/* * Copyright 1997, Regents of the University of Minnesota * * makwayfm.c * * This file contains code that performs the k-way refinement * * Started 3/1/96 * George * * $Id: akwayfm.c,v 1.3 2003/07/22 22:58:18 karypis Exp $ */ #include #define ProperSide(c, from, other) \ (((c) == 0 && (from)-(other) < 0) || ((c) == 1 && (from)-(other) > 0)) /************************************************************************* * This function performs k-way refinement **************************************************************************/ void Moc_KWayAdaptiveRefine(CtrlType *ctrl, GraphType *graph, WorkSpaceType *wspace, int npasses) { int h, i, ii, iii, j, k, c; int pass, nvtxs, nedges, ncon; int nmoves, nmoved; int me, firstvtx, lastvtx, yourlastvtx; int from, to = -1, oldto, oldcut, mydomain, yourdomain, imbalanced, overweight; int npes = ctrl->npes, mype = ctrl->mype, nparts = ctrl->nparts; int nlupd, nsupd, nnbrs, nchanged; idxtype *xadj, *ladjncy, *adjwgt, *vtxdist; idxtype *where, *tmp_where, *moved; float *lnpwgts, *gnpwgts, *ognpwgts, *pgnpwgts, *movewgts, *overfill; idxtype *update, *supdate, *rupdate, *pe_updates; idxtype *changed, *perm, *pperm, *htable; idxtype *peind, *recvptr, *sendptr; KeyValueType *swchanges, *rwchanges; RInfoType *rinfo, *myrinfo, *tmp_myrinfo, *tmp_rinfo; EdgeType *tmp_edegrees, *my_edegrees, *your_edegrees; float lbvec[MAXNCON], *nvwgt, *badmaxpwgt, *ubvec, *tpwgts, lbavg, ubavg; float oldgain, gain; float ipc_factor, redist_factor, vsize; int *nupds_pe, ndirty, nclean, dptr; int better, worse; IFSET(ctrl->dbglvl, DBG_TIME, starttimer(ctrl->KWayTmr)); /*************************/ /* set up common aliases */ /*************************/ nvtxs = graph->nvtxs; nedges = graph->nedges; ncon = graph->ncon; vtxdist = graph->vtxdist; xadj = graph->xadj; ladjncy = graph->adjncy; adjwgt = graph->adjwgt; firstvtx = vtxdist[mype]; lastvtx = vtxdist[mype+1]; where = graph->where; rinfo = graph->rinfo; lnpwgts = graph->lnpwgts; gnpwgts = graph->gnpwgts; ubvec = ctrl->ubvec; tpwgts = ctrl->tpwgts; ipc_factor = ctrl->ipc_factor; redist_factor = ctrl->redist_factor; nnbrs = graph->nnbrs; peind = graph->peind; recvptr = graph->recvptr; sendptr = graph->sendptr; changed = idxmalloc(nvtxs, "AKWR: changed"); rwchanges = wspace->pairs; swchanges = rwchanges + recvptr[nnbrs]; /************************************/ /* set up important data structures */ /************************************/ perm = idxmalloc(nvtxs, "AKWR: perm"); pperm = idxmalloc(nparts, "AKWR: pperm"); update = idxmalloc(nvtxs, "AKWR: update"); supdate = wspace->indices; rupdate = supdate + recvptr[nnbrs]; nupds_pe = imalloc(npes, "AKWR: nupds_pe"); htable = idxsmalloc(nvtxs+graph->nrecv, 0, "AKWR: lhtable"); badmaxpwgt = fmalloc(nparts*ncon, "badmaxpwgt"); for (i=0; inrecv, "AKWR: tmp_where"); tmp_rinfo = (RInfoType *)GKmalloc(sizeof(RInfoType)*nvtxs, "AKWR: tmp_rinfo"); tmp_edegrees = (EdgeType *)GKmalloc(sizeof(EdgeType)*nedges, "AKWR: tmp_edegrees"); idxcopy(nvtxs+graph->nrecv, where, tmp_where); for (i=0; imincut; if (mype == 0) RandomPermute(nparts, pperm, 1); MPI_Bcast((void *)pperm, nparts, IDX_DATATYPE, 0, ctrl->comm); /* FastRandomPermute(nvtxs, perm, 1); */ /*****************************/ /* move dirty vertices first */ /*****************************/ ndirty = 0; for (i=0; iwhere, lbvec); ubavg = savg(ncon, ubvec); lbavg = savg(ncon, lbvec); imbalanced = (lbavg > ubavg) ? 1 : 0; for (c=0; c<2; c++) { scopy(ncon*nparts, gnpwgts, ognpwgts); sset(ncon*nparts, 0.0, movewgts); nmoved = 0; /**********************************************/ /* PASS ONE -- record stats for desired moves */ /**********************************************/ for (iii=0; iiinvwgt+i*ncon; vsize = (float)(graph->vsize[i]); for (h=0; h badmaxpwgt[to*ncon+h] && nvwgt[h] > 0.0) break; } if (h == ncon) break; } } oldto = to; /* check if a subdomain was found that fits */ if (k < tmp_rinfo[i].ndegrees) { /**************************/ /**************************/ switch (ctrl->ps_relation) { case COUPLED: better = (oldto == mype) ? 1 : 0; worse = (from == mype) ? 1 : 0; break; case DISCOUPLED: default: better = (oldto == graph->home[i]) ? 1 : 0; worse = (from == graph->home[i]) ? 1 : 0; break; } /**************************/ /**************************/ oldgain = ipc_factor * (float)(my_edegrees[k].ewgt-tmp_rinfo[i].id); if (better) oldgain += redist_factor * vsize; if (worse) oldgain -= redist_factor * vsize; for (j=k+1; jps_relation) { case COUPLED: better = (to == mype) ? 1 : 0; break; case DISCOUPLED: default: better = (to == graph->home[i]) ? 1 : 0; break; } /**************************/ /**************************/ gain = ipc_factor * (float)(my_edegrees[j].ewgt-tmp_rinfo[i].id); if (better) gain += redist_factor * vsize; if (worse) gain -= redist_factor * vsize; for (h=0; h badmaxpwgt[to*ncon+h] && nvwgt[h] > 0.0) break; if (h == ncon) { if (gain > oldgain || (fabs(gain-oldgain) < SMALLFLOAT && IsHBalanceBetterTT(ncon,gnpwgts+oldto*ncon,gnpwgts+to*ncon,nvwgt,ubvec))){ oldgain = gain; oldto = to; k = j; } } } } to = oldto; gain = oldgain; if (gain > 0.0 || (gain > -1.0*SMALLFLOAT && (imbalanced || graph->level > 3 || iii % 8 == 0) && IsHBalanceBetterFT(ncon,gnpwgts+from*ncon,gnpwgts+to*ncon,nvwgt,ubvec))){ /****************************************/ /* Update tmp arrays of the moved vertex */ /****************************************/ tmp_where[i] = to; moved[nmoved++] = i; for (h=0; h= nvtxs) continue; me = ladjncy[j]; mydomain = tmp_where[me]; myrinfo = tmp_rinfo+me; your_edegrees = myrinfo->degrees; if (mydomain == from) { INC_DEC(myrinfo->ed, myrinfo->id, adjwgt[j]); } else { if (mydomain == to) { INC_DEC(myrinfo->id, myrinfo->ed, adjwgt[j]); } } /* Remove contribution from the .ed of 'from' */ if (mydomain != from) { for (k=0; kndegrees; k++) { if (your_edegrees[k].edge == from) { if (your_edegrees[k].ewgt == adjwgt[j]) { myrinfo->ndegrees--; your_edegrees[k].edge = your_edegrees[myrinfo->ndegrees].edge; your_edegrees[k].ewgt = your_edegrees[myrinfo->ndegrees].ewgt; } else { your_edegrees[k].ewgt -= adjwgt[j]; } break; } } } /* Add contribution to the .ed of 'to' */ if (mydomain != to) { for (k=0; kndegrees; k++) { if (your_edegrees[k].edge == to) { your_edegrees[k].ewgt += adjwgt[j]; break; } } if (k == myrinfo->ndegrees) { your_edegrees[myrinfo->ndegrees].edge = to; your_edegrees[myrinfo->ndegrees++].ewgt = adjwgt[j]; } } } } } } /******************************************/ /* Let processors know the subdomain wgts */ /* if all proposed moves commit. */ /******************************************/ MPI_Allreduce((void *)lnpwgts, (void *)pgnpwgts, nparts*ncon, MPI_FLOAT, MPI_SUM, ctrl->comm); /**************************/ /* compute overfill array */ /**************************/ overweight = 0; for (j=0; j ognpwgts[j*ncon+h]) overfill[j*ncon+h] = (pgnpwgts[j*ncon+h]-badmaxpwgt[j*ncon+h]) / (pgnpwgts[j*ncon+h]-ognpwgts[j*ncon+h]); else overfill[j*ncon+h] = 0.0; overfill[j*ncon+h] = amax(overfill[j*ncon+h], 0.0); overfill[j*ncon+h] *= movewgts[j*ncon+h]; if (overfill[j*ncon+h] > 0.0) overweight = 1; ASSERTP(ctrl, ognpwgts[j*ncon+h] <= badmaxpwgt[j*ncon+h] || pgnpwgts[j*ncon+h] <= ognpwgts[j*ncon+h], (ctrl, "%.4f %.4f %.4f\n", ognpwgts[j*ncon+h], badmaxpwgt[j*ncon+h], pgnpwgts[j*ncon+h])); } } /****************************************************/ /* select moves to undo according to overfill array */ /****************************************************/ if (overweight == 1) { for (iii=0; iiinvwgt+i*ncon; my_edegrees = tmp_rinfo[i].degrees; for (k=0; k 0.0 && overfill[oldto*ncon+h] > nvwgt[h]/4.0) break; /**********************************/ /* nullify this move if necessary */ /**********************************/ if (k != tmp_rinfo[i].ndegrees && h != ncon) { moved[iii] = -1; from = oldto; to = where[i]; for (h=0; h= nvtxs) continue; me = ladjncy[j]; mydomain = tmp_where[me]; myrinfo = tmp_rinfo+me; your_edegrees = myrinfo->degrees; if (mydomain == from) { INC_DEC(myrinfo->ed, myrinfo->id, adjwgt[j]); } else { if (mydomain == to) { INC_DEC(myrinfo->id, myrinfo->ed, adjwgt[j]); } } /* Remove contribution from the .ed of 'from' */ if (mydomain != from) { for (k=0; kndegrees; k++) { if (your_edegrees[k].edge == from) { if (your_edegrees[k].ewgt == adjwgt[j]) { myrinfo->ndegrees--; your_edegrees[k].edge = your_edegrees[myrinfo->ndegrees].edge; your_edegrees[k].ewgt = your_edegrees[myrinfo->ndegrees].ewgt; } else { your_edegrees[k].ewgt -= adjwgt[j]; } break; } } } /* Add contribution to the .ed of 'to' */ if (mydomain != to) { for (k=0; kndegrees; k++) { if (your_edegrees[k].edge == to) { your_edegrees[k].ewgt += adjwgt[j]; break; } } if (k == myrinfo->ndegrees) { your_edegrees[myrinfo->ndegrees].edge = to; your_edegrees[myrinfo->ndegrees++].ewgt = adjwgt[j]; } } } } } } /*************************************************/ /* PASS TWO -- commit the remainder of the moves */ /*************************************************/ nlupd = nsupd = nmoves = nchanged = 0; for (iii=0; iiipexadj[i+1]-graph->pexadj[i] > 0) changed[nchanged++] = i; } /* Tell interested pe's the new where[] info for the interface vertices */ CommChangedInterfaceData(ctrl, graph, nchanged, changed, where, swchanges, rwchanges, wspace->pv4); IFSET(ctrl->dbglvl, DBG_RMOVEINFO, rprintf(ctrl, "\t[%d %d], [%.4f], [%d %d %d]\n", pass, c, badmaxpwgt[0], GlobalSESum(ctrl, nmoves), GlobalSESum(ctrl, nsupd), GlobalSESum(ctrl, nlupd))); /*------------------------------------------------------------- / Time to communicate with processors to send the vertices / whose degrees need to be update. /-------------------------------------------------------------*/ /* Issue the receives first */ for (i=0; icomm, ctrl->rreq+i); /* Issue the sends next. This needs some preporcessing */ for (i=0; iimap[supdate[i]]; } iidxsort(nsupd, supdate); for (j=i=0; icomm, ctrl->sreq+i); j = k; } /* OK, now get into the loop waiting for the send/recv operations to finish */ MPI_Waitall(nnbrs, ctrl->rreq, ctrl->statuses); for (i=0; istatuses+i, IDX_DATATYPE, nupds_pe+i); MPI_Waitall(nnbrs, ctrl->sreq, ctrl->statuses); /*------------------------------------------------------------- / Place the recieved to-be updated vertices into update[] /-------------------------------------------------------------*/ for (i=0; idegrees; your_edegrees = tmp_myrinfo->degrees; graph->lmincut -= myrinfo->ed; myrinfo->ndegrees = 0; myrinfo->id = 0; myrinfo->ed = 0; for (j=xadj[i]; jed += adjwgt[j]; for (k=0; kndegrees; k++) { if (my_edegrees[k].edge == yourdomain) { my_edegrees[k].ewgt += adjwgt[j]; your_edegrees[k].ewgt += adjwgt[j]; break; } } if (k == myrinfo->ndegrees) { my_edegrees[k].edge = yourdomain; my_edegrees[k].ewgt = adjwgt[j]; your_edegrees[k].edge = yourdomain; your_edegrees[k].ewgt = adjwgt[j]; myrinfo->ndegrees++; } ASSERT(ctrl, myrinfo->ndegrees <= xadj[i+1]-xadj[i]); ASSERT(ctrl, tmp_myrinfo->ndegrees <= xadj[i+1]-xadj[i]); } else { myrinfo->id += adjwgt[j]; } } graph->lmincut += myrinfo->ed; tmp_myrinfo->id = myrinfo->id; tmp_myrinfo->ed = myrinfo->ed; tmp_myrinfo->ndegrees = myrinfo->ndegrees; } /* finally, sum-up the partition weights */ MPI_Allreduce((void *)lnpwgts, (void *)gnpwgts, nparts*ncon, MPI_FLOAT, MPI_SUM, ctrl->comm); } graph->mincut = GlobalSESum(ctrl, graph->lmincut)/2; if (graph->mincut == oldcut) break; } GKfree((void **)&badmaxpwgt, (void **)&update, (void **)&nupds_pe, (void **)&htable, LTERM); GKfree((void **)&changed, (void **)&pperm, (void **)&perm, (void **)&moved, LTERM); GKfree((void **)&pgnpwgts, (void **)&ognpwgts, (void **)&overfill, (void **)&movewgts, LTERM); GKfree((void **)&tmp_where, (void **)&tmp_rinfo, (void **)&tmp_edegrees, LTERM); IFSET(ctrl->dbglvl, DBG_TIME, stoptimer(ctrl->KWayTmr)); }