RotationMPIFMM.cpp 10.5 KB
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// ===================================================================================
// Copyright ScalFmm 2011 INRIA, Olivier Coulaud, Berenger Bramas
// olivier.coulaud@inria.fr, berenger.bramas@inria.fr
// This software is a computer program whose purpose is to compute the FMM.
//
// This software is governed by the CeCILL-C and LGPL licenses and
// abiding by the rules of distribution of free software.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public and CeCILL-C Licenses for more details.
// "http://www.cecill.info".
// "http://www.gnu.org/licenses".
// ===================================================================================

// ==== CMAKE =====
// @FUSE_MPI
// ================

#include <iostream>
#include <stdexcept>
#include <cstdio>
#include <cstdlib>


#include "ScalFmmConfig.h"
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#include "Containers/FOctree.hpp"
#include "Utils/FMpi.hpp"
#include "Core/FFmmAlgorithmThreadProc.hpp"
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#include "Files/FFmaGenericLoader.hpp"
#include "Files/FMpiFmaGenericLoader.hpp"
#include "Files/FMpiTreeBuilder.hpp"
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#include "BalanceTree/FLeafBalance.hpp"
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#include "Kernels/Rotation/FRotationKernel.hpp"
#include "Kernels/Rotation/FRotationCell.hpp"
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#include "Components/FSimpleLeaf.hpp"
#include "Kernels/P2P/FP2PParticleContainerIndexed.hpp"
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#include "Utils/FParameters.hpp"
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#include "Utils/FParameterNames.hpp"
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/// \file  RotationFMMProc.cpp
//!
//! \brief This program runs the MPI FMM  with harmonic spherical approximation of 1/r kernel
//!  \authors B. Bramas, O. Coulaud
//!
//!  This code is a short example to use the rotation harmonic spherical approximation for the 1/r kernel
//!
//!
//!  <b> General arguments:</b>
//!     \param   -help(-h)      to see the parameters available in this driver
//!     \param   -depth          The depth of the octree
//!     \param   -subdepth     Specifies the size of the sub octree
//!     \param   -t                   The number of threads
//!
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//!     \param   -f name          Name of the particles file with extension (.fma or .bfma). The data in  file have to be in our FMA format
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//!
//

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// Simply create particles and try the kernels
int main(int argc, char* argv[])
{
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    FHelpDescribeAndExit(argc, argv,
                         "Driver for Rotation Spherical kernel using MPI  (1/r kernel).\n"
                         "CMD >> mpirun -np nb_proc_needed ./RotationFMMProc [params]",
                         FParameterDefinitions::InputFile, FParameterDefinitions::OctreeHeight,
                         FParameterDefinitions::OctreeSubHeight, FParameterDefinitions::InputFile,
                         FParameterDefinitions::NbThreads);

    const std::string defaultFile(/*SCALFMMDataPath+*/"../Data/test20k.fma");
    const std::string filename                = FParameters::getStr(argc,argv,FParameterDefinitions::InputFile.options, defaultFile.c_str());
    const unsigned int TreeHeight       = FParameters::getValue(argc, argv, FParameterDefinitions::OctreeHeight.options, 5);
    const unsigned int SubTreeHeight  = FParameters::getValue(argc, argv, FParameterDefinitions::OctreeSubHeight.options, 2);
    const unsigned int NbThreads        = FParameters::getValue(argc, argv, FParameterDefinitions::NbThreads.options, 1);


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#ifdef _OPENMP
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    omp_set_num_threads(NbThreads);
    std::cout << "\n>> Using " << omp_get_max_threads() << " threads.\n" << std::endl;
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#else
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    std::cout << "\n>> Sequential version.\n" << std::endl;
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#endif
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    //
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    std::cout <<	 "Parameters  "<< std::endl
                  <<     "      Octree Depth      "<< TreeHeight <<std::endl
                      <<	 "      SubOctree depth "<< SubTreeHeight <<std::endl
                          <<     "      Input file  name: " <<filename <<std::endl
                              <<     "      Thread number:  " << NbThreads <<std::endl
                                  <<std::endl;
    //init values for MPI
    FMpi app(argc,argv);
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    //
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    // init timer
    FTic time;

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    typedef double FReal;
    FMpiFmaGenericLoader<FReal>* loader = new FMpiFmaGenericLoader<FReal>(filename,app.global());
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    if(!loader->isOpen()) throw std::runtime_error("Particle file couldn't be opened!") ;
    ////////////////////////////////////////////////////////////////////



    // begin spherical kernel
    // accuracy
    const unsigned int P = 22;
    // typedefs
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    typedef FP2PParticleContainerIndexed<FReal>                     ContainerClass;
    typedef FSimpleLeaf< FReal, ContainerClass >                       LeafClass;
    typedef FRotationCell<FReal, P>                                             CellClass;
    typedef FOctree<FReal, CellClass,ContainerClass,LeafClass>  OctreeClass;
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    //
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    typedef FRotationKernel<FReal, CellClass, ContainerClass , P>   KernelClass;
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    //
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    typedef FFmmAlgorithmThreadProc<OctreeClass,CellClass,ContainerClass,KernelClass,LeafClass> FmmClassProc;

    // init oct-tree
    OctreeClass tree(TreeHeight, SubTreeHeight, loader->getBoxWidth(), loader->getCenterOfBox());


    { // -----------------------------------------------------
        if(app.global().processId() == 0){
            std::cout << "Creating & Inserting " << loader->getNumberOfParticles()
                      << " particles ..." << std::endl;
            std::cout << "\tHeight : " << TreeHeight << " \t sub-height : " << SubTreeHeight << std::endl;
        }
        time.tic();
        //

        struct TestParticle{
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            FSize indexInFile;
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            FPoint<FReal> position;
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            FReal physicalValue;
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            const FPoint<FReal>& getPosition(){
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                return position;
            }
        };
        TestParticle* particles = new TestParticle[loader->getMyNumberOfParticles()];
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        memset(particles, 0, (sizeof(TestParticle) * loader->getMyNumberOfParticles()));
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        //idx (in file) of the first part that will be used by this proc.
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        FSize idxStart = loader->getStart();
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        for(FSize idxPart = 0 ; idxPart < loader->getMyNumberOfParticles() ; ++idxPart){
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            //Storage of the index (in the original file) of each part.
            particles[idxPart].indexInFile = idxPart + idxStart;

            // Read particles from file
            loader->fillParticle(&particles[idxPart].position,&particles[idxPart].physicalValue);
        }

        FVector<TestParticle> finalParticles;
        FLeafBalance balancer;
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        FMpiTreeBuilder<FReal, TestParticle >::DistributeArrayToContainer(app.global(), particles, loader->getMyNumberOfParticles(),
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                                                                    tree.getBoxCenter(),
                                                                    tree.getBoxWidth(),
                                                                    tree.getHeight(), &finalParticles,&balancer);

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        std::cout << "Local nb particles after sort "
                  << finalParticles.getSize() << std::endl;
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        for(FSize idx = 0 ; idx < finalParticles.getSize(); ++idx){
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            tree.insert(finalParticles[idx].position,finalParticles[idx].indexInFile,finalParticles[idx].physicalValue);
        }

        delete[] particles;

        time.tac();
        std::cout << "Done  " << "(@Creating and Inserting Particles = "
                  << time.elapsed() << "s)." << std::endl;
    } // -----------------------------------------------------

    { // -----------------------------------------------------
        std::cout << "\nRotation harmonic Spherical FMM Proc (P="<< P << ") ... " << std::endl;

        time.tic();
        //
        // Here we use a pointer due to the limited size of the stack
        //
        KernelClass *kernels = new KernelClass(TreeHeight, loader->getBoxWidth(), loader->getCenterOfBox());
        //
        FmmClassProc algorithm(app.global(),&tree, kernels);
        //
        algorithm.execute();   // Here the call of the FMM algorithm
        //
        time.tac();
        std::cout << "Done  " << "(@Algorithm = " << time.elapsed() << "s)." << std::endl;
    }
    // -----------------------------------------------------
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    //
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    // Some output
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    //
    //
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    { // -----------------------------------------------------
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        FSize N1=0, N2= loader->getNumberOfParticles()/2, N3= (loader->getNumberOfParticles()-1); ;
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        FReal energy =0.0 ;
        //
        //   Loop over all leaves
        //
        std::cout <<std::endl<<" &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& "<<std::endl;
        std::cout << std::scientific;
        std::cout.precision(10) ;

        tree.forEachLeaf([&](LeafClass* leaf){
            const FReal*const posX = leaf->getTargets()->getPositions()[0];
            const FReal*const posY = leaf->getTargets()->getPositions()[1];
            const FReal*const posZ = leaf->getTargets()->getPositions()[2];
            const FReal*const potentials = leaf->getTargets()->getPotentials();
            const FReal*const forcesX = leaf->getTargets()->getForcesX();
            const FReal*const forcesY = leaf->getTargets()->getForcesY();
            const FReal*const forcesZ = leaf->getTargets()->getForcesZ();
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            const FSize nbParticlesInLeaf = leaf->getTargets()->getNbParticles();
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            const FReal*const physicalValues = leaf->getTargets()->getPhysicalValues();

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            const FVector<FSize>& indexes = leaf->getTargets()->getIndexes();
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            for(FSize idxPart = 0 ; idxPart < nbParticlesInLeaf ; ++idxPart){
                const FSize indexPartOrig = indexes[idxPart];
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                if ((indexPartOrig == N1) || (indexPartOrig == N2) || (indexPartOrig == N3)  ) {
                    std::cout << "Proc "<< app.global().processId() << " Index "<< indexPartOrig << "  potential  " << potentials[idxPart]
                                 << " Pos "<<posX[idxPart]<<" "<<posY[idxPart]<<" "<<posZ[idxPart]
                                    << "   Forces: " << forcesX[idxPart] << " " << forcesY[idxPart] << " "<< forcesZ[idxPart] <<std::endl;
                }
                energy += potentials[idxPart]*physicalValues[idxPart] ;
            }
        });

        FReal gloEnergy = app.global().reduceSum(energy);
        if(0 == app.global().processId()){
            std::cout <<std::endl << "Proc "<< app.global().processId() << " Energy: "<< gloEnergy <<std::endl;
            std::cout <<std::endl <<" &&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&& "<<std::endl<<std::endl;
        }
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    }
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    delete loader;
    // -----------------------------------------------------

    return 0;
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}