Exemplo n.º 1
0
void xmlToModelPList(const Teuchos::XMLObject &xml, Teuchos::ParameterList & plist)
{
  // This method composes a plist for the problem
  Teuchos::XMLParameterListReader reader;
  plist = reader.toParameterList(xml);
  
  //  Get list of valid Zoltan2 Parameters
  // Zoltan 2 parameters appear in the input file
  // Right now we have default values stored in
  // the parameter list, we would like to apply
  // the options specified by the user in their
  // input file
  Teuchos::ParameterList zoltan2Parameters;
  Zoltan2::createAllParameters(zoltan2Parameters);
  
  if (plist.isSublist("Zoltan2Parameters")) {
    // Apply user specified zoltan2Parameters
    ParameterList &sub = plist.sublist("Zoltan2Parameters");
    zoltan2Parameters.setParameters(sub);
  }
  
}
Exemplo n.º 2
0
int main(int argc, char *argv[]) {
  using Teuchos::RCP; // reference count pointers
  using Teuchos::rcp;
  using Teuchos::TimeMonitor;

  //
  // MPI initialization using Teuchos
  //

  Teuchos::GlobalMPISession mpiSession(&argc, &argv, NULL);
  RCP< const Teuchos::Comm<int> > comm = Teuchos::DefaultComm<int>::getComm();

  //
  // Parameters
  //

  Teuchos::CommandLineProcessor clp(false); // Note:

  GO nx,ny,nz;
  nx=500;
  ny=500;
  nz=100;
  Galeri::Xpetra::Parameters<GO> matrixParameters(clp, nx, ny, nz, "Laplace2D"); // manage parameters of the test case
  Xpetra::Parameters             xpetraParameters(clp);                          // manage parameters of Xpetra

  std::string xmlFileName = "scalingTest.xml"; clp.setOption("xml",   &xmlFileName, "read parameters from a file. Otherwise, this example uses by default 'scalingTest.xml'");
  int amgAsPrecond=1; clp.setOption("precond",&amgAsPrecond,"apply multigrid as preconditioner");
  int amgAsSolver=0; clp.setOption("fixPoint",&amgAsSolver,"apply multigrid as solver");
  bool printTimings=true; clp.setOption("timings","notimings",&printTimings,"print timings to screen");

  switch (clp.parse(argc,argv)) {
  case Teuchos::CommandLineProcessor::PARSE_HELP_PRINTED:        return EXIT_SUCCESS; break;
  case Teuchos::CommandLineProcessor::PARSE_ERROR:
  case Teuchos::CommandLineProcessor::PARSE_UNRECOGNIZED_OPTION: return EXIT_FAILURE; break;
  case Teuchos::CommandLineProcessor::PARSE_SUCCESSFUL:                               break;
  }

  if (comm->getRank() == 0) {
    std::cout << "========================================================" << std::endl
              << xpetraParameters << matrixParameters;
  }

  RCP<TimeMonitor> globalTimeMonitor = rcp (new TimeMonitor(*TimeMonitor::getNewTimer("ScalingTest: S - Global Time")));

  // read aggregation options from file
  Teuchos::FileInputSource fileSrc(xmlFileName);
  Teuchos::XMLObject fileXML = fileSrc.getObject();
  Teuchos::XMLParameterListReader listReader;
  Teuchos::ParameterList aggList = listReader.toParameterList(fileXML);
  //std::cout << "===========aggList start===========" << std::endl;
  //aggList.print(std::cout);
  //std::cout << "===========aggList end===========" << std::endl;

  // instantiate aggregate factory, set options from parameter list
  RCP<MueLu::SingleLevelFactoryBase> aggFact;
  if (aggList.name() == "UncoupledAggregationFactory") {

     RCP<UncoupledAggregationFactory> ucFact = rcp( new UncoupledAggregationFactory() );
     //ucFact->SetParameterList(aggList);
     //FIXME hack until UCAgg uses PL interface
     std::string ordering = aggList.get<std::string>("Ordering");
     MueLu::AggOptions::Ordering eordering;
     if (ordering=="Natural") eordering = MueLu::AggOptions::NATURAL;
     if (ordering=="Graph") eordering = MueLu::AggOptions::GRAPH;
     if (ordering=="Random") eordering = MueLu::AggOptions::RANDOM;
     ucFact->SetOrdering(eordering);
     ucFact->SetMaxNeighAlreadySelected(aggList.get<int>("MaxNeighAlreadySelected"));
     ucFact->SetMinNodesPerAggregate(aggList.get<int>("MinNodesPerAggregate"));
     aggFact = ucFact;

  } else if (aggList.name() == "CoupledAggregationFactory") {

     RCP<CoupledAggregationFactory> cFact = rcp( new CoupledAggregationFactory() );
     //cFact->SetParameterList(aggList);
     //FIXME hack until CoupledAgg uses PL interface
     //cFact->SetOrdering(aggList.get<std::string>("Ordering"));
     cFact->SetMaxNeighAlreadySelected(aggList.get<int>("MaxNeighAlreadySelected"));
     cFact->SetMinNodesPerAggregate(aggList.get<int>("MinNodesPerAggregate"));
     aggFact = cFact;

  } else {

    throw(MueLu::Exceptions::RuntimeError("List's name does not correspond to a known aggregation factory."));

  }

  //Teuchos::ParameterList tlist = aggFact->GetParameterList();
  //std::cout << "===========verify List start===========" << std::endl;
  //tlist.print(std::cout);
  //std::cout << "===========verify List end===========" << std::endl;

  // build matrix
  RCP<TimeMonitor> tm = rcp (new TimeMonitor(*TimeMonitor::getNewTimer("ScalingTest: 1 - Matrix Build")));

  RCP<const Map> map;
  RCP<MultiVector> coordinates;

  // Retrieve matrix parameters (they may have been changed on the command line), and pass them to Galeri.
  // Galeri will attempt to create a square-as-possible distribution of subdomains di, e.g.,
  //                                 d1  d2  d3
  //                                 d4  d5  d6
  //                                 d7  d8  d9
  //                                 d10 d11 d12
  // A perfect distribution is only possible when the #processors is a perfect square.
  // This *will* result in "strip" distribution if the #processors is a prime number or if the factors are very different in
  // size. For example, np=14 will give a 7-by-2 distribution.
  // If you don't want Galeri to do this, specify mx or my on the galeriList.
  Teuchos::ParameterList pl = matrixParameters.GetParameterList();
  Teuchos::ParameterList galeriList;
  galeriList.set("nx", pl.get("nx",nx));
  galeriList.set("ny", pl.get("ny",ny));
  //galeriList.set("mx", comm->getSize());
  //galeriList.set("my", 1);

  if (matrixParameters.GetMatrixType() == "Laplace1D") {
    map = MapFactory::Build(xpetraParameters.GetLib(), matrixParameters.GetNumGlobalElements(), 0, comm);
    coordinates = Galeri::Xpetra::Utils::CreateCartesianCoordinates<SC,LO,GO,Map,MultiVector>("1D",map,matrixParameters.GetParameterList());
  }
  else if (matrixParameters.GetMatrixType() == "Laplace2D" || matrixParameters.GetMatrixType() == "Star2D") {
    map = Galeri::Xpetra::CreateMap<LO, GO, Node>(xpetraParameters.GetLib(), "Cartesian2D", comm, galeriList);
    coordinates = Galeri::Xpetra::Utils::CreateCartesianCoordinates<SC,LO,GO,Map,MultiVector>("2D",map,matrixParameters.GetParameterList());
  }
  else if (matrixParameters.GetMatrixType() == "Laplace3D") {
    coordinates = Galeri::Xpetra::Utils::CreateCartesianCoordinates<SC,LO,GO,Map,MultiVector>("3D",map,matrixParameters.GetParameterList());
    //map = Galeri::Xpetra::CreateMap<LO, GO, Node>(xpetraParameters.GetLib(), "Cartesian3D", comm, galeriList); //TODO when available in Galeri
    map = MapFactory::Build(xpetraParameters.GetLib(), matrixParameters.GetNumGlobalElements(), 0, comm);
  }

  if (comm->getRank() == 0) {
    GO mx = galeriList.get("mx", -1);
    GO my = galeriList.get("my", -1);
    std::cout << "Processor subdomains in x direction: " << mx << std::endl
              << "Processor subdomains in y direction: " << my << std::endl
              << "========================================================" << std::endl;
  }

  RCP<Galeri::Xpetra::Problem<Map,CrsMatrixWrap,MultiVector> > Pr =
      Galeri::Xpetra::BuildProblem<SC,LO,GO,Map,CrsMatrixWrap,MultiVector>(matrixParameters.GetMatrixType(), map, matrixParameters.GetParameterList());
  RCP<Matrix> A = Pr->BuildMatrix();

  tm = Teuchos::null;

  Level level;
  RCP<MueLu::FactoryManagerBase> factoryHandler = rcp(new FactoryManager());
  level.SetFactoryManager(factoryHandler);
  level.SetLevelID(0);
  level.Set("A", A);

  level.Request("Aggregates", aggFact.get());
  level.Request(*aggFact);

  level.setVerbLevel(Teuchos::VERB_NONE);
  aggFact->setVerbLevel(Teuchos::VERB_NONE);
  tm = rcp (new TimeMonitor(*TimeMonitor::getNewTimer("aggregation time")));
  aggFact->Build(level);
  tm = Teuchos::null;

  globalTimeMonitor = Teuchos::null;

  if (printTimings)
    TimeMonitor::summarize();

} //main