forked from lijiext/lammps
517 lines
22 KiB
Plaintext
517 lines
22 KiB
Plaintext
"Previous Section"_Section_packages.html - "LAMMPS WWW Site"_lws -
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"LAMMPS Documentation"_ld - "LAMMPS Commands"_lc :c
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:link(lws,http://lammps.sandia.gov)
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:link(ld,Manual.html)
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:link(lc,Section_commands.html#comm)
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:line
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"Return to Section accelerate overview"_Section_accelerate.html
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5.3.4 KOKKOS package :h4
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The KOKKOS package was developed primarily by Christian Trott (Sandia)
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with contributions of various styles by others, including Sikandar
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Mashayak (UIUC), Stan Moore (Sandia), and Ray Shan (Sandia). The
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underlying Kokkos library was written primarily by Carter Edwards,
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Christian Trott, and Dan Sunderland (all Sandia).
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The KOKKOS package contains versions of pair, fix, and atom styles
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that use data structures and macros provided by the Kokkos library,
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which is included with LAMMPS in lib/kokkos.
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The Kokkos library is part of
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"Trilinos"_http://trilinos.sandia.gov/packages/kokkos and can also be
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downloaded from "Github"_https://github.com/kokkos/kokkos. Kokkos is a
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templated C++ library that provides two key abstractions for an
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application like LAMMPS. First, it allows a single implementation of
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an application kernel (e.g. a pair style) to run efficiently on
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different kinds of hardware, such as a GPU, Intel Phi, or many-core
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CPU.
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The Kokkos library also provides data abstractions to adjust (at
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compile time) the memory layout of basic data structures like 2d and
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3d arrays and allow the transparent utilization of special hardware
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load and store operations. Such data structures are used in LAMMPS to
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store atom coordinates or forces or neighbor lists. The layout is
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chosen to optimize performance on different platforms. Again this
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functionality is hidden from the developer, and does not affect how
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the kernel is coded.
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These abstractions are set at build time, when LAMMPS is compiled with
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the KOKKOS package installed. All Kokkos operations occur within the
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context of an individual MPI task running on a single node of the
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machine. The total number of MPI tasks used by LAMMPS (one or
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multiple per compute node) is set in the usual manner via the mpirun
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or mpiexec commands, and is independent of Kokkos.
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Kokkos currently provides support for 3 modes of execution (per MPI
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task). These are OpenMP (for many-core CPUs), Cuda (for NVIDIA GPUs),
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and OpenMP (for Intel Phi). Note that the KOKKOS package supports
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running on the Phi in native mode, not offload mode like the
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USER-INTEL package supports. You choose the mode at build time to
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produce an executable compatible with specific hardware.
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Here is a quick overview of how to use the KOKKOS package
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for CPU acceleration, assuming one or more 16-core nodes.
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More details follow.
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use a C++11 compatible compiler
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make yes-kokkos
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make mpi KOKKOS_DEVICES=OpenMP # build with the KOKKOS package
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make kokkos_omp # or Makefile.kokkos_omp already has variable set
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Make.py -v -p kokkos -kokkos omp -o mpi -a file mpi # or one-line build via Make.py
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mpirun -np 16 lmp_mpi -k on -sf kk -in in.lj # 1 node, 16 MPI tasks/node, no threads
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mpirun -np 2 -ppn 1 lmp_mpi -k on t 16 -sf kk -in in.lj # 2 nodes, 1 MPI task/node, 16 threads/task
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mpirun -np 2 lmp_mpi -k on t 8 -sf kk -in in.lj # 1 node, 2 MPI tasks/node, 8 threads/task
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mpirun -np 32 -ppn 4 lmp_mpi -k on t 4 -sf kk -in in.lj # 8 nodes, 4 MPI tasks/node, 4 threads/task :pre
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specify variables and settings in your Makefile.machine that enable OpenMP, GPU, or Phi support
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include the KOKKOS package and build LAMMPS
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enable the KOKKOS package and its hardware options via the "-k on" command-line switch use KOKKOS styles in your input script :ul
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Here is a quick overview of how to use the KOKKOS package for GPUs,
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assuming one or more nodes, each with 16 cores and a GPU. More
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details follow.
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discuss use of NVCC, which Makefiles to examine
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use a C++11 compatible compiler
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KOKKOS_DEVICES = Cuda, OpenMP
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KOKKOS_ARCH = Kepler35
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make yes-kokkos
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make machine
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Make.py -p kokkos -kokkos cuda arch=31 -o kokkos_cuda -a file kokkos_cuda
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mpirun -np 1 lmp_cuda -k on t 6 -sf kk -in in.lj # one MPI task, 6 threads on CPU
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mpirun -np 4 -ppn 1 lmp_cuda -k on t 6 -sf kk -in in.lj # ditto on 4 nodes :pre
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mpirun -np 2 lmp_cuda -k on t 8 g 2 -sf kk -in in.lj # two MPI tasks, 8 threads per CPU
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mpirun -np 32 -ppn 2 lmp_cuda -k on t 8 g 2 -sf kk -in in.lj # ditto on 16 nodes :pre
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Here is a quick overview of how to use the KOKKOS package
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for the Intel Phi:
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use a C++11 compatible compiler
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KOKKOS_DEVICES = OpenMP
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KOKKOS_ARCH = KNC
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make yes-kokkos
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make machine
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Make.py -p kokkos -kokkos phi -o kokkos_phi -a file mpi :pre
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host=MIC, Intel Phi with 61 cores (240 threads/phi via 4x hardware threading):
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mpirun -np 1 lmp_g++ -k on t 240 -sf kk -in in.lj # 1 MPI task on 1 Phi, 1*240 = 240
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mpirun -np 30 lmp_g++ -k on t 8 -sf kk -in in.lj # 30 MPI tasks on 1 Phi, 30*8 = 240
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mpirun -np 12 lmp_g++ -k on t 20 -sf kk -in in.lj # 12 MPI tasks on 1 Phi, 12*20 = 240
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mpirun -np 96 -ppn 12 lmp_g++ -k on t 20 -sf kk -in in.lj # ditto on 8 Phis
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[Required hardware/software:]
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Kokkos support within LAMMPS must be built with a C++11 compatible
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compiler. If using gcc, version 4.8.1 or later is required.
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To build with Kokkos support for CPUs, your compiler must support the
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OpenMP interface. You should have one or more multi-core CPUs so that
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multiple threads can be launched by each MPI task running on a CPU.
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To build with Kokkos support for NVIDIA GPUs, NVIDIA Cuda software
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version 6.5 or later must be installed on your system. See the
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discussion for the "USER-CUDA"_accelerate_cuda.html and
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"GPU"_accelerate_gpu.html packages for details of how to check and do
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this.
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IMPORTANT NOTE: For good performance of the KOKKOS package on GPUs,
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you must have Kepler generation GPUs (or later). The Kokkos library
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exploits texture cache options not supported by Telsa generation GPUs
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(or older).
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To build with Kokkos support for Intel Xeon Phi coprocessors, your
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sysmte must be configured to use them in "native" mode, not "offload"
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mode like the USER-INTEL package supports.
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[Building LAMMPS with the KOKKOS package:]
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You must choose at build time whether to build for CPUs (OpenMP),
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GPUs, or Phi.
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You can do any of these in one line, using the src/Make.py script,
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described in "Section 2.4"_Section_start.html#start_4 of the manual.
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Type "Make.py -h" for help. If run from the src directory, these
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commands will create src/lmp_kokkos_omp, lmp_kokkos_cuda, and
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lmp_kokkos_phi. Note that the OMP and PHI options use
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src/MAKE/Makefile.mpi as the starting Makefile.machine. The CUDA
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option uses src/MAKE/OPTIONS/Makefile.kokkos_cuda.
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The latter two steps can be done using the "-k on", "-pk kokkos" and
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"-sf kk" "command-line switches"_Section_start.html#start_7
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respectively. Or the effect of the "-pk" or "-sf" switches can be
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duplicated by adding the "package kokkos"_package.html or "suffix
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kk"_suffix.html commands respectively to your input script.
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Or you can follow these steps:
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CPU-only (run all-MPI or with OpenMP threading):
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cd lammps/src
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make yes-kokkos
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make g++ KOKKOS_DEVICES=OpenMP :pre
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Intel Xeon Phi:
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cd lammps/src
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make yes-kokkos
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make g++ KOKKOS_DEVICES=OpenMP KOKKOS_ARCH=KNC :pre
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CPUs and GPUs:
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cd lammps/src
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make yes-kokkos
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make cuda KOKKOS_DEVICES=Cuda :pre
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These examples set the KOKKOS-specific OMP, MIC, CUDA variables on the
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make command line which requires a GNU-compatible make command. Try
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"gmake" if your system's standard make complains.
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IMPORTANT NOTE: If you build using make line variables and re-build
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LAMMPS twice with different KOKKOS options and the *same* target,
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e.g. g++ in the first two examples above, then you *must* perform a
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"make clean-all" or "make clean-machine" before each build. This is
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to force all the KOKKOS-dependent files to be re-compiled with the new
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options.
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You can also hardwire these make variables in the specified machine
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makefile, e.g. src/MAKE/Makefile.g++ in the first two examples above,
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with a line like:
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KOKKOS_ARCH = KNC :pre
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Note that if you build LAMMPS multiple times in this manner, using
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different KOKKOS options (defined in different machine makefiles), you
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do not have to worry about doing a "clean" in between. This is
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because the targets will be different.
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IMPORTANT NOTE: The 3rd example above for a GPU, uses a different
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machine makefile, in this case src/MAKE/Makefile.cuda, which is
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included in the LAMMPS distribution. To build the KOKKOS package for
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a GPU, this makefile must use the NVIDA "nvcc" compiler. And it must
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have a KOKKOS_ARCH setting that is appropriate for your NVIDIA
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hardware and installed software. Typical values for KOKKOS_ARCH are given
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below, as well
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as other settings that must be included in the machine makefile, if
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you create your own.
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IMPORTANT NOTE: Currently, there are no precision options with the
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KOKKOS package. All compilation and computation is performed in
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double precision.
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There are other allowed options when building with the KOKKOS package.
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As above, they can be set either as variables on the make command line
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or in Makefile.machine. This is the full list of options, including
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those discussed above, Each takes a value shown below. The
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default value is listed, which is set in the
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lib/kokkos/Makefile.kokkos file.
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#Default settings specific options
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#Options: force_uvm,use_ldg,rdc
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KOKKOS_DEVICES, values = {OpenMP}, {Serial}, {Pthreads}, {Cuda}, default = {OpenMP}
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KOKKOS_ARCH, values = {KNC}, {SNB}, {HSW}, {Kepler}, {Kepler30}, {Kepler32}, {Kepler35}, {Kepler37}, {Maxwell}, {Maxwell50}, {Maxwell52}, {Maxwell53}, {ARMv8}, {BGQ}, {Power7}, {Power8}, default = {none}
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KOKKOS_DEBUG, values = {yes}, {no}, default = {no}
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KOKKOS_USE_TPLS, values = {hwloc}, {librt}, default = {none}
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KOKKOS_CUDA_OPTIONS, values = {force_uvm}, {use_ldg}, {rdc} :ul
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KOKKOS_DEVICE sets the parallelization method used for Kokkos code
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(within LAMMPS). KOKKOS_DEVICES=OpenMP means that OpenMP will be
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used. KOKKOS_DEVICES=Pthreads means that pthreads will be used.
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KOKKOS_DEVICES=Cuda means an NVIDIA GPU running CUDA will be used.
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If KOKKOS_DEVICES=Cuda, then the lo-level Makefile in the src/MAKE
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directory must use "nvcc" as its compiler, via its CC setting. For
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best performance its CCFLAGS setting should use -O3 and have a
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KOKKOS_ARCH setting that matches the compute capability of your NVIDIA
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hardware and software installation, e.g. KOKKOS_ARCH=Kepler30. Note
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the minimal required compute capability is 2.0, but this will give
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signicantly reduced performance compared to Kepler generation GPUs
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with compute capability 3.x. For the LINK setting, "nvcc" should not
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be used; instead use g++ or another compiler suitable for linking C++
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applications. Often you will want to use your MPI compiler wrapper
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for this setting (i.e. mpicxx). Finally, the lo-level Makefile must
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also have a "Compilation rule" for creating *.o files from *.cu files.
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See src/Makefile.cuda for an example of a lo-level Makefile with all
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of these settings.
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KOKKOS_USE_TPLS=hwloc binds threads to hardware cores, so they do not
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migrate during a simulation. KOKKOS_USE_TPLS=hwloc should always be
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used if running with KOKKOS_DEVICES=Pthreads for pthreads. It is not
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necessary for KOKKOS_DEVICES=OpenMP for OpenMP, because OpenMP
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provides alternative methods via environment variables for binding
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threads to hardware cores. More info on binding threads to cores is
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given in "this section"_Section_accelerate.html#acc_8.
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KOKKOS_ARCH=KNC enables compiler switches needed when compling for an
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Intel Phi processor.
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KOKKOS_USE_TPLS=librt enables use of a more accurate timer mechanism
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on most Unix platforms. This library is not available on all
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platforms.
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KOKKOS_DEBUG is only useful when developing a Kokkos-enabled style
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within LAMMPS. KOKKOS_DEBUG=yes enables printing of run-time
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debugging information that can be useful. It also enables runtime
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bounds checking on Kokkos data structures.
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KOKKOS_CUDA_OPTIONS are additional options for CUDA.
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For more information on Kokkos see the Kokkos programmers' guide here:
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/lib/kokkos/doc/Kokkos_PG.pdf.
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[Run with the KOKKOS package from the command line:]
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The mpirun or mpiexec command sets the total number of MPI tasks used
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by LAMMPS (one or multiple per compute node) and the number of MPI
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tasks used per node. E.g. the mpirun command in MPICH does this via
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its -np and -ppn switches. Ditto for OpenMPI via -np and -npernode.
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When using KOKKOS built with host=OMP, you need to choose how many
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OpenMP threads per MPI task will be used (via the "-k" command-line
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switch discussed below). Note that the product of MPI tasks * OpenMP
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threads/task should not exceed the physical number of cores (on a
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node), otherwise performance will suffer.
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When using the KOKKOS package built with device=CUDA, you must use
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exactly one MPI task per physical GPU.
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When using the KOKKOS package built with host=MIC for Intel Xeon Phi
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coprocessor support you need to insure there are one or more MPI tasks
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per coprocessor, and choose the number of coprocessor threads to use
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per MPI task (via the "-k" command-line switch discussed below). The
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product of MPI tasks * coprocessor threads/task should not exceed the
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maximum number of threads the coproprocessor is designed to run,
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otherwise performance will suffer. This value is 240 for current
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generation Xeon Phi(TM) chips, which is 60 physical cores * 4
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threads/core. Note that with the KOKKOS package you do not need to
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specify how many Phi coprocessors there are per node; each
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coprocessors is simply treated as running some number of MPI tasks.
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You must use the "-k on" "command-line
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switch"_Section_start.html#start_7 to enable the KOKKOS package. It
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takes additional arguments for hardware settings appropriate to your
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system. Those arguments are "documented
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here"_Section_start.html#start_7. The two most commonly used
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options are:
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-k on t Nt g Ng :pre
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The "t Nt" option applies to host=OMP (even if device=CUDA) and
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host=MIC. For host=OMP, it specifies how many OpenMP threads per MPI
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task to use with a node. For host=MIC, it specifies how many Xeon Phi
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threads per MPI task to use within a node. The default is Nt = 1.
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Note that for host=OMP this is effectively MPI-only mode which may be
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fine. But for host=MIC you will typically end up using far less than
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all the 240 available threads, which could give very poor performance.
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The "g Ng" option applies to device=CUDA. It specifies how many GPUs
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per compute node to use. The default is 1, so this only needs to be
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specified is you have 2 or more GPUs per compute node.
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The "-k on" switch also issues a "package kokkos" command (with no
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additional arguments) which sets various KOKKOS options to default
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values, as discussed on the "package"_package.html command doc page.
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Use the "-sf kk" "command-line switch"_Section_start.html#start_7,
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which will automatically append "kk" to styles that support it. Use
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the "-pk kokkos" "command-line switch"_Section_start.html#start_7 if
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you wish to change any of the default "package kokkos"_package.html
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optionns set by the "-k on" "command-line
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switch"_Section_start.html#start_7.
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Note that the default for the "package kokkos"_package.html command is
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to use "full" neighbor lists and set the Newton flag to "off" for both
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pairwise and bonded interactions. This typically gives fastest
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performance. If the "newton"_newton.html command is used in the input
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script, it can override the Newton flag defaults.
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However, when running in MPI-only mode with 1 thread per MPI task, it
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will typically be faster to use "half" neighbor lists and set the
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Newton flag to "on", just as is the case for non-accelerated pair
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styles. You can do this with the "-pk" "command-line
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switch"_Section_start.html#start_7.
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[Or run with the KOKKOS package by editing an input script:]
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The discussion above for the mpirun/mpiexec command and setting
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appropriate thread and GPU values for host=OMP or host=MIC or
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device=CUDA are the same.
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You must still use the "-k on" "command-line
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switch"_Section_start.html#start_7 to enable the KOKKOS package, and
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specify its additional arguments for hardware options appopriate to
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your system, as documented above.
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Use the "suffix kk"_suffix.html command, or you can explicitly add a
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"kk" suffix to individual styles in your input script, e.g.
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pair_style lj/cut/kk 2.5 :pre
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You only need to use the "package kokkos"_package.html command if you
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wish to change any of its option defaults, as set by the "-k on"
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"command-line switch"_Section_start.html#start_7.
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[Speed-ups to expect:]
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The performance of KOKKOS running in different modes is a function of
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your hardware, which KOKKOS-enable styles are used, and the problem
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size.
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Generally speaking, the following rules of thumb apply:
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When running on CPUs only, with a single thread per MPI task,
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performance of a KOKKOS style is somewhere between the standard
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(un-accelerated) styles (MPI-only mode), and those provided by the
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USER-OMP package. However the difference between all 3 is small (less
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than 20%). :ulb,l
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When running on CPUs only, with multiple threads per MPI task,
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performance of a KOKKOS style is a bit slower than the USER-OMP
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package. :l
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When running on GPUs, KOKKOS is typically faster than the USER-CUDA
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and GPU packages. :l
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When running on Intel Xeon Phi, KOKKOS is not as fast as
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the USER-INTEL package, which is optimized for that hardware. :l,ule
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See the "Benchmark page"_http://lammps.sandia.gov/bench.html of the
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LAMMPS web site for performance of the KOKKOS package on different
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hardware.
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[Guidelines for best performance:]
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Here are guidline for using the KOKKOS package on the different
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hardware configurations listed above.
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Many of the guidelines use the "package kokkos"_package.html command
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See its doc page for details and default settings. Experimenting with
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its options can provide a speed-up for specific calculations.
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[Running on a multi-core CPU:]
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If N is the number of physical cores/node, then the number of MPI
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tasks/node * number of threads/task should not exceed N, and should
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typically equal N. Note that the default threads/task is 1, as set by
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the "t" keyword of the "-k" "command-line
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switch"_Section_start.html#start_7. If you do not change this, no
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additional parallelism (beyond MPI) will be invoked on the host
|
|
CPU(s).
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|
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|
You can compare the performance running in different modes:
|
|
|
|
run with 1 MPI task/node and N threads/task
|
|
run with N MPI tasks/node and 1 thread/task
|
|
run with settings in between these extremes :ul
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|
|
|
Examples of mpirun commands in these modes are shown above.
|
|
|
|
When using KOKKOS to perform multi-threading, it is important for
|
|
performance to bind both MPI tasks to physical cores, and threads to
|
|
physical cores, so they do not migrate during a simulation.
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|
|
|
If you are not certain MPI tasks are being bound (check the defaults
|
|
for your MPI installation), binding can be forced with these flags:
|
|
|
|
OpenMPI 1.8: mpirun -np 2 -bind-to socket -map-by socket ./lmp_openmpi ...
|
|
Mvapich2 2.0: mpiexec -np 2 -bind-to socket -map-by socket ./lmp_mvapich ... :pre
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|
|
|
For binding threads with the KOKKOS OMP option, use thread affinity
|
|
environment variables to force binding. With OpenMP 3.1 (gcc 4.7 or
|
|
later, intel 12 or later) setting the environment variable
|
|
OMP_PROC_BIND=true should be sufficient. For binding threads with the
|
|
KOKKOS pthreads option, compile LAMMPS the KOKKOS HWLOC=yes option, as
|
|
discussed in "Section 2.3.4"_Sections_start.html#start_3_4 of the
|
|
manual.
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|
|
|
[Running on GPUs:]
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|
|
|
Insure the -arch setting in the machine makefile you are using,
|
|
e.g. src/MAKE/Makefile.cuda, is correct for your GPU hardware/software
|
|
(see "this section"_Section_start.html#start_3_4 of the manual for
|
|
details).
|
|
|
|
The -np setting of the mpirun command should set the number of MPI
|
|
tasks/node to be equal to the # of physical GPUs on the node.
|
|
|
|
Use the "-k" "command-line switch"_Section_commands.html#start_7 to
|
|
specify the number of GPUs per node, and the number of threads per MPI
|
|
task. As above for multi-core CPUs (and no GPU), if N is the number
|
|
of physical cores/node, then the number of MPI tasks/node * number of
|
|
threads/task should not exceed N. With one GPU (and one MPI task) it
|
|
may be faster to use less than all the available cores, by setting
|
|
threads/task to a smaller value. This is because using all the cores
|
|
on a dual-socket node will incur extra cost to copy memory from the
|
|
2nd socket to the GPU.
|
|
|
|
Examples of mpirun commands that follow these rules are shown above.
|
|
|
|
IMPORTANT NOTE: When using a GPU, you will achieve the best
|
|
performance if your input script does not use any fix or compute
|
|
styles which are not yet Kokkos-enabled. This allows data to stay on
|
|
the GPU for multiple timesteps, without being copied back to the host
|
|
CPU. Invoking a non-Kokkos fix or compute, or performing I/O for
|
|
"thermo"_thermo_style.html or "dump"_dump.html output will cause data
|
|
to be copied back to the CPU.
|
|
|
|
You cannot yet assign multiple MPI tasks to the same GPU with the
|
|
KOKKOS package. We plan to support this in the future, similar to the
|
|
GPU package in LAMMPS.
|
|
|
|
You cannot yet use both the host (multi-threaded) and device (GPU)
|
|
together to compute pairwise interactions with the KOKKOS package. We
|
|
hope to support this in the future, similar to the GPU package in
|
|
LAMMPS.
|
|
|
|
[Running on an Intel Phi:]
|
|
|
|
Kokkos only uses Intel Phi processors in their "native" mode, i.e.
|
|
not hosted by a CPU.
|
|
|
|
As illustrated above, build LAMMPS with OMP=yes (the default) and
|
|
MIC=yes. The latter insures code is correctly compiled for the Intel
|
|
Phi. The OMP setting means OpenMP will be used for parallelization on
|
|
the Phi, which is currently the best option within Kokkos. In the
|
|
future, other options may be added.
|
|
|
|
Current-generation Intel Phi chips have either 61 or 57 cores. One
|
|
core should be excluded for running the OS, leaving 60 or 56 cores.
|
|
Each core is hyperthreaded, so there are effectively N = 240 (4*60) or
|
|
N = 224 (4*56) cores to run on.
|
|
|
|
The -np setting of the mpirun command sets the number of MPI
|
|
tasks/node. The "-k on t Nt" command-line switch sets the number of
|
|
threads/task as Nt. The product of these 2 values should be N, i.e.
|
|
240 or 224. Also, the number of threads/task should be a multiple of
|
|
4 so that logical threads from more than one MPI task do not run on
|
|
the same physical core.
|
|
|
|
Examples of mpirun commands that follow these rules are shown above.
|
|
|
|
[Restrictions:]
|
|
|
|
As noted above, if using GPUs, the number of MPI tasks per compute
|
|
node should equal to the number of GPUs per compute node. In the
|
|
future Kokkos will support assigning multiple MPI tasks to a single
|
|
GPU.
|
|
|
|
Currently Kokkos does not support AMD GPUs due to limits in the
|
|
available backend programming models. Specifically, Kokkos requires
|
|
extensive C++ support from the Kernel language. This is expected to
|
|
change in the future.
|