From 69f2911e04ffb1b19eef1fafb8c040af271f656e Mon Sep 17 00:00:00 2001 From: Tor Aamodt Date: Thu, 15 Jul 2010 18:09:46 -0800 Subject: creating branch for adding support for CUDA 3.x and Fermi [git-p4: depot-paths = "//depot/gpgpu_sim_research/fermi/distribution/": change = 6829] --- .../DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c | 358 +++++++++++++++++++++ 1 file changed, 358 insertions(+) create mode 100644 benchmarks/CUDA/DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c (limited to 'benchmarks/CUDA/DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c') diff --git a/benchmarks/CUDA/DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c b/benchmarks/CUDA/DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c new file mode 100644 index 0000000..58dfcea --- /dev/null +++ b/benchmarks/CUDA/DG/3rdParty/ParMetis-3.1/METISLib/minitpart.c @@ -0,0 +1,358 @@ +/* + * Copyright 1997, Regents of the University of Minnesota + * + * minitpart.c + * + * This file contains code that performs the initial partition of the + * coarsest graph + * + * Started 7/23/97 + * George + * + * $Id: minitpart.c,v 1.2 2003/07/31 16:23:29 karypis Exp $ + * + */ + +#include + +/************************************************************************* +* This function computes the initial bisection of the coarsest graph +**************************************************************************/ +void MocInit2WayPartition(CtrlType *ctrl, GraphType *graph, float *tpwgts, float ubfactor) +{ + int i, dbglvl; + + dbglvl = ctrl->dbglvl; + IFSET(ctrl->dbglvl, DBG_REFINE, ctrl->dbglvl -= DBG_REFINE); + IFSET(ctrl->dbglvl, DBG_MOVEINFO, ctrl->dbglvl -= DBG_MOVEINFO); + + IFSET(ctrl->dbglvl, DBG_TIME, starttimer(ctrl->InitPartTmr)); + + switch (ctrl->IType) { + case IPART_GGPKL: + if (graph->nedges == 0) + MocRandomBisection(ctrl, graph, tpwgts, ubfactor); + else + MocGrowBisection(ctrl, graph, tpwgts, ubfactor); + break; + case IPART_RANDOM: + MocRandomBisection(ctrl, graph, tpwgts, ubfactor); + break; + default: + errexit("Unknown initial partition type: %d\n", ctrl->IType); + } + + IFSET(ctrl->dbglvl, DBG_IPART, printf("Initial Cut: %d\n", graph->mincut)); + IFSET(ctrl->dbglvl, DBG_TIME, stoptimer(ctrl->InitPartTmr)); + ctrl->dbglvl = dbglvl; + +} + + + + + +/************************************************************************* +* This function takes a graph and produces a bisection by using a region +* growing algorithm. The resulting partition is returned in +* graph->where +**************************************************************************/ +void MocGrowBisection(CtrlType *ctrl, GraphType *graph, float *tpwgts, float ubfactor) +{ + int i, j, k, nvtxs, ncon, from, bestcut, mincut, nbfs; + idxtype *bestwhere, *where; + + nvtxs = graph->nvtxs; + + MocAllocate2WayPartitionMemory(ctrl, graph); + where = graph->where; + + bestwhere = idxmalloc(nvtxs, "BisectGraph: bestwhere"); + nbfs = 2*(nvtxs <= ctrl->CoarsenTo ? SMALLNIPARTS : LARGENIPARTS); + bestcut = idxsum(graph->nedges, graph->adjwgt); + + for (; nbfs>0; nbfs--) { + idxset(nvtxs, 1, where); + where[RandomInRange(nvtxs)] = 0; + + MocCompute2WayPartitionParams(ctrl, graph); + + MocInit2WayBalance(ctrl, graph, tpwgts); + + MocFM_2WayEdgeRefine(ctrl, graph, tpwgts, 4); + + MocBalance2Way(ctrl, graph, tpwgts, 1.02); + MocFM_2WayEdgeRefine(ctrl, graph, tpwgts, 4); + + if (bestcut > graph->mincut) { + bestcut = graph->mincut; + idxcopy(nvtxs, where, bestwhere); + if (bestcut == 0) + break; + } + } + + graph->mincut = bestcut; + idxcopy(nvtxs, bestwhere, where); + + GKfree(&bestwhere, LTERM); +} + + + +/************************************************************************* +* This function takes a graph and produces a bisection by using a region +* growing algorithm. The resulting partition is returned in +* graph->where +**************************************************************************/ +void MocRandomBisection(CtrlType *ctrl, GraphType *graph, float *tpwgts, float ubfactor) +{ + int i, ii, j, k, nvtxs, ncon, from, bestcut, mincut, nbfs, qnum; + idxtype *bestwhere, *where, *perm; + int counts[MAXNCON]; + float *nvwgt; + + nvtxs = graph->nvtxs; + ncon = graph->ncon; + nvwgt = graph->nvwgt; + + MocAllocate2WayPartitionMemory(ctrl, graph); + where = graph->where; + + bestwhere = idxmalloc(nvtxs, "BisectGraph: bestwhere"); + nbfs = 2*(nvtxs <= ctrl->CoarsenTo ? SMALLNIPARTS : LARGENIPARTS); + bestcut = idxsum(graph->nedges, graph->adjwgt); + perm = idxmalloc(nvtxs, "BisectGraph: perm"); + + for (; nbfs>0; nbfs--) { + for (i=0; imincut); + for (i=0; incon; i++) + printf("(%.3f %.3f) ", graph->npwgts[i], graph->npwgts[graph->ncon+i]); + printf("]\n"); + */ + + if (bestcut > graph->mincut) { + bestcut = graph->mincut; + idxcopy(nvtxs, where, bestwhere); + if (bestcut == 0) + break; + } + } + + graph->mincut = bestcut; + idxcopy(nvtxs, bestwhere, where); + + GKfree(&bestwhere, &perm, LTERM); +} + + + + +/************************************************************************* +* This function balances two partitions by moving the highest gain +* (including negative gain) vertices to the other domain. +* It is used only when tha unbalance is due to non contigous +* subdomains. That is, the are no boundary vertices. +* It moves vertices from the domain that is overweight to the one that +* is underweight. +**************************************************************************/ +void MocInit2WayBalance(CtrlType *ctrl, GraphType *graph, float *tpwgts) +{ + int i, ii, j, k, l, kwgt, nvtxs, nbnd, ncon, nswaps, from, to, pass, me, cnum, tmp; + idxtype *xadj, *adjncy, *adjwgt, *where, *id, *ed, *bndptr, *bndind; + idxtype *perm, *qnum; + float *nvwgt, *npwgts; + PQueueType parts[MAXNCON][2]; + int higain, oldgain, mincut; + + nvtxs = graph->nvtxs; + ncon = graph->ncon; + xadj = graph->xadj; + adjncy = graph->adjncy; + nvwgt = graph->nvwgt; + adjwgt = graph->adjwgt; + where = graph->where; + id = graph->id; + ed = graph->ed; + npwgts = graph->npwgts; + bndptr = graph->bndptr; + bndind = graph->bndind; + + perm = idxwspacemalloc(ctrl, nvtxs); + qnum = idxwspacemalloc(ctrl, nvtxs); + + /* This is called for initial partitioning so we know from where to pick nodes */ + from = 1; + to = (from+1)%2; + + if (ctrl->dbglvl&DBG_REFINE) { + printf("Parts: ["); + for (l=0; lnvtxs, graph->nbnd, graph->mincut, + Compute2WayHLoadImbalance(ncon, npwgts, tpwgts)); + } + + for (i=0; imincut); + ASSERT(CheckBnd(graph)); + ASSERT(CheckGraph(graph)); + + /* Compute the queues in which each vertex will be assigned to */ + for (i=0; i 0) + PQueueInsert(&parts[qnum[i]][0], i, ed[i]-id[i]); + else + PQueueInsert(&parts[qnum[i]][1], i, ed[i]-id[i]); + } + } + + + mincut = graph->mincut; + nbnd = graph->nbnd; + for (nswaps=0; nswapsdbglvl&DBG_MOVEINFO) { + printf("Moved %6d from %d(%d). [%5d] %5d, NPwgts: ", higain, from, cnum, ed[higain]-id[higain], mincut); + for (l=0; l 0) + printf("\t Pulled from the interior!\n"); + } + + + /************************************************************** + * Update the id[i]/ed[i] values of the affected nodes + ***************************************************************/ + SWAP(id[higain], ed[higain], tmp); + if (ed[higain] == 0 && bndptr[higain] != -1 && xadj[higain] < xadj[higain+1]) + BNDDelete(nbnd, bndind, bndptr, higain); + if (ed[higain] > 0 && bndptr[higain] == -1) + BNDInsert(nbnd, bndind, bndptr, higain); + + for (j=xadj[higain]; j 0 && bndptr[k] == -1) { /* It moves in boundary */ + PQueueDelete(&parts[qnum[k]][1], k, oldgain); + PQueueInsert(&parts[qnum[k]][0], k, ed[k]-id[k]); + } + else { /* It must be in the boundary already */ + if (bndptr[k] == -1) + printf("What you thought was wrong!\n"); + PQueueUpdate(&parts[qnum[k]][0], k, oldgain, ed[k]-id[k]); + } + } + + /* Update its boundary information */ + if (ed[k] == 0 && bndptr[k] != -1) + BNDDelete(nbnd, bndind, bndptr, k); + else if (ed[k] > 0 && bndptr[k] == -1) + BNDInsert(nbnd, bndind, bndptr, k); + } + + ASSERTP(ComputeCut(graph, where) == mincut, ("%d != %d\n", ComputeCut(graph, where), mincut)); + + } + + if (ctrl->dbglvl&DBG_REFINE) { + printf("\tMincut: %6d, NBND: %6d, NPwgts: ", mincut, nbnd); + for (l=0; lmincut = mincut; + graph->nbnd = nbnd; + + for (i=0; imincut); + ASSERT(CheckBnd(graph)); + + idxwspacefree(ctrl, nvtxs); + idxwspacefree(ctrl, nvtxs); +} + + + + +/************************************************************************* +* This function selects the partition number and the queue from which +* we will move vertices out +**************************************************************************/ +int SelectQueueOneWay(int ncon, float *npwgts, float *tpwgts, int from, PQueueType queues[MAXNCON][2]) +{ + int i, cnum=-1; + float max=0.0; + + for (i=0; i= max && + PQueueGetSize(&queues[i][0]) + PQueueGetSize(&queues[i][1]) > 0) { + max = npwgts[from*ncon+i]-tpwgts[0]; + cnum = i; + } + } + + return cnum; +} + + -- cgit v1.3