a well-known optimization algorithm but, due to a bug, does not match that algorithm we will fix the optimizer. This may break code relying on the wrong behavior for convergence. We will note such changes in the release notes.

  • Error messages: We reserve the right to change the text of error messages. In addition, the type of an error may change unless the type is specified in the documentation. For example, a function that says in some condition it will raise an InvalidArgument exception, it will continue to raise InvalidArgument, but the human-readable message contents can change.

Furthermore, any API methods marked "deprecated" in the 1.0 release can be deleted in any subsequent minor release.

Compatibility for Graphs and Checkpoints

Many users of TensorFlow will be saving graphs and trained models to disk for later evaluation or more training, often changing versions of TensorFlow in the process. First, following semver, any graph or checkpoint written out with one version of TensorFlow can be loaded and evaluated with a later version of TensorFlow with the same major release. However, we will endeavour to preserve backwards compatibility even across major releases when possible, so that the serialized files are usable over long periods of time.

There are two main classes of saved TensorFlow data: graphs and checkpoints. Graphs describe the data flow graphs of ops to be run during training and inference, and checkpoints contain the saved tensor values of variables in a graph.

Graphs are serialized via the GraphDef protocol buffer. To facilitate (rare) backwards incompatible changes to graphs, each GraphDef has an integer version separate from the TensorFlow version. The semantics are:

  • Each version of TensorFlow supports an interval of GraphDef versions. This interval with be constant across patch releases, and will only grow across minor releases. Dropping support for a GraphDef version will only occur for a major release of TensorFlow.

  • Newly created graphs use the newest GraphDef version.

  • If a given version of TensorFlow supports the GraphDef version of a graph, it will load and evaluate with the same behavior as when it was written out (except for floating point numerical details and random numbers), regardless of the major version of TensorFlow. In particular, all checkpoint files will be compatible.

  • If the GraphDef upper bound is increased to X in a (minor) release, there will be at least six months before the lower bound is increased to X.

For example (numbers and versions hypothetical), TensorFlow 1.2 might support GraphDef versions 4 to 7. TensorFlow 1.3 could add GraphDef version 8 and support versions 4 to 8. At least six months later, TensorFlow 2.0.0 could drop support for versions 4 to 7, leaving version 8 only.

Finally, when support for a GraphDef version is dropped, we will attempt to provide tools for automatically converting graphs to a newer supported GraphDef version.

For developer-level details about GraphDef versioning, including how to evolve the versions to account for changes, see TensorFlow Data Versioning.

© 2017 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/programmers_guide/version_semantics