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nalu.C
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nalu.C
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/*------------------------------------------------------------------------*/
/* Copyright 2014 Sandia Corporation. */
/* This software is released under the license detailed */
/* in the file, LICENSE, which is located in the top-level Nalu */
/* directory structure */
/*------------------------------------------------------------------------*/
#include <mpi.h>
#include <stk_util/diag/PrintTimer.hpp>
// nalu
#include <NaluParsing.h>
#include <Simulation.h>
#include <NaluEnv.h>
// util
#include <stk_util/environment/CPUTime.hpp>
#include <stk_util/environment/perf_util.hpp>
#include <stk_util/parallel/ParallelReduce.hpp>
// boost for input params
#include <boost/program_options.hpp>
// yaml for parsing..
#include <yaml-cpp/yaml.h>
#include <iostream>
#include <fstream>
#include <iomanip>
#include <stdexcept>
static std::string human_bytes_double(double bytes)
{
const double K = 1024;
const double M = K*1024;
const double G = M*1024;
std::ostringstream out;
if (bytes < K) {
out << bytes << " B";
} else if (bytes < M) {
bytes /= K;
out << bytes << " K";
} else if (bytes < G) {
bytes /= M;
out << bytes << " M";
} else {
bytes /= G;
out << bytes << " G";
}
return out.str();
}
int main( int argc, char ** argv )
{
// start up MPI
if ( MPI_SUCCESS != MPI_Init( &argc , &argv ) ) {
throw std::runtime_error("MPI_Init failed");
}
// NaluEnv singleton
sierra::nalu::NaluEnv &naluEnv = sierra::nalu::NaluEnv::self();
stk::diag::setEnabledTimerMetricsMask(stk::diag::METRICS_CPU_TIME | stk::diag::METRICS_WALL_TIME);
sierra::nalu::Simulation::rootTimer().start();
// start initial time
double start_time = stk::cpu_time();
// command line options.
std::string inputFileName, logFileName;
bool debug = false;
int serializedIOGroupSize = 0;
boost::program_options::options_description desc("Nalu Supported Options");
desc.add_options()
("help,h","Help message")
("version,v", "Code Version 1.0")
("input-deck,i", boost::program_options::value<std::string>(&inputFileName)->default_value("nalu.i"),
"Analysis input file")
("log-file,o", boost::program_options::value<std::string>(&logFileName),
"Analysis log file")
("serialized-io-group-size,s",
boost::program_options::value<int>(&serializedIOGroupSize)->default_value(0),
"Specifies the number of processors which can concurrently perform I/O. Specifying zero disables serialization.")
("debug,D", "debug print on")
("pprint,p", "parallel print on");
boost::program_options::variables_map vm;
boost::program_options::store(boost::program_options::parse_command_line(argc, argv, desc), vm);
boost::program_options::notify(vm);
// deal with some default parameters
if ( vm.count("help") ) {
if (!naluEnv.parallel_rank())
std::cerr << desc << std::endl;
return 0;
}
if (vm.count("version")) {
if (!naluEnv.parallel_rank())
std::cerr << "Version: Nalu1.0" << std::endl;
return 0;
}
if (vm.count("debug")) {
debug = true;
}
std::ifstream fin(inputFileName.c_str());
if (!fin.good()) {
if (!naluEnv.parallel_rank())
std::cerr << "Input file is not specified or does not exist: user specified (or default) name= " << inputFileName << std::endl;
return 0;
}
// deal with logfile name; if none supplied, go with inputFileName.log
if (!vm.count("log-file")) {
int dotPos = inputFileName.rfind(".");
if ( -1 == dotPos ) {
// lacking extension
logFileName = inputFileName + ".log";
}
else {
// with extension; swap with .log
logFileName = inputFileName.substr(0, dotPos) + ".log";
}
}
bool pprint = false;
if (vm.count("pprint")) {
pprint = true;
}
// deal with log file stream
naluEnv.set_log_file_stream(logFileName, pprint);
// proceed with reading input file "document" from YAML
YAML::Node doc;
try {
doc = YAML::LoadFile(inputFileName.c_str());
if (debug) {
if (!naluEnv.parallel_rank())
sierra::nalu::NaluParsingHelper::emit(std::cout, doc);
}
}
catch (YAML::ParserException &e) {
std::cout << e.what() << std::endl;
}
sierra::nalu::Simulation sim(doc);
if (serializedIOGroupSize) {
naluEnv.naluOutputP0() << "Info: found non-zero serialized_io_group_size on command-line= "
<< serializedIOGroupSize << " (takes precedence over input file value)."
<< std::endl;
sim.setSerializedIOGroupSize(serializedIOGroupSize);
}
sim.debug_ = debug;
sim.load(doc);
sim.breadboard();
sim.initialize();
sim.run();
// stop timer
const double stop_time = stk::cpu_time();
const double total_time = stop_time - start_time;
const char* timer_name = "Total Time";
// parallel reduce overall times
double g_sum, g_min, g_max;
stk::all_reduce_min(naluEnv.parallel_comm(), &total_time, &g_min, 1);
stk::all_reduce_max(naluEnv.parallel_comm(), &total_time, &g_max, 1);
stk::all_reduce_sum(naluEnv.parallel_comm(), &total_time, &g_sum, 1);
const int nprocs = naluEnv.parallel_size();
// output total time
naluEnv.naluOutputP0() << "Timing for Simulation: nprocs= " << nprocs << std::endl;
naluEnv.naluOutputP0() << " main() -- " << " \tavg: " << g_sum/double(nprocs)
<< " \tmin: " << g_min << " \tmax: " << g_max << std::endl;
// output memory usage
{
size_t now, hwm;
stk::get_memory_usage(now, hwm);
// min, max, sum
size_t global_now[3] = {now,now,now};
size_t global_hwm[3] = {hwm,hwm,hwm};
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceSum<1>( &global_now[2] ) );
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceMin<1>( &global_now[0] ) );
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceMax<1>( &global_now[1] ) );
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceSum<1>( &global_hwm[2] ) );
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceMin<1>( &global_hwm[0] ) );
stk::all_reduce(naluEnv.parallel_comm(), stk::ReduceMax<1>( &global_hwm[1] ) );
naluEnv.naluOutputP0() << "Memory Overview: " << std::endl;
naluEnv.naluOutputP0() << "nalu memory: total (over all cores) current/high-water mark= "
<< std::setw(15) << human_bytes_double(global_now[2])
<< std::setw(15) << human_bytes_double(global_hwm[2])
<< std::endl;
naluEnv.naluOutputP0() << "nalu memory: min (over all cores) current/high-water mark= "
<< std::setw(15) << human_bytes_double(global_now[0])
<< std::setw(15) << human_bytes_double(global_hwm[0])
<< std::endl;
naluEnv.naluOutputP0() << "nalu memory: max (over all cores) current/high-water mark= "
<< std::setw(15) << human_bytes_double(global_now[1])
<< std::setw(15) << human_bytes_double(global_hwm[1])
<< std::endl;
}
sierra::nalu::Simulation::rootTimer().stop();
//output timings consistent w/ rest of Sierra
stk::diag::Timer & sierra_timer = sierra::nalu::Simulation::rootTimer();
const double elapsed_time = sierra_timer.getMetric<stk::diag::CPUTime>().getAccumulatedLap(false);
stk::diag::Timer & mesh_output_timer = sierra::nalu::Simulation::outputTimer();
double mesh_output_time = mesh_output_timer.getMetric<stk::diag::CPUTime>().getAccumulatedLap(false);
double time_without_output = elapsed_time-mesh_output_time;
stk::parallel_print_time_without_output_and_hwm(naluEnv.parallel_comm(), time_without_output, naluEnv.naluOutputP0());
if (!naluEnv.parallel_rank())
stk::print_timers_and_memory(&timer_name, &total_time, 1 /*num timers*/);
stk::diag::printTimersTable(naluEnv.naluOutputP0(), sierra::nalu::Simulation::rootTimer(),
stk::diag::METRICS_CPU_TIME | stk::diag::METRICS_WALL_TIME,
false, naluEnv.parallel_comm());
// all done
return 0;
}