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=== Linux Clusters === The approaches below will install EMAN2 with a precompiled version of OpenMPI, which may or may not work with the batch queuing system on your cluster. If it does not work, the symptom will be that MPI parallel jobs will use only a single node, no matter how many you have allocated in your job. If this happens please see the linux cluster installations on the [[EMAN2/Install/BinaryInstallAnaconda|binary install page]]. Those instructions should also work with either of the source-based installations below. |
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cmake -DENABLE_CONDA=ON <path-to-eman2-source> | cmake <path-to-eman2-source> |
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* If conda is not found in PATH, set CONDA_ROOT to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use '''cmake-gui'''. * If you set CONDA_ROOT to an environment, make sure to delete any cmake variables that cmake already found, variables like EMAN_INSTALL_PREFIX, EMAN_PREFIX, *_LIBRARY or similar, *_INCLUDE_PATH or similar. |
* If conda is not found in PATH, set CONDA_PREFIX to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use '''cmake-gui'''. * If you set CONDA_PREFIX to an environment, make sure to delete any cmake variables that cmake already found, variables like *_LIBRARY or similar, *_INCLUDE_PATH or similar. |
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conda install cmake=3.8 -c conda-forge conda create -n eman-env eman-deps -c cryoem -c defaults -c conda-forge # Mac conda create -n eman-env eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux |
conda create -n eman-env cmake=3.8 -c conda-forge conda install -n eman-env eman-deps -c cryoem -c defaults -c conda-forge # Mac conda install -n eman-env eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux |
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cmake -DENABLE_CONDA=ON <path-to-eman2-source> | cmake <path-to-eman2-source> |
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* If conda is not found in PATH, set CONDA_ROOT to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use '''cmake-gui'''. * If you set CONDA_ROOT to an environment, make sure to delete any cmake variables that cmake already found, variables like EMAN_INSTALL_PREFIX, EMAN_PREFIX, *_LIBRARY or similar, *_INCLUDE_PATH or similar. |
* If conda is not found in PATH, set CONDA_PREFIX to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use '''cmake-gui'''. * If you set CONDA_PREFIX to an environment, make sure to delete any cmake variables that cmake already found, variables like *_LIBRARY or similar, *_INCLUDE_PATH or similar. |
Anaconda based Build, All Platforms
Note that even with a source build it may be difficult to get this working on systems with very old operating system installs. We normally try to support OS versions 6-7 years old. Please report any problems.
Mac OS X, Linux
There are two approaches you can use for the installation. One uses 'Miniconda' and the other uses full 'Anaconda'. Miniconda is a much smaller (~30 MB) install, provides everything EMAN2 needs, and can be expanded with more packages as you like. Anaconda is a much more complete environment (~300 MB), including useful tools such as the Jupyter notebook, but will require the use of a conda environment to make EMAN2 work properly at present.
Linux Clusters
The approaches below will install EMAN2 with a precompiled version of OpenMPI, which may or may not work with the batch queuing system on your cluster. If it does not work, the symptom will be that MPI parallel jobs will use only a single node, no matter how many you have allocated in your job. If this happens please see the linux cluster installations on the binary install page. Those instructions should also work with either of the source-based installations below.
Miniconda2
Download and install Miniconda2 - make sure you don't get the Python3 version
- Make sure that you have added miniconda2/bin as the first element in your PATH, and that you do not have LD_LIBRARY_PATH or PYTHONPATH set in your shell. If you need these settings for other software, you can still try to proceed, and hope they do not conflict with Miniconda. Alternatively, you may set up a shell script or alias to make these environment changes on demand when you want to use EMAN2/miniconda.
Checkout EMAN2 code from GitHub:cryoem/eman2.
cd <path-to-eman2-source> git clone https://github.com/cryoem/eman2.git
- Install dependencies
conda install cmake=3.8 -c conda-forge conda install eman-deps -c cryoem -c defaults -c conda-forge # Mac OSX conda install eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux
If you have a broken cmake or ccmake, try the following sequence of commands.
conda remove cmake bzip2 expat jsoncpp ncurses conda install cmake=3.8 -c conda-forge conda install eman-deps -c cryoem -c defaults -c conda-forge # Mac OSX conda install eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux
- Create a build directory (out-of-source builds are recommended).
cd <build-directory> cmake <path-to-eman2-source> # on linux, also add -DENABLE_OPTIMIZE_MACHINE=ON
If conda is not found in PATH, set CONDA_PREFIX to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use cmake-gui.
- If you set CONDA_PREFIX to an environment, make sure to delete any cmake variables that cmake already found, variables like *_LIBRARY or similar, *_INCLUDE_PATH or similar.
- Rerun cmake.
Build EMAN2
make -j make install
- You may also wish to run
make test # if everything passes you are fine, if there are failures, you are welcome to ask make test-verbose # verbose test output to help to identify specific failures
Anaconda2
Download and install Anaconda2 - make sure you don't get the Python3 version
- Make sure that you have added anaconda2/bin as the first element in your PATH, and that you do not have LD_LIBRARY_PATH or PYTHONPATH set in your shell. If you need these settings for other software, you can still try to proceed, and hope they do not conflict with Miniconda. Alternatively, you may set up a shell script or alias to make these environment changes on demand when you want to use EMAN2/miniconda.
Checkout EMAN2 code from GitHub:cryoem/eman2.
cd <path-to-eman2-source> git clone https://github.com/cryoem/eman2.git
- Install dependencies
conda create -n eman-env cmake=3.8 -c conda-forge conda install -n eman-env eman-deps -c cryoem -c defaults -c conda-forge # Mac conda install -n eman-env eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux source activate eman-env
If you have a broken cmake or ccmake, try the following sequence of commands.
conda remove cmake bzip2 expat jsoncpp ncurses conda install cmake=3.8 -c conda-forge conda install eman-deps -c cryoem -c defaults -c conda-forge # Mac OSX conda install eman-deps="*"="np18*" -c cryoem -c defaults -c conda-forge # Linux
Note that you will need to run source activate eman-env once in each shell before being able to run EMAN2 commands.
- Create a build directory (out-of-source builds are recommended).
cd <build-directory> cmake <path-to-eman2-source> # on linux, also add -DENABLE_OPTIMIZE_MACHINE=ON
If conda is not found in PATH, set CONDA_PREFIX to your conda environment directory. It could be the main installation or an environment. This step most likely will be needed only if you use cmake-gui.
- If you set CONDA_PREFIX to an environment, make sure to delete any cmake variables that cmake already found, variables like *_LIBRARY or similar, *_INCLUDE_PATH or similar.
- Rerun cmake.
Build EMAN2
make -j make install
- You may also wish to run
make test # if everything passes you are fine, if there are failures, you are welcome to ask make test-verbose # verbose test output to help to identify specific failures