Amber-MD / cpptraj

Biomolecular simulation trajectory/data analysis.
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CPPTRAJ

Fast, parallelized molecular dynamics trajectory data analysis.

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Description

CPPTRAJ is a program designed to process and analyze molecular dynamics trajectories and relevant data sets derived from their analysis. CPPTRAJ supports many popular MD software packages including Amber, CHARMM, Gromacs, and NAMD.

CPPTRAJ is also distributed as part of the freely available AmberTools software package. The official AmberTools release version of CPPTRAJ can be found at the Amber website.

For those wanting to use CPPTRAJ in their Python scripts, see Pytraj.

See what's new in CPPTRAJ. For those just starting out you may want to check out some CPPTRAJ tutorials or Amber-Hub which contains many useful "recipes" for CPPTRAJ.

For more information (or to cite CPPTRAJ) see the following publication:

Daniel R. Roe and Thomas E. Cheatham, III, "PTRAJ and CPPTRAJ: Software for Processing and Analysis of Molecular Dynamics Trajectory Data". J. Chem. Theory Comput., 2013, 9 (7), pp 3084-3095.

For more information regarding trajectory/ensemble parallelism via MPI in CPPTRAJ see the following publication:

Daniel R. Roe and Thomas E. Cheatham, III, \"Parallelization of CPPTRAJ enables large scale analysis of molecular dynamics trajectory data\". J. Comp. Chem., 2018, DOI: 10.1002/jcc25382.

Disclaimer and Copyright

CPPTRAJ is Copyright (c) 2010-2023 Daniel R. Roe. The terms for using, copying, modifying, and distributing CPPTRAJ are specified in the file LICENSE.

Documentation

The /doc subdirectory contains PDF and LyX versions of the CPPTRAJ manual. The latest version of the manual is available for download here. An HTML version can be found here. There is also limited help for commands in interactive mode via help [<command>]; help with no arguments lists all known commands.

Code documentation generated by Doxygen can be generated with the command make docs. A limited developers guide is available here and limited HTML-formatted documentation is available here.

Some examples are available in the examples subdirectory.

Installation & Testing

Run ./configure --help for a short list of configure options. ./configure --full-help will list all available configure options. For full functionality, CPPTRAJ makes use of the following libraries:

CPPTRAJ also makes use of the following libraries that are bundled with CPPTRAJ. External ones can be used in place of these if desired.

C++11 support is required to enable particle mesh Ewald (PME) calculation support via helPME. CPPTRAJ also uses the PCG32 and Xoshiro 128++ pseudo-random number generators.

./configure gnu should be adequate to set up compilation for most systems. For systems without BLAS/LAPACK, FFTW, and/or NetCDF libraries installed, CPPTRAJ's configure can attempt to download and install any enabled library into $CPPTRAJHOME. By default CPPTRAJ will ask if these should be installed; the '--buildlibs' option can be specified to try to automatically install any missing enabled library. For example, ./configure -fftw3 --buildlibs gnu will tell CPPTRAJ to build missing libraries including FFTW (if it is not available). To prevent CPPTRAJ from asking about building external libraries, use the '--nobuildlibs' option.

If Amber is installed and $AMBERHOME is properly set, the -amberlib flag can be specified to use the libraries already compiled in an AmberTools installation, e.g. ./configure -amberlib gnu.

For multicore systems, the -openmp flag can be specified to enable OpenMP parallelization, e.g. ./configure -openmp gnu. An MPI-parallelized version of CPPTRAJ can also be built using the -mpi flag. CPPTRAJ can be built with both MPI and OpenMP; when running this build users should take care to properly set OMP_NUM_THREADS if using more than 1 MPI process per node (the number of processes * threads should not be greater than the number of physical cores on the machine).

A CUDA build is now also available via the -cuda configure flag, a HIP build is available via the -hip flag, they are mutually exclusive. However, currently only a few commands benefit from this (see the manual for details). By default CPPTRAJ will be configured for multiple shader models; to restrict the CUDA build to a single shader model set the SHADER_MODEL environment variable before running configure.

Any combination of -cuda (or -hip), -mpi, and -openmp may be used. The configure script by default sets everything up to link dynamically. The -static flag can be used to force static linking. If linking errors are encountered you may need to specify library locations using the --with-LIB= options. For example, to use NetCDF compiled in /opt/netcdf use the option --with-netcdf=/opt/netcdf. Alternatively, individual libraries can be disabled with the -no<LIB> options. The -libstatic flag can be used to static link only libraries that have been specified.

CPPTRAJ can also be built with support for OpenMM by specifying '--with-openmm=PATH', where PATH is the OpenMM directory containing the OpenMM library, i.e. PATH/lib/libOpenMM.so. Currently the only command that uses OpenMM is emin, so compiling with OpenMM is typically not required at this time.

After configure has been successfully run, make install will compile and place the cpptraj binary in the $CPPTRAJHOME/bin subdirectory. Note that on multithreaded systems make -j X install (where X is an integer > 1 and less than the max # cores on your system) will run much faster. After installation, It is highly recommended that make check be run as well to test the basic functionality of CPPTRAJ.

There is an independently-maintained VIM syntax file for CPPTRAJ by Emmett Leddin available here.

CPPTRAJ Authors

Lead Author: Daniel R. Roe (daniel.r.roe@gmail.com) Laboratory of Computational Biology National Heart Lung and Blood Institute National Institutes of Health, Bethesda, MD.

CPPTRAJ began as a C++ rewrite of PTRAJ by Thomas E. Cheatham, III (Department of Medicinal Chemistry, University of Utah, Salt Lake City, UT, USA) and many routines from PTRAJ were adapted for use in CPPTRAJ, including code used in the following classes: Analysis_CrankShaft, Analysis_Statistics, Action_DNAionTracker, Action_RandomizeIons, Action_Principal, Action_Grid, GridAction, Action_Image, and ImageRoutines.

Contributors to CPPTRAJ

Various Contributions

Code in CPPTRAJ that originated in PTRAJ

External code/libraries bundled with CPPTRAJ