}
// Load balancing algorithm
- std::string loba_algo("none");
+ std::string loba_algo("simple");
bool bookkeeping = false;
// Application parameters
loba_algorithms_type loba_algorithms;
loba_algorithms_type::loba_algorithms_type()
{
- THIS_INSERT("none", "no load-balancing", process);
- THIS_INSERT("simple", "balance with least loaded neighbor",
- loba_simple);
+ NOL_INSERT("none", "no load-balancing (for testing)", process);
+ NOL_INSERT("simple", "balance with least loaded neighbor", loba_simple);
}
-#if 0
topologies_type topologies;
topologies_type::topologies_type()
{
- THIS_INSERT("none", "no load-balancing", process);
- THIS_INSERT("simple", "balance with least loaded neighbor",
- loba_simple);
+ NOL_INSERT("btree", "binary tree topologym intiial load at root",
+ deployment_btree);
+ NOL_INSERT("clique", "all connected topology", deployment_clique);
+ NOL_INSERT("hcube", "hypercube topology", deployment_hcube);
+ NOL_INSERT("line", "line topology, initial load at one end",
+ deployment_line);
+ NOL_INSERT("ring", "ring topology", deployment_ring);
+ NOL_INSERT("star", "star topology, initial load at center",
+ deployment_star);
+ // NOL_INSERT("torus", "torus topology", deployment_torus);
}
-#endif
} // namespace opt
switch (c) {
case 'a':
opt::loba_algo = optarg;
+ if (!opt::loba_algorithms.exists(opt::loba_algo)) {
+ ERROR1("unknownw load balancing algorithm -- %s",
+ opt::loba_algo.c_str());
+ result = 0;
+ }
break;
case 'b':
opt::bookkeeping = true;
std::istringstream(optarg) >> opt::auto_depl::nhosts;
break;
case 'T':
- opt::auto_depl::topology = optarg;
+ opt::auto_depl::topology = optarg;
+ if (!opt::topologies.exists(opt::auto_depl::topology)) {
+ ERROR1("unknownw topology -- %s",
+ opt::auto_depl::topology.c_str());
+ result = 0;
+ }
break;
case 'V':
opt::version_requested = true;
void opt::print()
{
INFO0(",----[ Simulation parameters ]");
- INFO1("| platform file.......: \"%s\"", opt::platform_file.c_str());
+ INFO1("| log rate.....................: %u", opt::log_rate);
+ INFO1("| platform file................: \"%s\"", opt::platform_file.c_str());
if (opt::auto_depl::enabled) {
- INFO0("| automatic deployment enabled with:");
- INFO1("| topology........: %s", opt::auto_depl::topology.c_str());
- INFO1("| number of hosts.: %u", opt::auto_depl::nhosts);
- INFO1("| initial load....: %g", opt::auto_depl::load);
+ INFO0("| automatic deployment enabled");
+ INFO1("| - topology...................: %s", opt::auto_depl::topology.c_str());
+ INFO1("| - number of hosts............: %u", opt::auto_depl::nhosts);
+ INFO1("| - initial load...............: %g", opt::auto_depl::load);
} else {
- INFO1("| deployment file.....: \"%s\"", opt::deployment_file.c_str());
+ INFO1("| deployment file..............: \"%s\"", opt::deployment_file.c_str());
}
- INFO1("| log rate............: %u", opt::log_rate);
- INFO1("| maxiter.............: %u", opt::maxiter);
- INFO1("| exit on close.......: %s", on_off(opt::exit_on_close));
- INFO1("| bookkeeping.........: %s", on_off(opt::bookkeeping));
- INFO1("| comp. cost factors..: [%s]", opt::comp_cost.to_string().c_str());
- INFO1("| comm. cost factors..: [%s]", opt::comm_cost.to_string().c_str());
+ INFO1("| load balancing algorithm.....: %s", opt::loba_algo.c_str());
+ INFO1("| bookkeeping..................: %s", on_off(opt::bookkeeping));
+ INFO1("| computation cost factors.....: [%s]", opt::comp_cost.to_string().c_str());
+ INFO1("| communication cost factors...: [%s]", opt::comm_cost.to_string().c_str());
+ INFO1("| maximum number of iterations.: %u", opt::maxiter);
+ INFO1("| exit on close................: %s", on_off(opt::exit_on_close));
INFO0("`----");
}
std::clog << o("-T name")
<< "enable automatic deployment with selected topology\n";
if (opt::help_requested > 1)
-#if 0
so_list(opt::topologies);
-#else
- std::clog << so("name") << "FIXME\n"; // fixme
-#endif
std::clog << o("-L value")
<< "total load with auto deployment, 0 for number of hosts"
<< " (" << opt::auto_depl::load << ")\n";