void ReuseXpetraPreconditioner(const Teuchos::RCP<Xpetra::Matrix<Scalar, LocalOrdinal, GlobalOrdinal, Node> >& A, Teuchos::RCP<MueLu::Hierarchy<Scalar,LocalOrdinal,GlobalOrdinal,Node>>& H) { std::string timerName = "MueLu setup time"; RCP<Teuchos::Time> tm = Teuchos::TimeMonitor::getNewTimer(timerName); tm->start(); typedef Scalar SC; typedef LocalOrdinal LO; typedef GlobalOrdinal GO; typedef Node NO; typedef Xpetra::Matrix<SC,LO,GO,NO> Matrix; typedef Xpetra::Operator<SC,LO,GO,NO> Operator; TEUCHOS_TEST_FOR_EXCEPTION(!H->GetNumLevels(), Exceptions::RuntimeError, "MueLu::ReuseXpetraPreconditioner: Hierarchy has no levels in it"); TEUCHOS_TEST_FOR_EXCEPTION(!H->GetLevel(0)->IsAvailable("A"), Exceptions::RuntimeError, "MueLu::ReuseXpetraPreconditioner: Hierarchy has no fine level operator"); RCP<Level> level0 = H->GetLevel(0); RCP<Operator> O0 = level0->Get<RCP<Operator> >("A"); RCP<Matrix> A0 = Teuchos::rcp_dynamic_cast<Matrix>(O0); if (!A0.is_null()) { // If a user provided a "number of equations" argument in a parameter list // during the initial setup, we must honor that settings and reuse it for // all consequent setups. A->SetFixedBlockSize(A0->GetFixedBlockSize()); } level0->Set("A", A); H->SetupRe(); tm->stop(); tm->incrementNumCalls(); if (H->GetVerbLevel() & Statistics0) { const bool alwaysWriteLocal = true; const bool writeGlobalStats = true; const bool writeZeroTimers = false; const bool ignoreZeroTimers = true; const std::string filter = timerName; Teuchos::TimeMonitor::summarize(A->getRowMap()->getComm().ptr(), std::cout, alwaysWriteLocal, writeGlobalStats, writeZeroTimers, Teuchos::Union, filter, ignoreZeroTimers); } tm->reset(); }
int main(int argc, char *argv[]) { #include "MueLu_UseShortNames.hpp" Teuchos::oblackholestream blackhole; Teuchos::GlobalMPISession mpiSession(&argc,&argv,&blackhole); bool success = false; bool verbose = true; try { Teuchos::RCP<const Teuchos::Comm<int> > comm = Teuchos::DefaultComm<int>::getComm(); /**********************************************************************************/ /* SET TEST PARAMETERS */ /**********************************************************************************/ /**********************************************************************************/ /* SET TEST PARAMETERS */ /**********************************************************************************/ // Note: use --help to list available options. Teuchos::CommandLineProcessor clp(false); // Default is Laplace1D with nx = 8748. // It's a nice size for 1D and perfect aggregation. (6561=3^8) //Nice size for 1D and perfect aggregation on small numbers of processors. (8748=4*3^7) Galeri::Xpetra::Parameters<GO> matrixParameters(clp, 8748); // manage parameters of the test case Xpetra::Parameters xpetraParameters(clp); // manage parameters of xpetra // custom parameters int pauseForDebugger=0; //std::string aggOrdering = "natural"; int minPerAgg=2; //was 3 in simple int maxNbrAlreadySelected=0; int printTimings=0; //clp.setOption("aggOrdering",&aggOrdering,"aggregation ordering strategy (natural,graph)"); clp.setOption("debug",&pauseForDebugger,"pause to attach debugger"); clp.setOption("maxNbrSel",&maxNbrAlreadySelected,"maximum # of nbrs allowed to be in other aggregates"); clp.setOption("minPerAgg",&minPerAgg,"minimum #DOFs per aggregate"); clp.setOption("timings",&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; } Teuchos::RCP<Teuchos::TimeMonitor> globalTimeMonitor = Teuchos::rcp (new Teuchos::TimeMonitor(*Teuchos::TimeMonitor::getNewTimer("Timings: Global Time"))); if (pauseForDebugger) { Utilities::PauseForDebugger(); } matrixParameters.check(); xpetraParameters.check(); Xpetra::UnderlyingLib lib = xpetraParameters.GetLib(); if (comm->getRank() == 0) { std::cout << xpetraParameters << matrixParameters; } /**********************************************************************************/ /* CREATE INITIAL MATRIX */ /**********************************************************************************/ Teuchos::RCP<const Map> map; Teuchos::RCP<Matrix> A; { Teuchos::TimeMonitor tm(*Teuchos::TimeMonitor::getNewTimer("Timings: Matrix Build")); map = MapFactory::Build(lib, matrixParameters.GetNumGlobalElements(), 0, comm); Teuchos::RCP<Galeri::Xpetra::Problem<Map,CrsMatrixWrap,MultiVector> > Pr = Galeri::Xpetra::BuildProblem<SC,LO,GO,Map,CrsMatrixWrap,MultiVector>(matrixParameters.GetMatrixType(), map, matrixParameters.GetParameterList()); //TODO: Matrix vs. CrsMatrixWrap A = Pr->BuildMatrix(); } /**********************************************************************************/ /* */ /**********************************************************************************/ Teuchos::RCP<Hierarchy> hierarchy = Teuchos::rcp(new Hierarchy(A)); hierarchy->SetDefaultVerbLevel(MueLu::toMueLuVerbLevel(Teuchos::VERB_EXTREME)); hierarchy->SetMaxCoarseSize(100); /////////////////////////////////////////////////////////// Teuchos::RCP<MueLu::Level> Finest = hierarchy->GetLevel(); // get finest level Finest->Set("A",A); Teuchos::RCP<AmalgamationFactory> amalgFact = Teuchos::rcp(new AmalgamationFactory()); Teuchos::RCP<CoalesceDropFactory> dropFact = Teuchos::rcp(new CoalesceDropFactory()); dropFact->SetFactory("UnAmalgamationInfo", amalgFact); // aggregation factory Teuchos::RCP<UncoupledAggregationFactory> UnCoupledAggFact = Teuchos::rcp(new UncoupledAggregationFactory(/*dropFact*/)); UnCoupledAggFact->SetFactory("Graph", dropFact); UnCoupledAggFact->SetFactory("DofsPerNode", dropFact); //UnCoupledAggFact->SetFactory("Graph", dropFact); // UnCoupledAggFact not changed to new factory handling //UnCoupledAggFact->SetMinNodesPerAggregate(minPerAgg); //UnCoupledAggFact->SetMaxNeighAlreadySelected(maxNbrAlreadySelected); //UnCoupledAggFact->SetOrdering(MueLu::AggOptions::GRAPH); UnCoupledAggFact->SetParameter("aggregation: max selected neighbors", Teuchos::ParameterEntry(maxNbrAlreadySelected)); UnCoupledAggFact->SetParameter("aggregation: min agg size", Teuchos::ParameterEntry(minPerAgg)); UnCoupledAggFact->SetParameter("aggregation: ordering", Teuchos::ParameterEntry(std::string("graph"))); Finest->Request("Graph",dropFact.get()); Finest->Request("DofsPerNode",dropFact.get()); Finest->Request("UnAmalgamationInfo",amalgFact.get()); UnCoupledAggFact->Build(*Finest); // Timer final summaries globalTimeMonitor = Teuchos::null; // stop this timer before summary if (printTimings) Teuchos::TimeMonitor::summarize(); success = true; } TEUCHOS_STANDARD_CATCH_STATEMENTS(verbose, std::cerr, success); return ( success ? EXIT_SUCCESS : EXIT_FAILURE ); }
int main(int argc, char *argv[]) { #include "MueLu_UseShortNames.hpp" Teuchos::oblackholestream blackhole; Teuchos::GlobalMPISession mpiSession(&argc,&argv,&blackhole); bool success = true; bool verbose = true; try { Teuchos::RCP<const Teuchos::Comm<int> > comm = Teuchos::DefaultComm<int>::getComm(); /**********************************************************************************/ /* SET TEST PARAMETERS */ /**********************************************************************************/ // Note: use --help to list available options. Teuchos::CommandLineProcessor clp(false); // Default is Laplace1D with nx = 8748. // It's a nice size for 1D and perfect aggregation. (6561=3^8) //Nice size for 1D and perfect aggregation on small numbers of processors. (8748=4*3^7) Galeri::Xpetra::Parameters<GO> matrixParameters(clp, 8748); // manage parameters of the test case Xpetra::Parameters xpetraParameters(clp); // manage parameters of xpetra // custom parameters int pauseForDebugger=0; //std::string aggOrdering = "natural"; int minPerAgg=2; //was 3 in simple int maxNbrAlreadySelected=0; int printTimings=0; std::string xmlFile="parameters.xml"; //clp.setOption("aggOrdering",&aggOrdering,"aggregation ordering strategy (natural,graph)"); clp.setOption("debug",&pauseForDebugger,"pause to attach debugger"); clp.setOption("maxNbrSel",&maxNbrAlreadySelected,"maximum # of nbrs allowed to be in other aggregates"); clp.setOption("minPerAgg",&minPerAgg,"minimum #DOFs per aggregate"); clp.setOption("timings",&printTimings,"print timings to screen"); clp.setOption("xmlFile",&xmlFile,"file name containing MueLu multigrid parameters in XML format"); 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; } Teuchos::RCP<Teuchos::TimeMonitor> globalTimeMonitor = Teuchos::rcp (new Teuchos::TimeMonitor(*Teuchos::TimeMonitor::getNewTimer("Timings: Global Time"))); if (pauseForDebugger) { Utilities::PauseForDebugger(); } matrixParameters.check(); xpetraParameters.check(); Xpetra::UnderlyingLib lib = xpetraParameters.GetLib(); if (comm->getRank() == 0) { std::cout << xpetraParameters << matrixParameters; } /**********************************************************************************/ /* CREATE INITIAL MATRIX */ /**********************************************************************************/ Teuchos::RCP<const Map> map; Teuchos::RCP<Matrix> A; { Teuchos::TimeMonitor tm(*Teuchos::TimeMonitor::getNewTimer("Timings: Matrix Build")); map = MapFactory::Build(lib, matrixParameters.GetNumGlobalElements(), 0, comm); Teuchos::RCP<Galeri::Xpetra::Problem<Map,CrsMatrixWrap,MultiVector> > Pr = Galeri::Xpetra::BuildProblem<SC,LO,GO,Map,CrsMatrixWrap,MultiVector>(matrixParameters.GetMatrixType(), map, matrixParameters.GetParameterList()); //TODO: Matrix vs. CrsMatrixWrap A = Pr->BuildMatrix(); } /**********************************************************************************/ /* */ /**********************************************************************************/ Teuchos::ParameterList paramList; Teuchos::updateParametersFromXmlFileAndBroadcast(xmlFile, Teuchos::Ptr<Teuchos::ParameterList>(¶mList), *comm); // create parameter list interpreter Teuchos::RCP<HierarchyManager> mueluFactory = Teuchos::rcp(new ParameterListInterpreter(paramList)); Teuchos::RCP<Hierarchy> H = mueluFactory->CreateHierarchy(); H->GetLevel(0)->Set< Teuchos::RCP<Matrix> >("A", A); Teuchos::RCP<MultiVector> nullspace = MultiVectorFactory::Build(A->getRowMap(), 1); nullspace->putScalar(1.0); H->GetLevel(0)->Set("Nullspace", nullspace); // set minimal information about number of layers for semicoarsening... // This information can also be provided as a user parameter in the xml file using the // parameter: "semicoarsen: num layers" H->GetLevel(0)->Set("NumZLayers",matrixParameters.GetParameterList().get<GO>("nz")); mueluFactory->SetupHierarchy(*H); for (int l=0; l<H->GetNumLevels(); l++) { Teuchos::RCP<MueLu::Level> level = H->GetLevel(l); if(level->IsAvailable("A", MueLu::NoFactory::get()) == false) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} if(level->IsAvailable("P", MueLu::NoFactory::get()) == false && l>0) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} if(level->IsAvailable("R", MueLu::NoFactory::get()) == false && l>0) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} if(level->IsAvailable("PreSmoother", MueLu::NoFactory::get()) == false) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} if(level->IsAvailable("PostSmoother", MueLu::NoFactory::get()) == false && l<H->GetNumLevels()-1) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} if(level->IsAvailable("NumZLayers", MueLu::NoFactory::get()) == true && l>0) { success = false; H->GetLevel(l)->print(std::cout, MueLu::Debug);} H->GetLevel(l)->print(std::cout, MueLu::Debug); } /////////////////////////////////////////////////////////// // ========================================================================= // System solution (Ax = b) // ========================================================================= comm->barrier(); typedef Teuchos::ScalarTraits<SC> STS; SC zero = STS::zero(), one = STS::one(); Teuchos::RCP<Vector> X = VectorFactory::Build(A->getRowMap()); Teuchos::RCP<Vector> B = VectorFactory::Build(A->getRowMap()); { // we set seed for reproducibility Utilities::SetRandomSeed(*comm); X->randomize(); A->apply(*X, *B, Teuchos::NO_TRANS, one, zero); Teuchos::Array<STS::magnitudeType> norms(1); B->norm2(norms); B->scale(one/norms[0]); X->putScalar(zero); } comm->barrier(); H->IsPreconditioner(false); H->Iterate(*B, *X, 20); // Timer final summaries globalTimeMonitor = Teuchos::null; // stop this timer before summary if (printTimings) Teuchos::TimeMonitor::summarize(); } TEUCHOS_STANDARD_CATCH_STATEMENTS(verbose, std::cerr, success); return ( success ? EXIT_SUCCESS : EXIT_FAILURE ); }