TestHybridFEM.cpp
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Created: Wed, Jul 24, 02:21

TestHybridFEM.cpp
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	//@HEADER
	// ************************************************************************
	//
	// Kokkos v. 2.0
	// Copyright (2014) Sandia Corporation
	//
	// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
	// the U.S. Government retains certain rights in this software.
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// 1. Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	//
	// 2. Redistributions in binary form must reproduce the above copyright
	// notice, this list of conditions and the following disclaimer in the
	// documentation and/or other materials provided with the distribution.
	//
	// 3. Neither the name of the Corporation nor the names of the
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
	// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL SANDIA CORPORATION OR THE
	// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
	// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
	// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	//
	// Questions? Contact H. Carter Edwards (hcedwar@sandia.gov)
	//
	// ************************************************************************
	//@HEADER

	// Must be included first on Intel-Phi systems due to
	// redefinition of SEEK_SET in <mpi.h>.

	#include <ParallelComm.hpp>

	#include <string>
	#include <sstream>
	#include <iostream>
	#include <Kokkos_hwloc.hpp>

	//----------------------------------------------------------------------------

	void test_box_partition( bool print );

	//----------------------------------------------------------------------------

	void test_host_fixture( comm::Machine machine ,
	size_t gang_count ,
	size_t gang_worker_count ,
	size_t nx , size_t ny , size_t nz );

	void test_host_implicit( comm::Machine machine ,
	size_t gang_count ,
	size_t gang_worker_count ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_host_explicit( comm::Machine machine ,
	size_t gang_count ,
	size_t gang_worker_count ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_host_nonlinear( comm::Machine machine ,
	size_t gang_count ,
	size_t gang_worker_count ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_host_nonlinear_quadratic( comm::Machine machine ,
	size_t gang_count ,
	size_t gang_worker_count ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );


	//----------------------------------------------------------------------------

	void test_cuda_query( comm::Machine );

	void test_cuda_fixture( comm::Machine machine ,
	size_t nx , size_t ny , size_t nz );

	void test_cuda_implicit( comm::Machine machine ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_cuda_explicit( comm::Machine machine ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_cuda_nonlinear( comm:: Machine machine ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );

	void test_cuda_nonlinear_quadratic( comm::Machine machine ,
	size_t elem_count_begin ,
	size_t elem_count_end ,
	size_t count_run );


	//----------------------------------------------------------------------------

	//----------------------------------------------------------------------------
	//----------------------------------------------------------------------------

	namespace {

	bool run_host( std::istream & input ,
	comm::Machine machine ,
	const size_t host_gang_count ,
	const size_t host_gang_worker_count )
	{
	bool cmd_error = false ;

	std::string which ; input >> which ;

	if ( which == std::string("fixture") ) {

	size_t nx = 0 , ny = 0 , nz = 0 ;
	input >> nx >> ny >> nz ;
	test_host_fixture( machine , host_gang_count , host_gang_worker_count , nx , ny , nz );

	}
	else if ( which == std::string("explicit") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_host_explicit( machine , host_gang_count , host_gang_worker_count , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("implicit") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_host_implicit( machine , host_gang_count , host_gang_worker_count , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("nonlinear") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_host_nonlinear( machine , host_gang_count , host_gang_worker_count , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("nonlinear_quadratic") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_host_nonlinear_quadratic( machine , host_gang_count , host_gang_worker_count , mesh_node_begin , mesh_node_end , run );

	}
	else {
	cmd_error = true ;
	}

	return cmd_error ;
	}

	#if defined( KOKKOS_HAVE_CUDA )
	bool run_cuda( std::istream & input , comm::Machine machine )
	{
	bool cmd_error = false ;

	std::string which ; input >> which ;

	if ( which == std::string("fixture") ) {

	size_t nx = 0 , ny = 0 , nz = 0 ;
	input >> nx >> ny >> nz ;
	test_cuda_fixture( machine , nx , ny , nz );

	}
	else if ( which == std::string("explicit") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_cuda_explicit( machine , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("implicit") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_cuda_implicit( machine , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("nonlinear") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_cuda_nonlinear( machine , mesh_node_begin , mesh_node_end , run );

	}
	else if ( which == std::string("nonlinear_quadratic") ) {

	size_t mesh_node_begin = 100 ;
	size_t mesh_node_end = 300 ;
	size_t run = 1 ;
	input >> mesh_node_begin >> mesh_node_end >> run ;
	test_cuda_nonlinear_quadratic( machine , mesh_node_begin , mesh_node_end , run );

	}
	else {
	cmd_error = true ;
	}

	return cmd_error ;
	}
	#endif

	void run( const std::string & argline , comm::Machine machine )
	{
	const unsigned numa_count = Kokkos::hwloc::get_available_numa_count();
	const unsigned cores_per_numa = Kokkos::hwloc::get_available_cores_per_numa();
	const unsigned threads_per_core = Kokkos::hwloc::get_available_threads_per_core();

	std::istringstream input( argline );

	bool cmd_error = false ;

	std::string which ; input >> which ;

	if ( which == std::string("query") ) {
	std::cout << "P" << comm::rank( machine )
	<< ": hwloc { NUMA[" << numa_count << "]"
	<< " CORE[" << cores_per_numa << "]"
	<< " PU[" << threads_per_core << "] }"
	<< std::endl ;
	#if defined( KOKKOS_HAVE_CUDA )
	test_cuda_query( machine );
	#endif
	}
	else if ( which == std::string("partition") ) {
	if ( 0 == comm::rank( machine ) ) {
	test_box_partition( false /* print flag */ );
	}
	}
	else {
	if ( which == std::string("host") ) {
	size_t host_gang_count = 0 ;
	size_t host_gang_worker_count = 1 ;

	input >> host_gang_count ;
	input >> host_gang_worker_count ;

	cmd_error = run_host( input , machine , host_gang_count , host_gang_worker_count );
	}
	else if ( which == std::string("host-all") ) {
	size_t host_gang_count = numa_count ;
	size_t host_gang_worker_count = cores_per_numa * threads_per_core ;

	cmd_error = run_host( input , machine , host_gang_count , host_gang_worker_count );
	}
	else if ( which == std::string("host-most") ) {
	size_t host_gang_count = numa_count ;
	size_t host_gang_worker_count = ( cores_per_numa - 1 ) * threads_per_core ;

	cmd_error = run_host( input , machine , host_gang_count , host_gang_worker_count );
	}
	#if defined( KOKKOS_HAVE_CUDA )
	else if ( which == std::string("cuda") ) {
	cmd_error = run_cuda( input , machine );
	}
	#endif
	else {
	cmd_error = true ;
	}
	}

	if ( cmd_error && 0 == comm::rank( machine ) ) {
	std::cout << "Expecting command line with" << std::endl
	<< " query" << std::endl
	<< " partition" << std::endl
	<< " host NumNumaNode NumThreadPerNode <test>" << std::endl
	<< " host-all <test>" << std::endl
	<< " host-most <test>" << std::endl
	<< " cuda <test>" << std::endl
	<< "where <test> is" << std::endl
	<< " fixture NumElemX NumElemY NumElemZ" << std::endl
	<< " implicit NumElemBegin NumElemEnd NumRun" << std::endl
	<< " explicit NumElemBegin NumElemEnd NumRun" << std::endl
	<< " nonlinear NumElemBegin NumElemEnd NumRun" << std::endl
	<< " nonlinear_quadratic NumElemBegin NumElemEnd NumRun" << std::endl ;

	}
	}

	} // namespace

	//----------------------------------------------------------------------------
	//----------------------------------------------------------------------------

	int main( int argc , char ** argv )
	{
	comm::Machine machine = comm::Machine::init( & argc , & argv );

	const unsigned comm_rank = comm::rank( machine );

	const std::string argline = comm::command_line( machine , argc , argv );

	try {
	run( argline , machine );
	}
	catch( const std::exception & x ) {
	std::cerr << "P" << comm_rank << " throw: " << x.what() << std::endl ;
	}
	catch( ... ) {
	std::cerr << "P" << comm_rank << " throw: unknown exception" << std::endl ;
	}

	comm::Machine::finalize();

	return 0 ;
	}

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