示例#1
0
bool augmented_Qgraph_fabric::build_augmented_quotient_graph( PartitionConfig & config, 
                                                              graph_access & G, 
                                                              complete_boundary & boundary, 
                                                              augmented_Qgraph & aqg, 
                                                              unsigned & s, bool rebalance, bool plus) {

        graph_access G_bar;
        boundary.getUnderlyingQuotientGraph(G_bar); 
        if(m_eligible.size() != G.number_of_nodes()) {
                m_eligible.resize(G.number_of_nodes());
                forall_nodes(G, node) {
                        m_eligible[node] = true;
                } endfor
        } else {
示例#2
0
EdgeWeight cycle_refinement::greedy_ultra_model(PartitionConfig & partition_config, 
                graph_access & G, 
                complete_boundary & boundary) {

        augmented_Qgraph_fabric augmented_fabric;
        unsigned s             = partition_config.kaba_internal_no_aug_steps_aug;
        bool something_changed = false;
        bool overloaded        = false;
        unsigned unsucc_count  = 0;

        do {
                augmented_Qgraph aqg;
                augmented_fabric.build_augmented_quotient_graph(partition_config, G, boundary, aqg, s, false);
                something_changed = m_advanced_modelling.compute_vertex_movements_ultra_model(partition_config, 
                                                                                              G,
                                                                                              boundary, 
                                                                                              aqg, 
                                                                                              s, 
                                                                                              false);
                if( something_changed ) {
                        unsucc_count = 0;
                } else {
                        unsucc_count++;
                }

                if(unsucc_count > 2 
                && unsucc_count <= partition_config.kaba_unsucc_iterations 
                && partition_config.kaba_enable_zero_weight_cycles) {
                        something_changed = m_advanced_modelling.compute_vertex_movements_ultra_model(partition_config, 
                                                                                                      G,
                                                                                                      boundary, 
                                                                                                      aqg, 
                                                                                                      s, 
                                                                                                      true);
                }

                if(unsucc_count >= partition_config.kaba_unsucc_iterations ) {
                        graph_access G_bar;
                        boundary.getUnderlyingQuotientGraph(G_bar); 
                        overloaded = false;
                        forall_nodes(G_bar, block) {
                                if(boundary.getBlockWeight(block) > partition_config.upper_bound_partition ) {
                                        overloaded = true;
                                        break;
                                }
                        } endfor
                  
                        if(overloaded) {
                                augmented_Qgraph aqg_rebal;
                                bool movs_allready_performed = augmented_fabric.build_augmented_quotient_graph(partition_config, 
                                                                                                               G, 
                                                                                                               boundary, 
                                                                                                               aqg_rebal, 
                                                                                                               s, true);
                                if(!movs_allready_performed) {
                                        m_advanced_modelling.compute_vertex_movements_rebalance(partition_config, 
                                                                                                G, 
                                                                                                boundary, 
                                                                                                aqg_rebal, s);
                                } // else the fall back solution has been applied
                        }
                }
        } while(unsucc_count < partition_config.kaba_unsucc_iterations || (overloaded));

        return 0; 
}
示例#3
0
EdgeWeight cycle_refinement::greedy_ultra_model_plus(PartitionConfig & partition_config, 
                graph_access & G, 
                complete_boundary & boundary) {
        unsigned s             = partition_config.kaba_internal_no_aug_steps_aug;
        bool something_changed = false;
        bool overloaded        = false;
        
       
        augmented_Qgraph_fabric augmented_fabric;
        bool first_level = true;
        forall_nodes(G, node) {
                if(G.getNodeWeight(node) != 1) {
                        first_level = false;
                        break;
                }
        } endfor

        int unsucc_count = 0;
        do {
                augmented_Qgraph aqg;
                augmented_fabric.build_augmented_quotient_graph(partition_config, G, boundary, aqg, s, false, true);
                something_changed = m_advanced_modelling.compute_vertex_movements_ultra_model(partition_config, 
                                                                                              G, 
                                                                                              boundary, 
                                                                                              aqg, 
                                                                                              s,
                                                                                              false);

                if( something_changed ) {
                        unsucc_count = 0;
                } else {
                        unsucc_count++;
                }

                if(unsucc_count > 2 && unsucc_count < 19) {
                        something_changed = m_advanced_modelling.compute_vertex_movements_ultra_model(partition_config, 
                                                                                                      G, 
                                                                                                      boundary, 
                                                                                                      aqg, 
                                                                                                      s, true);
                }

                if(unsucc_count > 19 && first_level) {
                        graph_access G_bar;
                        boundary.getUnderlyingQuotientGraph(G_bar); 
                        overloaded = false;
                        forall_nodes(G_bar, block) {
                                if(boundary.getBlockWeight(block) > partition_config.upper_bound_partition ) {
                                        overloaded = true;
                                        break;
                                }
                        } endfor
                  
                        if(overloaded) {
                                augmented_Qgraph aqg_rebal;
                                bool moves_performed = augmented_fabric.build_augmented_quotient_graph(partition_config, 
                                                                                                       G, 
                                                                                                       boundary, 
                                                                                                       aqg_rebal, 
                                                                                                       s, true, true);
                                if(!moves_performed) {
                                        m_advanced_modelling.compute_vertex_movements_rebalance(partition_config, 
                                                                                                G, boundary, 
                                                                                                aqg_rebal, s);
                                } // else the fall back solution has been applied
                        }
                       
                }
        } while(unsucc_count < 20 || overloaded);

        return 0; 
}