Reading the command file, zdrive.inp.phg.ipm.fixed07 Input values: Zoltan version 3.601 zdrive version 1.0 Total number of Processors = 4 Performing load balance using hypergraph. Parameters: lb_approach partition hypergraph_package phg phg_coarsening_method ipm phg_output_level 1 phg_coarsening_limit 1 num_global_parts 7 phg_coarsepartition_method linear remap 0 Initially distribute input objects in linear fashion (first n/p to process 0, etc). Distribute pins so each process gets full rows. ########################################################## ZOLTAN Load balancing method = 11 (HYPERGRAPH) Starting iteration 1 BEFORE load balancing DRIVER EVAL: load: max 7.000000 min 6.000000 sum 25.000000 DRIVER EVAL: objs: max 7 min 6 sum 25 DRIVER EVAL: cuts: max 12 min 6 sum 36 Zoltan_LB_Eval_Balance Part count: 7 requested, 4 actual , 4 non-empty Zoltan_LB_Eval_Balance Statistics with respect to 4 parts: Zoltan_LB_Eval_Balance Min Max Sum Imbalance Zoltan_LB_Eval_Balance Number of objects : 6 7 25 1.960 Zoltan_LB_Eval_Graph Part count: 7 requested, 4 actual, 4 non-empty Zoltan_LB_Eval_Graph Statistics with respect to 4 parts: Zoltan_LB_Eval_Graph Min Max Sum Imbalance Zoltan_LB_Eval_Graph Number of objects : 6 7 25 1.96 Zoltan_LB_Eval_Graph Statistics with respect to 4 parts: Zoltan_LB_Eval_Graph Min Max Average Sum Zoltan_LB_Eval_Graph Num boundary objects : 5 6 5.5 22 Zoltan_LB_Eval_Graph Number of cut edges : 6 12 9 36 Zoltan_LB_Eval_Graph Num Nbor Parts : 1 2 1.5 6 Zoltan_LB_Eval_HG Part count: 7 requested, 4 actual, 4 non-empty Zoltan_LB_Eval_HG Statistics with respect to 4 parts: Zoltan_LB_Eval_HG Min Max Sum Imbalance Zoltan_LB_Eval_HG Number of objects : 6 7 25 1.960 Zoltan_LB_Eval_HG Object weight : 6 7 25 1.960 Zoltan_LB_Eval_HG CUTN (Sum_edges( (#parts(edge)>1)*ewgt )): 22.000 Zoltan_LB_Eval_HG CUTL (Sum_edges( (#parts(edge)-1)*ewgt )): 30.000 Zoltan_LB_Eval_HG CUTL-MAX (Max_parts( comm. volume ): 10.000 Build configuration: ZOLTAN_ID_TYPE: unsigned long (8 bytes) ZOLTAN_GNO_TYPE: ssize_t, (8 bytes) MPI_Datatype for ZOLTAN_ID_TYPE: MPI_UNSIGNED_LONG MPI_Datatype for ZOLTAN_GNO_TYPE: MPI_LONG Third party library: ParMetis version 3.1 Third party library: PTScotch Third party library: Scotch ZOLTAN Parameter IMBALANCE_TOL[0] = 1.100000 ZOLTAN Parameter AUTO_MIGRATE = FALSE ZOLTAN Parameter MIGRATE_ONLY_PROC_CHANGES = 1 ZOLTAN Parameter OBJ_WEIGHT_DIM = 0 ZOLTAN Parameter EDGE_WEIGHT_DIM = 0 ZOLTAN Parameter DEBUG_LEVEL = 1 ZOLTAN Parameter DEBUG_PROCESSOR = 0 ZOLTAN Parameter DETERMINISTIC = TRUE ZOLTAN Parameter TIMER = 1 (wall) ZOLTAN Parameter NUM_GID_ENTRIES = 1 ZOLTAN Parameter NUM_LID_ENTRIES = 1 ZOLTAN Parameter RETURN_LISTS = IMPORT AND EXPORT ZOLTAN Parameter NUM_GLOBAL_PARTS = 7 ZOLTAN Parameter NUM_LOCAL_PARTS = -1 ZOLTAN Parameter REMAP = 0 ZOLTAN Parameter SEED = 1220988223 (1220988223) ZOLTAN Parameter LB_APPROACH = PARTITION ZOLTAN Parameter HYPERGRAPH_PACKAGE = PHG ZOLTAN Parameter PHG_MULTILEVEL = 1 ZOLTAN Parameter PHG_CUT_OBJECTIVE = connectivity ZOLTAN Parameter PHG_OUTPUT_LEVEL = 1 ZOLTAN Parameter FINAL_OUTPUT = 0 ZOLTAN Parameter CHECK_GRAPH = 0 ZOLTAN Parameter CHECK_HYPERGRAPH = 0 ZOLTAN Parameter PHG_NPROC_VERTEX = -1 ZOLTAN Parameter PHG_NPROC_EDGE = -1 ZOLTAN Parameter PHG_COARSENING_LIMIT = 1 ZOLTAN Parameter PHG_COARSENING_NCANDIDATE = 100 ZOLTAN Parameter PHG_COARSENING_METHOD = IPM ZOLTAN Parameter PHG_COARSENING_METHOD_FAST = l-ipm ZOLTAN Parameter PHG_VERTEX_VISIT_ORDER = 0 ZOLTAN Parameter PHG_EDGE_SCALING = 0 ZOLTAN Parameter PHG_VERTEX_SCALING = 0 ZOLTAN Parameter PHG_COARSEPARTITION_METHOD = LINEAR ZOLTAN Parameter PHG_REFINEMENT_METHOD = fm2 ZOLTAN Parameter PHG_DIRECT_KWAY = 0 ZOLTAN Parameter PHG_REFINEMENT_LOOP_LIMIT = 10 ZOLTAN Parameter PHG_REFINEMENT_MAX_NEG_MOVE = 250 ZOLTAN Parameter PHG_REFINEMENT_QUALITY = 1.000000 ZOLTAN Parameter PHG_USE_TIMERS = 0 ZOLTAN Parameter USE_TIMERS = 0 ZOLTAN Parameter PHG_EDGE_SIZE_THRESHOLD = 0.250000 ZOLTAN Parameter PHG_MATCH_EDGE_SIZE_THRESHOLD = 500 ZOLTAN Parameter PHG_BAL_TOL_ADJUSTMENT = 0.700000 ZOLTAN Parameter PHG_EDGE_WEIGHT_OPERATION = max ZOLTAN Parameter PARKWAY_SERPART = patoh ZOLTAN Parameter ADD_OBJ_WEIGHT = none ZOLTAN Parameter PHG_RANDOMIZE_INPUT = 0 ZOLTAN Parameter PHG_PROCESSOR_REDUCTION_LIMIT = 0.000000 ZOLTAN Parameter PHG_REPART_MULTIPLIER = 100.000000 ZOLTAN Parameter HYBRID_REDUCTION_FACTOR = 0.100000 ZOLTAN Parameter HYBRID_REDUCTION_LEVELS = 2147483647 ZOLTAN Parameter PATOH_ALLOC_POOL0 = 0 ZOLTAN Parameter PATOH_ALLOC_POOL1 = 0 | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 0 |V|= 12 |E|= 12 #pins= 27 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 0 |V|= 12 |E|= 13 #pins= 23 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 0 |V|= 13 |E|= 13 #pins= 31 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 0 |V|= 13 |E|= 12 #pins= 24 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 1 |V|= 6 |E|= 14 #pins= 19 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 1 |V|= 8 |E|= 14 #pins= 29 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 1 |V|= 6 |E|= 11 #pins= 16 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 1 |V|= 8 |E|= 11 #pins= 20 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 2 |V|= 3 |E|= 4 #pins= 3 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 2 |V|= 5 |E|= 4 #pins= 10 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 2 |V|= 5 |E|= 12 #pins= 19 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 2 |V|= 3 |E|= 12 #pins= 12 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 3 |V|= 2 |E|= 3 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 3 |V|= 2 |E|= 3 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 3 |V|= 2 |E|= 2 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 3 |V|= 2 |E|= 2 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 4 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 4 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->START 5 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 2, 2] ->START 5 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 1, 1)/[ 2, 2] ->START 5 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->START 5 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 1, 0)/[ 2, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 5 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 5 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 5 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 5 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 4 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 4 |V|= 1 |E|= 1 #pins= 1 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 3 |V|= 2 |E|= 3 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 3 |V|= 2 |E|= 3 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 3 |V|= 2 |E|= 2 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 3 |V|= 2 |E|= 2 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.75 cutl=0.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 2 |V|= 3 |E|= 4 #pins= 3 1/IPM/LINEAR/fm2 p=2 bal=1.19 cutl=15.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 2 |V|= 5 |E|= 4 #pins= 10 1/IPM/LINEAR/fm2 p=2 bal=1.19 cutl=15.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 2 |V|= 3 |E|= 12 #pins= 12 1/IPM/LINEAR/fm2 p=2 bal=1.19 cutl=15.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 2 |V|= 5 |E|= 12 #pins= 19 1/IPM/LINEAR/fm2 p=2 bal=1.19 cutl=15.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 1 |V|= 6 |E|= 14 #pins= 19 1/IPM/LINEAR/fm2 p=2 bal=1.05 cutl=15.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 1 |V|= 8 |E|= 14 #pins= 29 1/IPM/LINEAR/fm2 p=2 bal=1.05 cutl=15.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 1 |V|= 6 |E|= 11 #pins= 16 1/IPM/LINEAR/fm2 p=2 bal=1.05 cutl=15.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 1 |V|= 8 |E|= 11 #pins= 20 1/IPM/LINEAR/fm2 p=2 bal=1.05 cutl=15.00 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 0 |V|= 12 |E|= 12 #pins= 27 1/IPM/LINEAR/fm2 p=2 bal=1.03 cutl=14.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 0 |V|= 13 |E|= 12 #pins= 24 1/IPM/LINEAR/fm2 p=2 bal=1.03 cutl=14.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 0 |V|= 12 |E|= 13 #pins= 23 1/IPM/LINEAR/fm2 p=2 bal=1.03 cutl=14.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 0 |V|= 13 |E|= 13 #pins= 31 1/IPM/LINEAR/fm2 p=2 bal=1.03 cutl=14.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->Rdivide(0, 6): 14.0 | 2/ 4|: ( 0, 1)/[ 2, 2] ->Rdivide(0, 6): 14.0 | 0/ 4|: ( 0, 0)/[ 2, 2] ->Rdivide(0, 6): 14.0 | 3/ 4|: ( 1, 1)/[ 2, 2] ->Rdivide(0, 6): 14.0 | 2/ 4|: ( 0, 1)/[ 2, 2] ->Left: H(2, 8, 0) ----> H(0, 0, 0) Weights=(14.00, 11.00) | 3/ 4|: ( 1, 1)/[ 2, 2] ->Left: H(12, 8, 26) ----> H(0, 0, 0) Weights=(14.00, 11.00) | 0/ 4|: ( 0, 0)/[ 2, 2] ->Left: H(2, 9, 6) ----> H(14, 9, 31) Weights=(14.00, 11.00) | 1/ 4|: ( 1, 0)/[ 2, 2] ->Left: H(12, 9, 23) ----> H(14, 8, 24) Weights=(14.00, 11.00) | 1/ 4|: ( 1, 0)/[ 2, 2] ->Right: H(1, 8, 1) ----> H(0, 0, 0) Weights=(14.00, 11.00) | 1/ 4|: ( 1, 0)/[ 2, 2] ->Left: H(14, 8, 24) OldI: 1.10 NewI: 1.12 | 0/ 4|: ( 0, 0)/[ 2, 2] ->Right: H(10, 8, 19) ----> H(0, 0, 0) Weights=(14.00, 11.00) | 0/ 4|: ( 0, 0)/[ 2, 2] ->Left: H(14, 9, 31) OldI: 1.10 NewI: 1.12 | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 0 |V|= 14 |E|= 9 #pins= 31 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 0 |V|= 14 |E|= 8 #pins= 24 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 1)/[ 2, 2] ->Right: H(10, 7, 21) ----> H(11, 8, 23) Weights=(14.00, 11.00) | 3/ 4|: ( 1, 1)/[ 2, 2] ->Right: H(1, 7, 2) ----> H(11, 7, 20) Weights=(14.00, 11.00) | 2/ 4|: ( 0, 1)/[ 2, 2] ->Right: H(11, 8, 23) OldI: 1.10 NewI: 1.07 | 3/ 4|: ( 1, 1)/[ 2, 2] ->Right: H(11, 7, 20) OldI: 1.10 NewI: 1.07 | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 0 |V|= 11 |E|= 8 #pins= 23 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 0 |V|= 11 |E|= 7 #pins= 20 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 1 |V|= 8 |E|= 6 #pins= 19 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 1 |V|= 8 |E|= 7 #pins= 19 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 1 |V|= 6 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 1 |V|= 6 |E|= 6 #pins= 16 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 2 |V|= 5 |E|= 2 #pins= 7 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 2 |V|= 5 |E|= 6 #pins= 14 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 2 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 2 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 3 |V|= 3 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 3 |V|= 3 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 3 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 3 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 4 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 4 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->START 5 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->START 5 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 4 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=0.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->Local Ratio Cut= 7.00 Global Ratio Cut= 7.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->Local Ratio Cut= 7.00 Global Ratio Cut= 7.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 3 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 3 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=0.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 5 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 5 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 4 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 4 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 2 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 2 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 3 |V|= 3 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 3 |V|= 3 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 1 |V|= 6 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 1 |V|= 6 |E|= 6 #pins= 16 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 0 |V|= 11 |E|= 8 #pins= 23 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 0 |V|= 11 |E|= 7 #pins= 20 1/IPM/LINEAR/fm2 p=2 bal=1.09 cutl=4.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 2 |V|= 5 |E|= 2 #pins= 7 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=11.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 2 |V|= 5 |E|= 6 #pins= 14 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=11.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->Rdivide(4, 6): 4.0 | 3/ 4|: ( 0, 1)/[ 1, 2] ->Rdivide(4, 6): 4.0 | 2/ 4|: ( 0, 0)/[ 1, 2] ->Left: H(8, 7, 20) OldI: 1.07 NewI: 0.98 | 3/ 4|: ( 0, 1)/[ 1, 2] ->Left: H(8, 6, 12) OldI: 1.07 NewI: 0.98 | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 0 |V|= 8 |E|= 7 #pins= 20 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 0 |V|= 8 |E|= 6 #pins= 12 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 1 |V|= 8 |E|= 6 #pins= 19 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=11.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 1 |V|= 8 |E|= 7 #pins= 19 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=11.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 0 |V|= 14 |E|= 9 #pins= 31 1/IPM/LINEAR/fm2 p=2 bal=1.00 cutl=10.00 | 1/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 0 |V|= 14 |E|= 8 #pins= 24 1/IPM/LINEAR/fm2 p=2 bal=1.00 cutl=10.00 | 0/ 4|: ( 0, 0)/[ 1, 2] ->Rdivide(0, 3): 10.0 | 1/ 4|: ( 0, 1)/[ 1, 2] ->Rdivide(0, 3): 10.0 | 0/ 4|: ( 0, 0)/[ 1, 2] ->Left: H(7, 4, 9) ----> H(7, 8, 19) Weights=(7.00, 7.00) | 1/ 4|: ( 0, 1)/[ 1, 2] ->Left: H(7, 4, 10) ----> H(0, 0, 0) Weights=(7.00, 7.00) | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 1 |V|= 4 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 1 |V|= 4 |E|= 4 #pins= 9 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 2] ->Right: H(7, 6, 18) ----> H(0, 0, 0) Weights=(7.00, 7.00) | 0/ 4|: ( 0, 0)/[ 1, 2] ->Left: H(7, 8, 19) OldI: 1.12 NewI: 1.12 | 1/ 4|: ( 0, 1)/[ 1, 2] ->Right: H(7, 4, 9) ----> H(7, 10, 27) Weights=(7.00, 7.00) | 0/ 4|: ( 0, 0)/[ 1, 1] ->START 0 |V|= 7 |E|= 8 #pins= 19 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 1)/[ 1, 2] ->Right: H(7, 10, 27) OldI: 1.12 NewI: 1.12 | 1/ 4|: ( 0, 0)/[ 1, 1] ->START 0 |V|= 7 |E|= 10 #pins= 27 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->START 1 |V|= 5 |E|= 5 #pins= 11 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 0)/[ 1, 1] ->START 1 |V|= 4 |E|= 6 #pins= 14 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 0)/[ 1, 1] ->START 2 |V|= 3 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->START 2 |V|= 4 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2... | 1/ 4|: ( 0, 0)/[ 1, 1] ->START 3 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->START 3 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->START 4 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->Local Ratio Cut= 7.00 Global Ratio Cut= 7.00 | 0/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 4 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->START 4 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 0/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 3 |V|= 3 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.71 cutl=2.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->Local Ratio Cut= 7.00 Global Ratio Cut= 7.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 4 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.43 cutl=4.00 | 0/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 2 |V|= 4 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.43 cutl=5.00 | 0/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 1 |V|= 5 |E|= 5 #pins= 11 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=5.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 3 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.43 cutl=4.00 | 0/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 0 |V|= 7 |E|= 8 #pins= 19 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=5.00 | 0/ 4|: ( 0, 0)/[ 1, 1] ->Rdivide(0, 1): 5.0 | 1/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 2 |V|= 3 |E|= 2 #pins= 4 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=8.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 1 |V|= 4 |E|= 6 #pins= 14 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=8.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->FINAL 0 |V|= 7 |E|= 10 #pins= 27 1/IPM/LINEAR/fm2 p=2 bal=1.14 cutl=8.00 | 1/ 4|: ( 0, 0)/[ 1, 1] ->Rdivide(2, 3): 8.0 | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 2 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 2 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->START 3 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 3/ 4|: ( 0, 1)/[ 1, 2] ->START 3 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2... | 2/ 4|: ( 0, 0)/[ 1, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->Local Ratio Cut= 0.00 Global Ratio Cut= 0.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 3 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=2.00 cutl=0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 3 |V|= 1 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=2.00 cutl=0.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 2 |V|= 2 |E|= 0 #pins= 0 1/IPM/LINEAR/fm2 p=2 bal=2.00 cutl=0.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 2 |V|= 2 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=2.00 cutl=0.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 1 |V|= 4 |E|= 1 #pins= 2 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=4.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 1 |V|= 4 |E|= 4 #pins= 9 1/IPM/LINEAR/fm2 p=2 bal=1.50 cutl=4.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->FINAL 0 |V|= 8 |E|= 7 #pins= 20 1/IPM/LINEAR/fm2 p=2 bal=1.25 cutl=4.00 | 3/ 4|: ( 0, 1)/[ 1, 2] ->FINAL 0 |V|= 8 |E|= 6 #pins= 12 1/IPM/LINEAR/fm2 p=2 bal=1.25 cutl=4.00 | 2/ 4|: ( 0, 0)/[ 1, 2] ->Rdivide(4, 5): 4.0 | 3/ 4|: ( 0, 1)/[ 1, 2] ->Rdivide(4, 5): 4.0 | 0/ 4|: ( 0, 0)/[ 2, 2] ->FINAL 0 |V|= 12 |E|= 12 #pins= 27 IPM/LINEAR/fm2 p=7 bal=1.40 cutl=45.00 | 1/ 4|: ( 1, 0)/[ 2, 2] ->FINAL 0 |V|= 13 |E|= 12 #pins= 24 IPM/LINEAR/fm2 p=7 bal=1.40 cutl=45.00 | 2/ 4|: ( 0, 1)/[ 2, 2] ->FINAL 0 |V|= 12 |E|= 13 #pins= 23 IPM/LINEAR/fm2 p=7 bal=1.40 cutl=45.00 | 3/ 4|: ( 1, 1)/[ 2, 2] ->FINAL 0 |V|= 13 |E|= 13 #pins= 31 IPM/LINEAR/fm2 p=7 bal=1.40 cutl=45.00 Proc 1: Calls to malloc = 4211, Calls to free = 4211 Proc 2: Calls to malloc = 3551, Calls to free = 3551 Proc 3: Calls to malloc = 3647, Calls to free = 3647 Proc 0: Calls to malloc = 4077, Calls to free = 4077 DRIVER: Zoltan_LB_Partition time = 0.0937231 DRIVER: new_decomp 1 Min/Max Import: 3 9 DRIVER: new_decomp 1 Min/Max Export: 5 7 DRIVER: Total migration time = 0.00197816 0: All fixed objects are correct. AFTER load balancing DRIVER EVAL: load: max 9.000000 min 4.000000 sum 25.000000 DRIVER EVAL: objs: max 9 min 4 sum 25 DRIVER EVAL: cuts: max 19 min 6 sum 50 Zoltan_LB_Eval_Balance Part count: 7 requested, 7 actual , 7 non-empty Zoltan_LB_Eval_Balance Statistics with respect to 7 parts: Zoltan_LB_Eval_Balance Min Max Sum Imbalance Zoltan_LB_Eval_Balance Number of objects : 3 5 25 1.400 Zoltan_LB_Eval_Graph Part count: 7 requested, 7 actual, 7 non-empty Zoltan_LB_Eval_Graph Statistics with respect to 7 parts: Zoltan_LB_Eval_Graph Min Max Sum Imbalance Zoltan_LB_Eval_Graph Number of objects : 3 5 25 1.4 Zoltan_LB_Eval_Graph Statistics with respect to 7 parts: Zoltan_LB_Eval_Graph Min Max Average Sum Zoltan_LB_Eval_Graph Num boundary objects : 3 4 3.43 24 Zoltan_LB_Eval_Graph Number of cut edges : 5 10 7.43 52 Zoltan_LB_Eval_Graph Num Nbor Parts : 3 5 4.29 30 Zoltan_LB_Eval_HG Part count: 7 requested, 7 actual, 7 non-empty Zoltan_LB_Eval_HG Statistics with respect to 7 parts: Zoltan_LB_Eval_HG Min Max Sum Imbalance Zoltan_LB_Eval_HG Number of objects : 3 5 25 1.400 Zoltan_LB_Eval_HG Object weight : 3 5 25 1.400 Zoltan_LB_Eval_HG CUTN (Sum_edges( (#parts(edge)>1)*ewgt )): 24.000 Zoltan_LB_Eval_HG CUTL (Sum_edges( (#parts(edge)-1)*ewgt )): 45.000 Zoltan_LB_Eval_HG CUTL-MAX (Max_parts( comm. volume ): 17.000 FILE zdrive.inp.phg.ipm.fixed07: Total: 9.372306e-02 seconds in Partitioning FILE zdrive.inp.phg.ipm.fixed07: Average: 9.372306e-02 seconds per Iteration