/**************************************************************************
** The Charm++ load balancing framework invokes this method to cause the
** load balancer to migrate objects to "better" PEs.
*/
void GridCommRefineLB::work (LDStats *stats)
{
int i;
// int j;
// CmiBool available;
// CmiBool all_pes_mapped;
// int max_cluster;
// int min_speed;
// int send_object;
// int send_pe;
// int send_cluster;
// int recv_object;
// int recv_pe;
// int recv_cluster;
// LDCommData *com_data;
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommRefineLB is working.\n", CkMyPe());
}
// Since this load balancer looks at communications data, it must call stats->makeCommHash().
stats->makeCommHash ();
// Initialize object variables for the number of PEs and number of objects.
Num_PEs = stats->nprocs();
Num_Objects = stats->n_objs;
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommRefineLB is examining %d PEs and %d objects.\n", CkMyPe(), Num_PEs, Num_Objects);
}
// Initialize the PE_Data[] data structure.
Initialize_PE_Data (stats);
// If at least one available PE does not exist, return from load balancing.
if (Available_PE_Count() < 1) {
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommRefineLB finds no available PEs -- no balancing done.\n", CkMyPe());
}
delete [] PE_Data;
return;
}
// Determine the number of clusters.
// If any PE is not mapped to a cluster, return from load balancing.
Num_Clusters = Compute_Number_Of_Clusters ();
if (Num_Clusters < 1) {
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommRefineLB finds incomplete PE cluster map -- no balancing done.\n", CkMyPe());
}
delete [] PE_Data;
return;
}
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommRefineLB finds %d clusters.\n", CkMyPe(), Num_Clusters);
}
// Initialize the Object_Data[] data structure.
Initialize_Object_Data (stats);
// Examine all object-to-object messages for intra-cluster and inter-cluster communications.
Examine_InterObject_Messages (stats);
// Place objects on the PE they are currently assigned to.
Place_Objects_On_PEs ();
// Remap objects to PEs in each cluster.
for (i = 0; i < Num_Clusters; i++) {
Remap_Objects_To_PEs (i);
}
// Make the assignment of objects to PEs in the load balancer framework.
for (i = 0; i < Num_Objects; i++) {
stats->to_proc[i] = (&Object_Data[i])->to_pe;
if (_lb_args.debug() > 2) {
CkPrintf ("[%d] GridCommRefineLB migrates object %d from PE %d to PE %d.\n", CkMyPe(), i, stats->from_proc[i], stats->to_proc[i]);
} else if (_lb_args.debug() > 1) {
if (stats->to_proc[i] != stats->from_proc[i]) {
CkPrintf ("[%d] GridCommRefineLB migrates object %d from PE %d to PE %d.\n", CkMyPe(), i, stats->from_proc[i], stats->to_proc[i]);
}
}
}
// Free memory.
delete [] Object_Data;
delete [] PE_Data;
}
/**************************************************************************
** The Charm++ load balancing framework invokes this method to cause the
** load balancer to migrate objects to "better" PEs.
*/
void GridCommLB::work (LDStats *stats)
{
int i;
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommLB is working (mode=%d, background load=%d, load tolerance=%f).\n", CkMyPe(), CK_LDB_GridCommLB_Mode, CK_LDB_GridCommLB_Background_Load, CK_LDB_GridCommLB_Load_Tolerance);
}
// Since this load balancer looks at communications data, it must initialize the CommHash.
stats->makeCommHash ();
// Initialize object variables for the number of PEs and number of objects.
Num_PEs = stats->nprocs();
Num_Objects = stats->n_objs;
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommLB is examining %d PEs and %d objects.\n", CkMyPe(), Num_PEs, Num_Objects);
}
// Initialize the PE_Data[] data structure.
Initialize_PE_Data (stats);
// If at least one available PE does not exist, return from load balancing.
if (Available_PE_Count() < 1) {
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommLB finds no available PEs -- no balancing done.\n", CkMyPe());
}
delete [] PE_Data;
return;
}
// Determine the number of clusters.
// If any PE is not mapped to a cluster, return from load balancing.
Num_Clusters = Compute_Number_Of_Clusters ();
if (Num_Clusters < 1) {
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommLB finds incomplete PE cluster map -- no balancing done.\n", CkMyPe());
}
delete [] PE_Data;
return;
}
if (_lb_args.debug() > 0) {
CkPrintf ("[%d] GridCommLB finds %d clusters.\n", CkMyPe(), Num_Clusters);
}
// Initialize the Object_Data[] data structure.
Initialize_Object_Data (stats);
// Examine all object-to-object messages for intra-cluster and inter-cluster communications.
Examine_InterObject_Messages (stats);
// Map non-migratable objects to PEs.
Map_NonMigratable_Objects_To_PEs ();
// Map migratable objects to PEs in each cluster.
for (i = 0; i < Num_Clusters; i++) {
Map_Migratable_Objects_To_PEs (i);
}
// Make the assignment of objects to PEs in the load balancer framework.
for (i = 0; i < Num_Objects; i++) {
stats->to_proc[i] = (&Object_Data[i])->to_pe;
if (_lb_args.debug() > 2) {
CkPrintf ("[%d] GridCommLB migrates object %d from PE %d to PE %d.\n", CkMyPe(), i, stats->from_proc[i], stats->to_proc[i]);
} else if (_lb_args.debug() > 1) {
if (stats->to_proc[i] != stats->from_proc[i]) {
CkPrintf ("[%d] GridCommLB migrates object %d from PE %d to PE %d.\n", CkMyPe(), i, stats->from_proc[i], stats->to_proc[i]);
}
}
}
// Free memory.
delete [] Object_Data;
delete [] PE_Data;
}
