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Legacy source code for scalable vesicle simulations in Stokes flows

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This codebase simulates deformable vesicles in Stokes flows and resolve inter-cell collisions and scales to thousands of cores. It is not maintained and is made available for reference purposes; we do not guarantee timely responses to feature requests or bug fixes. It contributed to the following publications:

  • Dhairya Malhotra, Abtin Rahimian, Denis Zorin, and George Biros. "A parallel algorithm for long-timescale simulation of concentrated vesicle suspensions in three dimensions." (2017) Preprint (2017).
  • Libin Lu, Abtin Rahimian, and Denis Zorin. "Parallel contact-aware simulations of deformable particles in 3D Stokes flow." (2018) arXiv preprint arXiv:1812.04719
  • Libin Lu, Matthew J. Morse, Abtin Rahimian, Georg Stadler, and Denis Zorin. "Scalable simulation of realistic volume fraction red blood cell flows through vascular networks." Supercomputing 2019

3D particulate flow simulation code.


Before build:


  1. Copy the ves3d project files to the install location and make an environment variable pointing to that location:
#!shell
    $ cd ves3d-cxx
    $ export VES3D_DIR=`pwd`
  1. In makefile.in.files directory, make a file for the machine you're installing VES3D. You can copy one of the existing machine files, for example
#!shell
    $ cd makefile.in.files
    $ cp makefile.octane makefile.`hostname -s`

You can alternatively use one of the existing host files by passing the VES3D_PLATFORM variable to make.

  1. In the platform specific makefile you created in the previous step, set the correct include paths for libraries

  2. If the makefile corresponding to your choice of compiler does not exist, you also need to write that makefile (with the correct extension)

  3. Optionally add makefile. to hg for future reference

Building:


  1. cd to VES3D_DIR and
#!shell

    $ make
    $ make test
    $ make check
  1. If the code compiles fine and tests pass, run
#!shell

    $ make install

Misc:


  1. Code-specific compiler options are: VERBOSE, PROFILING, VES3D_TESTING, VES3D_USE_GPU, VES3D_USE_PVFMM
  2. If you want the GPU code compiled set "VES3D_USE_GPU=yes" in makefile.
  3. Fully functional revisions of code are tagged by vYY.ID (YY is year and ID is an integer)

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Legacy source code for scalable vesicle simulations in Stokes flows

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