commit | 90f01af49ac15934aed92b8d459175336db1573b | [log] [tgz] |
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author | Eugene Brevdo <ebrevdo@google.com> | Thu Oct 03 16:12:13 2019 -0700 |
committer | TensorFlower Gardener <gardener@tensorflow.org> | Thu Oct 03 16:20:55 2019 -0700 |
tree | fd6dd652ab033310849d65d57acc622ebe2ba4c5 | |
parent | 11b69dada6238584c75603bba609d53cdec5c47c [diff] |
Pipe ConfigProto through FLR so that it can be accessed by Ops like PartitionedCallOp. Also pass the ConfigProto through distributed function calls both in the standard graph registration mode and in the new eager master setup. The PFLR stores a std::optional<ConfigProto> instead of a pointer, because it may be created with a pointer that would dangle after its creation. At the same time, we need to know if a ConfigProto was available at creation time, which is why it's a std::optional. In contrast, the FLR gets a pointer directly because it is given a valid pointer that will outlast it in all cases. PiperOrigin-RevId: 272763578
Documentation |
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TensorFlow is an end-to-end open source platform for machine learning. It has a comprehensive, flexible ecosystem of tools, libraries, and community resources that lets researchers push the state-of-the-art in ML and developers easily build and deploy ML powered applications.
TensorFlow was originally developed by researchers and engineers working on the Google Brain team within Google's Machine Intelligence Research organization for the purposes of conducting machine learning and deep neural networks research. The system is general enough to be applicable in a wide variety of other domains, as well.
TensorFlow provides stable Python and C++ APIs, as well as non-guaranteed backwards compatible API for other languages.
Keep up-to-date with release announcements and security updates by subscribing to announce@tensorflow.org. See all the mailing lists.
See the TensorFlow install guide for the pip package, to enable GPU support, use a Docker container, and build from source.
To install the current release for CPU-only:
$ pip install tensorflow
Use the GPU package for CUDA-enabled GPU cards:
$ pip install tensorflow-gpu
Nightly binaries are available for testing using the tf-nightly and tf-nightly-gpu packages on PyPi.
$ python
>>> import tensorflow as tf >>> tf.enable_eager_execution() >>> tf.add(1, 2).numpy() 3 >>> hello = tf.constant('Hello, TensorFlow!') >>> hello.numpy() 'Hello, TensorFlow!'
For more examples, see the TensorFlow tutorials.
If you want to contribute to TensorFlow, be sure to review the contribution guidelines. This project adheres to TensorFlow's code of conduct. By participating, you are expected to uphold this code.
We use GitHub issues for tracking requests and bugs, please see TensorFlow Discuss for general questions and discussion, and please direct specific questions to Stack Overflow.
The TensorFlow project strives to abide by generally accepted best practices in open-source software development:
Build Type | Status | Artifacts |
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Linux CPU | pypi | |
Linux GPU | pypi | |
Linux XLA | TBA | |
MacOS | pypi | |
Windows CPU | pypi | |
Windows GPU | pypi | |
Android | ||
Raspberry Pi 0 and 1 | Py2 Py3 | |
Raspberry Pi 2 and 3 | Py2 Py3 |
Build Type | Status | Artifacts |
---|---|---|
Linux AMD ROCm GPU Nightly | Nightly | |
Linux AMD ROCm GPU Stable Release | Release | |
Linux s390x Nightly | Nightly | |
Linux s390x CPU Stable Release | Release | |
Linux ppc64le CPU Nightly | Nightly | |
Linux ppc64le CPU Stable Release | Release | |
Linux ppc64le GPU Nightly | Nightly | |
Linux ppc64le GPU Stable Release | Release | |
Linux CPU with Intel® MKL-DNN Nightly | Nightly | |
Linux CPU with Intel® MKL-DNN Supports Python 2.7, 3.4, 3.5, 3.6 and 3.7 | 1.14.0 pypi | |
Red Hat® Enterprise Linux® 7.6 CPU & GPU Python 2.7, 3.6 | 1.13.1 pypi |
Learn more about the TensorFlow community and how to contribute.