Example #1
0
int hpx_main(boost::program_options::variables_map& vm)
{
    mini_ghost::profiling::data().time_init(hpx::util::high_resolution_timer::now() - init_start);
    hpx::util::high_resolution_timer timer_all;
    hpx::id_type    here = hpx::find_here();
    std::string     name = hpx::get_locality_name();
    p.rank = hpx::naming::get_locality_id_from_id(here);

    if(p.rank == 0)
    {
        std::cout << "mini ghost started up in " << hpx::util::high_resolution_timer::now() - init_start << " seconds.\n";
    }

    p.nranks = hpx::get_num_localities().get();

    profiling_data_sem.reset(new hpx::lcos::local::counting_semaphore(p.nranks));
    p.setup(vm);

    hpx::id_type stepper_id
        = hpx::components::new_<stepper_type>(hpx::find_here()).get();

    boost::shared_ptr<stepper_type>
        stepper(hpx::get_ptr<stepper_type>(stepper_id).get());

    stepper->init(p);
    mini_ghost::barrier_wait();
    stepper->run(p.num_spikes, p.num_tsteps);
    mini_ghost::barrier_wait();
    if (p.rank==0)
    {
        add_profile(mini_ghost::profiling::data());
        if(p.report_perf)
            mini_ghost::profiling::report(std::cout, profiling_data, p);
        else
            std::cout << "Total runtime: " << timer_all.elapsed() << "\n";
        std::ofstream fs("results.yaml");
        mini_ghost::profiling::report(fs, profiling_data, p);
        std::cout << "finalizing ...\n";
        return hpx::finalize();
    }
    else
    {
        hpx::apply(add_profile_action(), hpx::find_root_locality(), mini_ghost::profiling::data());
        return 0;
    }
}
Example #2
0
int hpx_main(boost::program_options::variables_map& vm)
{
    mini_ghost::profiling::data().time_init(
        hpx::util::high_resolution_timer::now() - init_start);

    hpx::util::high_resolution_timer timer_all;

    hpx::id_type here = hpx::find_here();
    std::string name = hpx::get_locality_name();

    p.rank = hpx::naming::get_locality_id_from_id(here);
    if(p.rank == 0)
    {
        std::cout << "mini ghost started up in "
                  << hpx::util::high_resolution_timer::now() - init_start
                  << " seconds.\n";
    }

    p.nranks = hpx::get_num_localities_sync();

    profiling_data_sem.reset(new hpx::lcos::local::counting_semaphore(p.nranks));
    p.setup(vm);

    // Create the local stepper object, retrieve the local pointer to it
    hpx::id_type stepper_id = hpx::components::new_<stepper_type>(here).get();
    boost::shared_ptr<stepper_type> stepper(
        hpx::get_ptr<stepper_type>(stepper_id).get());

    // Initialize stepper
    stepper->init(p).get();
    mini_ghost::barrier_wait();

    // Perform the actual simulation work
    stepper->run(p.num_spikes, p.num_tsteps);
    mini_ghost::barrier_wait();

    // Output various pieces of information about the run
    if (stepper->get_rank() == 0)
    {
        // Output various pieces of information about the run
        add_profile(mini_ghost::profiling::data());

        if (p.report_perf)
            mini_ghost::profiling::report(std::cout, profiling_data, p);
        else
            std::cout << "Total runtime: " << timer_all.elapsed() << "\n";

        std::ofstream fs("results.yaml");
        mini_ghost::profiling::report(fs, profiling_data, p);
        std::cout << "finalizing ...\n";

        return hpx::finalize();
    }
    else
    {
        // Send performance data from this locality to root
        hpx::apply(add_profile_action(), hpx::find_root_locality(),
            mini_ghost::profiling::data());
        return 0;
    }
}