Download and Setup
You can install TensorFlow either from our provided binary packages or from the github source.
Requirements
The TensorFlow Python API supports Python 2.7 and Python 3.3+.
The GPU version works best with Cuda Toolkit 7.5 and cuDNN v5. Other versions are supported (Cuda toolkit >= 7.0 and cuDNN >= v3) only when installing from sources. Please see Cuda installation for details. For Mac OS X, please see Setup GPU for Mac.
Overview
We support different ways to install TensorFlow:
- Pip install: Install TensorFlow on your machine, possibly upgrading previously installed Python packages. May impact existing Python programs on your machine.
- Virtualenv install: Install TensorFlow in its own directory, not impacting any existing Python programs on your machine.
- Anaconda install: Install TensorFlow in its own environment for those running the Anaconda Python distribution. Does not impact existing Python programs on your machine.
- Docker install: Run TensorFlow in a Docker container isolated from all other programs on your machine.
- Installing from sources: Install TensorFlow by building a pip wheel that you then install using pip.
If you are familiar with Pip, Virtualenv, Anaconda, or Docker, please feel free to adapt the instructions to your particular needs. The names of the pip and Docker images are listed in the corresponding installation sections.
If you encounter installation errors, see common problems for some solutions.
Pip Installation
Pip) is a package management system used to install and manage software packages written in Python.
The packages that will be installed or upgraded during the pip install are listed in the REQUIRED_PACKAGES section of setup.py.
Install pip (or pip3 for python3) if it is not already installed:
# Ubuntu/Linux 64-bit
$ sudo apt-get install python-pip python-dev
# Mac OS X
$ sudo easy_install pip
$ sudo easy_install --upgrade six
Then, select the correct binary to install:
# Ubuntu/Linux 64-bit, CPU only, Python 2.7
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 2.7
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Mac OS X, CPU only, Python 2.7:
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Mac OS X, GPU enabled, Python 2.7:
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.4
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.4
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.5
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.5
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Mac OS X, CPU only, Python 3.4 or 3.5:
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py3-none-any.whl
# Mac OS X, GPU enabled, Python 3.4 or 3.5:
$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py3-none-any.whl
Install TensorFlow:
# Python 2
$ sudo pip install --upgrade $TF_BINARY_URL
# Python 3
$ sudo pip3 install --upgrade $TF_BINARY_URL
NOTE: If you are upgrading from a previous installation of TensorFlow < 0.7.1,
you should uninstall the previous TensorFlow and protobuf using pip
uninstall
first to make sure you get a clean installation of the updated
protobuf dependency.
You can now test your installation.
Virtualenv installation
Virtualenv is a tool to keep the dependencies required by different Python projects in separate places. The Virtualenv installation of TensorFlow will not override pre-existing version of the Python packages needed by TensorFlow.
With Virtualenv the installation is as follows:
- Install pip and Virtualenv.
- Create a Virtualenv environment.
- Activate the Virtualenv environment and install TensorFlow in it.
- After the install you will activate the Virtualenv environment each time you want to use TensorFlow.
Install pip and Virtualenv:
# Ubuntu/Linux 64-bit
$ sudo apt-get install python-pip python-dev python-virtualenv
# Mac OS X
$ sudo easy_install pip
$ sudo pip install --upgrade virtualenv
Create a Virtualenv environment in the directory ~/tensorflow
:
$ virtualenv --system-site-packages ~/tensorflow
Activate the environment:
$ source ~/tensorflow/bin/activate # If using bash
$ source ~/tensorflow/bin/activate.csh # If using csh
(tensorflow)$ # Your prompt should change
Now, install TensorFlow just as you would for a regular Pip installation. First select the correct binary to install:
# Ubuntu/Linux 64-bit, CPU only, Python 2.7
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 2.7
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Mac OS X, CPU only, Python 2.7:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Mac OS X, GPU enabled, Python 2.7:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.4
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.4
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.5
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.5
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Mac OS X, CPU only, Python 3.4 or 3.5:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py3-none-any.whl
# Mac OS X, GPU enabled, Python 3.4 or 3.5:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py3-none-any.whl
Finally install TensorFlow:
# Python 2
(tensorflow)$ pip install --upgrade $TF_BINARY_URL
# Python 3
(tensorflow)$ pip3 install --upgrade $TF_BINARY_URL
With the Virtualenv environment activated, you can now test your installation.
When you are done using TensorFlow, deactivate the environment.
(tensorflow)$ deactivate
$ # Your prompt should change back
To use TensorFlow later you will have to activate the Virtualenv environment again:
$ source ~/tensorflow/bin/activate # If using bash.
$ source ~/tensorflow/bin/activate.csh # If using csh.
(tensorflow)$ # Your prompt should change.
# Run Python programs that use TensorFlow.
...
# When you are done using TensorFlow, deactivate the environment.
(tensorflow)$ deactivate
Anaconda installation
Anaconda is a Python distribution that includes a large number of standard numeric and scientific computing packages. Anaconda uses a package manager called "conda" that has its own environment system similar to Virtualenv.
As with Virtualenv, conda environments keep the dependencies required by different Python projects in separate places. The Anaconda environment installation of TensorFlow will not override pre-existing version of the Python packages needed by TensorFlow.
- Install Anaconda.
- Create a conda environment.
- Activate the conda environment and install TensorFlow in it.
- After the install you will activate the conda environment each time you want to use TensorFlow.
- Optionally install ipython and other packages into the conda environment
Install Anaconda:
Follow the instructions on the Anaconda download site.
Create a conda environment called tensorflow
:
# Python 2.7
$ conda create -n tensorflow python=2.7
# Python 3.4
$ conda create -n tensorflow python=3.4
# Python 3.5
$ conda create -n tensorflow python=3.5
Activate the environment and use conda or pip to install TensorFlow inside it.
Using conda
A community maintained conda package is available from conda-forge.
Only the CPU version of TensorFlow is available at the moment and can be installed in the conda environment for Python 2 or Python 3.
$ source activate tensorflow
(tensorflow)$ # Your prompt should change
# Linux/Mac OS X, Python 2.7/3.4/3.5, CPU only:
(tensorflow)$ conda install -c conda-forge tensorflow
Using pip
If using pip make sure to use the --ignore-installed
flag to prevent errors
about easy_install
.
$ source activate tensorflow
(tensorflow)$ # Your prompt should change
Now, install TensorFlow just as you would for a regular Pip installation. First select the correct binary to install:
# Ubuntu/Linux 64-bit, CPU only, Python 2.7
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 2.7
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp27-none-linux_x86_64.whl
# Mac OS X, CPU only, Python 2.7:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Mac OS X, GPU enabled, Python 2.7:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py2-none-any.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.4
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.4
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp34-cp34m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, CPU only, Python 3.5
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/cpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Ubuntu/Linux 64-bit, GPU enabled, Python 3.5
# Requires CUDA toolkit 7.5 and CuDNN v5. For other versions, see "Install from sources" below.
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/linux/gpu/tensorflow-0.11.0rc0-cp35-cp35m-linux_x86_64.whl
# Mac OS X, CPU only, Python 3.4 or 3.5:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/cpu/tensorflow-0.11.0rc0-py3-none-any.whl
# Mac OS X, GPU enabled, Python 3.4 or 3.5:
(tensorflow)$ export TF_BINARY_URL=https://storage.googleapis.com/tensorflow/mac/gpu/tensorflow-0.11.0rc0-py3-none-any.whl
Finally install TensorFlow:
# Python 2
(tensorflow)$ pip install --ignore-installed --upgrade $TF_BINARY_URL
# Python 3
(tensorflow)$ pip3 install --ignore-installed --upgrade $TF_BINARY_URL
Usage
With the conda environment activated, you can now test your installation.
When you are done using TensorFlow, deactivate the environment.
(tensorflow)$ source deactivate
$ # Your prompt should change back
To use TensorFlow later you will have to activate the conda environment again:
$ source activate tensorflow
(tensorflow)$ # Your prompt should change.
# Run Python programs that use TensorFlow.
...
# When you are done using TensorFlow, deactivate the environment.
(tensorflow)$ source deactivate
Install IPython
To use tensorflow with IPython it may be necessary to install IPython into the tensorflow environment:
$ source activate tensorflow
(tensorflow)$ conda install ipython
Similarly, other Python packages like pandas may need to get installed into the tensorflow environment before they can be used together with tensorflow.
Docker installation
Docker is a system to build self contained versions of a Linux operating system running on your machine. When you install and run TensorFlow via Docker it completely isolates the installation from pre-existing packages on your machine.
We provide 4 Docker images:
gcr.io/tensorflow/tensorflow
: TensorFlow CPU binary image.gcr.io/tensorflow/tensorflow:latest-devel
: CPU Binary image plus source code.gcr.io/tensorflow/tensorflow:latest-gpu
: TensorFlow GPU binary image.gcr.io/tensorflow/tensorflow:latest-devel-gpu
: GPU Binary image plus source code.
We also have tags with latest
replaced by a released version (e.g.,
0.11.0-gpu
).
With Docker the installation is as follows:
- Install Docker on your machine.
- Create a Docker
group
to allow launching containers without
sudo
. - Launch a Docker container with the TensorFlow image. The image gets downloaded automatically on first launch.
See installing Docker for instructions on installing Docker on your machine.
After Docker is installed, launch a Docker container with the TensorFlow binary image as follows.
$ docker run -it -p 8888:8888 gcr.io/tensorflow/tensorflow
The option -p 8888:8888
is used to publish the Docker container᾿s internal
port to the host machine, in this case to ensure Jupyter notebook connection.
The format of the port mapping is hostPort:containerPort
. You can specify any
valid port number for the host port but have to use 8888
for the container
port portion.
If you're using a container with GPU support, some additional flags must be passed to expose the GPU device to the container.
For NVidia GPU support install latest NVidia drivers and nvidia-docker. Run with
$ nvidia-docker run -it -p 8888:8888 gcr.io/tensorflow/tensorflow:latest-gpu
If you have a problem running nvidia-docker
, then using the default config, we
include a
script
in the repo with these flags, so the command-line would look like
$ path/to/repo/tensorflow/tools/docker/docker_run_gpu.sh -p 8888:8888 gcr.io/tensorflow/tensorflow:latest-gpu
For more details see TensorFlow docker readme.
You can now test your installation within the Docker container.
Test the TensorFlow installation
(Optional, Linux) Enable GPU Support
If you installed the GPU version of TensorFlow, you must also install the Cuda Toolkit 7.5 and cuDNN v5. Please see Cuda installation.
You also need to set the LD_LIBRARY_PATH
and CUDA_HOME
environment
variables. Consider adding the commands below to your ~/.bash_profile
. These
assume your CUDA installation is in /usr/local/cuda
:
export LD_LIBRARY_PATH="$LD_LIBRARY_PATH:/usr/local/cuda/lib64:/usr/local/cuda/extras/CUPTI/lib64"
export CUDA_HOME=/usr/local/cuda
Run TensorFlow from the Command Line
See common problems if an error happens.
Open a terminal and type the following:
$ python
...
>>> import tensorflow as tf
>>> hello = tf.constant('Hello, TensorFlow!')
>>> sess = tf.Session()
>>> print(sess.run(hello))
Hello, TensorFlow!
>>> a = tf.constant(10)
>>> b = tf.constant(32)
>>> print(sess.run(a + b))
42
>>>
Run a TensorFlow demo model
All TensorFlow packages, including the demo models, are installed in the Python library. The exact location of the Python library depends on your system, but is usually one of:
/usr/local/lib/python2.7/dist-packages/tensorflow
/usr/local/lib/python2.7/site-packages/tensorflow
You can find out the directory with the following command (make sure to use the
Python you installed TensorFlow to, for example, use python3
instead of
python
if you installed for Python 3):
$ python -c 'import os; import inspect; import tensorflow; print(os.path.dirname(inspect.getfile(tensorflow)))'
The simple demo model for classifying handwritten digits from the MNIST dataset
is in the sub-directory models/image/mnist/convolutional.py
. You can run it
from the command line as follows (make sure to use the Python you installed
TensorFlow with):
# Using 'python -m' to find the program in the python search path:
$ python -m tensorflow.models.image.mnist.convolutional
Extracting data/train-images-idx3-ubyte.gz
Extracting data/train-labels-idx1-ubyte.gz
Extracting data/t10k-images-idx3-ubyte.gz
Extracting data/t10k-labels-idx1-ubyte.gz
...etc...
# You can alternatively pass the path to the model program file to the python
# interpreter (make sure to use the python distribution you installed
# TensorFlow to, for example, .../python3.X/... for Python 3).
$ python /usr/local/lib/python2.7/dist-packages/tensorflow/models/image/mnist/convolutional.py
...
Installing from sources
When installing from source you will build a pip wheel that you then install using pip. You'll need pip for that, so install it as described above.
Clone the TensorFlow repository
$ git clone https://github.com/tensorflow/tensorflow
Note that these instructions will install the latest master branch of
tensorflow. If you want to install a specific branch (such as a release branch),
pass -b <branchname>
to the git clone
command and --recurse-submodules
for
r0.8 and earlier to fetch the protobuf library that TensorFlow depends on.
Prepare environment for Linux
Install Bazel
Follow instructions here to install the dependencies for bazel. Then download the latest stable bazel version using the installer for your system and run the installer as mentioned there:
$ chmod +x PATH_TO_INSTALL.SH
$ ./PATH_TO_INSTALL.SH --user
Remember to replace PATH_TO_INSTALL.SH
with the location where you
downloaded the installer.
Finally, follow the instructions in that script to place bazel
into your
binary path.
Install other dependencies
# For Python 2.7:
$ sudo apt-get install python-numpy swig python-dev python-wheel
# For Python 3.x:
$ sudo apt-get install python3-numpy swig python3-dev python3-wheel
Optional: Install CUDA (GPUs on Linux)
In order to build or run TensorFlow with GPU support, both NVIDIA's Cuda Toolkit (>= 7.0) and cuDNN (>= v3) need to be installed.
TensorFlow GPU support requires having a GPU card with NVidia Compute Capability
= 3.0. Supported cards include but are not limited to:
- NVidia Titan
- NVidia Titan X
- NVidia K20
- NVidia K40
Check NVIDIA Compute Capability of your GPU card
https://developer.nvidia.com/cuda-gpus
Download and install Cuda Toolkit
https://developer.nvidia.com/cuda-downloads
Install version 7.5 if using our binary releases.
Install the toolkit into e.g. /usr/local/cuda
Download and install cuDNN
https://developer.nvidia.com/cudnn
Download cuDNN v5.
Uncompress and copy the cuDNN files into the toolkit directory. Assuming the
toolkit is installed in /usr/local/cuda
, run the following commands (edited
to reflect the cuDNN version you downloaded):
tar xvzf cudnn-7.5-linux-x64-v5.1-ga.tgz
sudo cp cuda/include/cudnn.h /usr/local/cuda/include
sudo cp cuda/lib64/libcudnn* /usr/local/cuda/lib64
sudo chmod a+r /usr/local/cuda/include/cudnn.h /usr/local/cuda/lib64/libcudnn*
Prepare environment for Mac OS X
We recommend using homebrew to install the bazel and SWIG dependencies, and installing python dependencies using easy_install or pip.
Of course you can also install Swig from source without using homebrew. In that case, be sure to install its dependency PCRE and not PCRE2.
Dependencies
Follow instructions here to install the dependencies for bazel. You can then use homebrew to install bazel and SWIG:
$ brew install bazel swig
You can install the python dependencies using easy_install or pip. Using easy_install, run
$ sudo easy_install -U six
$ sudo easy_install -U numpy
$ sudo easy_install wheel
We also recommend the ipython enhanced python shell, which you can install as follows:
$ sudo easy_install ipython
Optional: Setup GPU for Mac
If you plan to build with GPU support you will need to make sure you have GNU coreutils installed via homebrew:
$ brew install coreutils
Next you will need to make sure you have a recent CUDA Toolkit installed by either downloading the package for your version of OSX directly from NVIDIA or by using the Homebrew Cask extension:
$ brew tap caskroom/cask
$ brew cask install cuda
Once you have the CUDA Toolkit installed you will need to setup the required
environment variables by adding the following to your ~/.bash_profile
:
export CUDA_HOME=/usr/local/cuda
export DYLD_LIBRARY_PATH="$DYLD_LIBRARY_PATH:$CUDA_HOME/lib"
export PATH="$CUDA_HOME/bin:$PATH"
Finally, you will also want to install the CUDA Deep Neural Network (cuDNN v5) library which currently requires an Accelerated Computing Developer Program account. Once you have it downloaded locally, you can unzip and move the header and libraries to your local CUDA Toolkit folder:
$ sudo mv include/cudnn.h /Developer/NVIDIA/CUDA-7.5/include/
$ sudo mv lib/libcudnn* /Developer/NVIDIA/CUDA-7.5/lib
$ sudo ln -s /Developer/NVIDIA/CUDA-7.5/lib/libcudnn* /usr/local/cuda/lib/
To verify the CUDA installation, you can build and run deviceQuery to make sure it passes.
$ cp -r /usr/local/cuda/samples ~/cuda-samples
$ pushd ~/cuda-samples
$ make
$ popd
$ ~/cuda-samples/bin/x86_64/darwin/release/deviceQuery
If you want to compile tensorflow and have the XCode 7.3 installed, note that Xcode 7.3 is not yet compatible with CUDA 7.5. You will need to download Xcode 7.2 and select it as your default:
$ sudo xcode-select -s /Application/Xcode-7.2/Xcode.app
Configure the installation
Run the configure
script at the root of the tree. The configure script
asks you for the path to your python interpreter and allows (optional)
configuration of the CUDA libraries.
This step is used to locate the python and numpy header files as well as
enabling GPU support if you have a CUDA enabled GPU and Toolkit installed.
Select the option Y
when asked to build TensorFlow with GPU support.
If you have several versions of Cuda or cuDNN installed, you should definitely select one explicitly instead of relying on the system default.
For example:
$ ./configure
Please specify the location of python. [Default is /usr/bin/python]:
Do you wish to build TensorFlow with Google Cloud Platform support? [y/N] N
No Google Cloud Platform support will be enabled for TensorFlow
Do you wish to build TensorFlow with GPU support? [y/N] y
GPU support will be enabled for TensorFlow
Please specify which gcc nvcc should use as the host compiler. [Default is /usr/bin/gcc]:
Please specify the Cuda SDK version you want to use, e.g. 7.0. [Leave empty to use system default]: 7.5
Please specify the location where CUDA 7.5 toolkit is installed. Refer to README.md for more details. [Default is /usr/local/cuda]:
Please specify the cuDNN version you want to use. [Leave empty to use system default]: 5
Please specify the location where cuDNN 5 library is installed. Refer to README.md for more details. [Default is /usr/local/cuda]:
Please specify a list of comma-separated Cuda compute capabilities you want to build with.
You can find the compute capability of your device at: https://developer.nvidia.com/cuda-gpus.
Please note that each additional compute capability significantly increases your build time and binary size.
[Default is: "3.5,5.2"]: 3.0
Setting up Cuda include
Setting up Cuda lib
Setting up Cuda bin
Setting up Cuda nvvm
Setting up CUPTI include
Setting up CUPTI lib64
Configuration finished
This creates a canonical set of symbolic links to the Cuda libraries on your system. Every time you change the Cuda library paths you need to run this step again before you invoke the bazel build command. For the cuDNN libraries, use '7.0' for R3, and '4.0.7' for R4.
Known issues
Although it is possible to build both Cuda and non-Cuda configs under the same source tree, we recommend to run
bazel clean
when switching between these two configs in the same source tree.You have to run configure before running bazel build. Otherwise, the build will fail with a clear error message. In the future, we might consider making this more convenient by including the configure step in our build process.
Create the pip package and install
When building from source, you will still build a pip package and install that.
Please note that building from sources takes a lot of memory resources by
default and if you want to limit RAM usage you can add --local_resources
2048,.5,1.0
while invoking bazel.
$ bazel build -c opt //tensorflow/tools/pip_package:build_pip_package
# To build with GPU support:
$ bazel build -c opt --config=cuda //tensorflow/tools/pip_package:build_pip_package
$ bazel-bin/tensorflow/tools/pip_package/build_pip_package /tmp/tensorflow_pkg
# The name of the .whl file will depend on your platform.
$ sudo pip install /tmp/tensorflow_pkg/tensorflow-0.11.0rc0-py2-none-any.whl
Setting up TensorFlow for Development
If you're working on TensorFlow itself, it is useful to be able to test your changes in an interactive python shell without having to reinstall TensorFlow.
To set up TensorFlow such that all files are linked (instead of copied) from the system directories, run the following commands inside the TensorFlow root directory:
bazel build -c opt //tensorflow/tools/pip_package:build_pip_package
# To build with GPU support:
bazel build -c opt --config=cuda //tensorflow/tools/pip_package:build_pip_package
mkdir _python_build
cd _python_build
ln -s ../bazel-bin/tensorflow/tools/pip_package/build_pip_package.runfiles/org_tensorflow/* .
ln -s ../tensorflow/tools/pip_package/* .
python setup.py develop
Note that this setup still requires you to rebuild the
//tensorflow/tools/pip_package:build_pip_package
target every time you change
a C++ file; add, delete, or move any python file; or if you change bazel build
rules.
Note also that bazel test
will not always properly resolve dependencies
through these symlinks, so test results may be unreliable. A workaround is to
remove the _python_build
directory before running bazel test
.
Train your first TensorFlow neural net model
Starting from the root of your source tree, run:
$ cd tensorflow/models/image/mnist
$ python convolutional.py
Successfully downloaded train-images-idx3-ubyte.gz 9912422 bytes.
Successfully downloaded train-labels-idx1-ubyte.gz 28881 bytes.
Successfully downloaded t10k-images-idx3-ubyte.gz 1648877 bytes.
Successfully downloaded t10k-labels-idx1-ubyte.gz 4542 bytes.
Extracting data/train-images-idx3-ubyte.gz
Extracting data/train-labels-idx1-ubyte.gz
Extracting data/t10k-images-idx3-ubyte.gz
Extracting data/t10k-labels-idx1-ubyte.gz
Initialized!
Epoch 0.00
Minibatch loss: 12.054, learning rate: 0.010000
Minibatch error: 90.6%
Validation error: 84.6%
Epoch 0.12
Minibatch loss: 3.285, learning rate: 0.010000
Minibatch error: 6.2%
Validation error: 7.0%
...
...
Common Problems
GPU-related issues
If you encounter the following when trying to run a TensorFlow program:
ImportError: libcudart.so.7.0: cannot open shared object file: No such file or directory
Make sure you followed the GPU installation instructions. If you built from source, and you left the Cuda or cuDNN version empty, try specifying them explicitly.
Protobuf library related issues
TensorFlow pip package depends on protobuf pip package version
3.1.0. Protobuf's pip package downloaded from PyPI
(when running pip install protobuf
) is a Python only library, that has
Python implementations of proto serialization/deserialization which can be
10x-50x slower than the C++ implementation. Protobuf also supports a binary
extension for the Python package that contains fast C++ based proto parsing.
This extension is not available in the standard Python only PIP package. We have
created a custom binary pip package for protobuf that contains the binary
extension. Follow these instructions to install the custom binary protobuf pip
package:
# Ubuntu/Linux 64-bit:
$ pip install --upgrade https://storage.googleapis.com/tensorflow/linux/cpu/protobuf-3.0.0-cp27-none-linux_x86_64.whl
# Mac OS X:
$ pip install --upgrade https://storage.googleapis.com/tensorflow/mac/cpu/protobuf-3.0.0-cp27-cp27m-macosx_10_11_x86_64.whl
And for Python 3.5:
# Ubuntu/Linux 64-bit:
$ pip3 install --upgrade https://storage.googleapis.com/tensorflow/linux/cpu/protobuf-3.0.0-cp35-cp35m-linux_x86_64.whl
# Mac OS X:
$ pip3 install --upgrade https://storage.googleapis.com/tensorflow/mac/cpu/protobuf-3.0.0-cp35-cp35m-macosx_10_11_x86_64.whl
If your system/configuration is not listed above, you can use the following instructions to build your own protobuf wheel file. To install its prerequisites, see here:
Then:
$ git clone https://github.com/google/protobuf.git
$ cd protobuf
$ ./autogen.sh
$ CXXFLAGS="-fPIC -g -O2" ./configure
$ make -j12
$ export PROTOC=$PWD/src/protoc
$ cd python
$ python setup.py bdist_wheel --cpp_implementation --compile_static_extension
$ pip uninstall protobuf
$ pip install dist/<wheel file name>
Install the above package after you have installed TensorFlow via pip, as the
standard pip install tensorflow
would install the python only pip package. The
above pip package will over-write the existing protobuf package.
Note that the binary pip package already has support for protobuf larger than
64MB, that should fix errors such as these :
[libprotobuf ERROR google/protobuf/src/google/protobuf/io/coded_stream.cc:207] A
protocol message was rejected because it was too big (more than 67108864 bytes).
To increase the limit (or to disable these warnings), see
CodedInputStream::SetTotalBytesLimit() in google/protobuf/io/coded_stream.h.
Pip installation issues
Cannot import name 'descriptor'
ImportError: Traceback (most recent call last):
File "/usr/local/lib/python3.4/dist-packages/tensorflow/core/framework/graph_pb2.py", line 6, in <module>
from google.protobuf import descriptor as _descriptor
ImportError: cannot import name 'descriptor'
If you the above error when upgrading to a newer version of TensorFlow, try uninstalling both TensorFlow and protobuf (if installed) and re-installing TensorFlow (which will also install the correct protobuf dependency).
Can't find setup.py
If, during pip install
, you encounter an error like:
...
IOError: [Errno 2] No such file or directory: '/tmp/pip-o6Tpui-build/setup.py'
Solution: upgrade your version of pip:
pip install --upgrade pip
This may require sudo
, depending on how pip is installed.
SSLError: SSL_VERIFY_FAILED
If, during pip install from a URL, you encounter an error like:
...
SSLError: [SSL: CERTIFICATE_VERIFY_FAILED] certificate verify failed
Solution: Download the wheel manually via curl or wget, and pip install locally.
Operation not permitted
If, despite using sudo
, you encounter an error like:
...
Installing collected packages: setuptools, protobuf, wheel, numpy, tensorflow
Found existing installation: setuptools 1.1.6
Uninstalling setuptools-1.1.6:
Exception:
...
[Errno 1] Operation not permitted: '/tmp/pip-a1DXRT-uninstall/System/Library/Frameworks/Python.framework/Versions/2.7/Extras/lib/python/_markerlib'
Solution: Add an --ignore-installed
flag to the pip command.
Linux issues
If you encounter:
...
"__add__", "__radd__",
^
SyntaxError: invalid syntax
Solution: make sure you are using Python 2.7.
Ubuntu build issue on Linux 16.04 when building with --config=cuda: build fail with cuda: identifier "__builtin_ia32_mwaitx" is undefined.
GitHub issue: https://github.com/tensorflow/tensorflow/issues/1066
Solution: Add the following compiler flags to third_party/gpus/crosstool/CROSSTOOL
cxx_flag: "-D_MWAITXINTRIN_H_INCLUDED" cxx_flag: "-D_FORCE_INLINES"
Mac OS X: ImportError: No module named copyreg
On Mac OS X, you may encounter the following when importing tensorflow.
>>> import tensorflow as tf
...
ImportError: No module named copyreg
Solution: TensorFlow depends on protobuf, which requires the Python package
six-1.10.0
. Apple's default Python installation only provides six-1.4.1
.
You can resolve the issue in one of the following ways:
- Upgrade the Python installation with the current version of
six
:
$ sudo easy_install -U six
Install TensorFlow with a separate Python library:
- Using Virtualenv.
- Using Docker.
Install a separate copy of Python via Homebrew or MacPorts and re-install TensorFlow in that copy of Python.
Mac OS X: OSError: [Errno 1] Operation not permitted:
On El Capitan, "six" is a special package that can't be modified, and this error is reported when "pip install" tried to modify this package. To fix use "ignore-installed" flag, ie
sudo pip install --ignore-installed six https://storage.googleapis.com/....
Mac OS X: TypeError: __init__()
got an unexpected keyword argument 'syntax'
On Mac OS X, you may encounter the following when importing tensorflow.
>>> import tensorflow as tf
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "/usr/local/lib/python2.7/site-packages/tensorflow/__init__.py", line 4, in <module>
from tensorflow.python import *
File "/usr/local/lib/python2.7/site-packages/tensorflow/python/__init__.py", line 13, in <module>
from tensorflow.core.framework.graph_pb2 import *
...
File "/usr/local/lib/python2.7/site-packages/tensorflow/core/framework/tensor_shape_pb2.py", line 22, in <module>
serialized_pb=_b('\n,tensorflow/core/framework/tensor_shape.proto\x12\ntensorflow\"d\n\x10TensorShapeProto\x12-\n\x03\x64im\x18\x02 \x03(\x0b\x32 .tensorflow.TensorShapeProto.Dim\x1a!\n\x03\x44im\x12\x0c\n\x04size\x18\x01 \x01(\x03\x12\x0c\n\x04name\x18\x02 \x01(\tb\x06proto3')
TypeError: __init__() got an unexpected keyword argument 'syntax'
This is due to a conflict between protobuf versions (we require protobuf 3.0.0). The best current solution is to make sure older versions of protobuf are not installed, such as:
$ pip install --upgrade protobuf
Mac OS X: Segmentation Fault when import tensorflow
On Mac OS X, you might get the following error when importing tensorflow in python:
>>> import tensorflow
I tensorflow/stream_executor/dso_loader.cc:108] successfully opened CUDA library libcublas.dylib locally
I tensorflow/stream_executor/dso_loader.cc:108] successfully opened CUDA library libcudnn.dylib locally
I tensorflow/stream_executor/dso_loader.cc:108] successfully opened CUDA library libcufft.dylib locally
"import tensorflow" terminated by signal SIGSEGV (Address boundary error)
This is due to the fact that by default, cuda creates libcuda.dylib, but tensorflow tries to load libcuda.1.dylib. This can be resolved by create a symbolic link:
ln -sf /usr/local/cuda/lib/libcuda.dylib /usr/local/cuda/lib/libcuda.1.dylib