diff options
Diffstat (limited to 'common')
| -rw-r--r-- | common/nextpnr.cc | 22 | ||||
| -rw-r--r-- | common/nextpnr.h | 8 | ||||
| -rw-r--r-- | common/place_common.cc | 8 | ||||
| -rw-r--r-- | common/place_common.h | 3 | ||||
| -rw-r--r-- | common/placer1.cc | 21 | ||||
| -rw-r--r-- | common/placer_heap.cc | 67 |
6 files changed, 88 insertions, 41 deletions
diff --git a/common/nextpnr.cc b/common/nextpnr.cc index 9a73affc..dd1ebc59 100644 --- a/common/nextpnr.cc +++ b/common/nextpnr.cc @@ -223,6 +223,28 @@ void CellInfo::unsetParam(IdString name) { params.erase(name); } void CellInfo::setAttr(IdString name, Property value) { attrs[name] = value; } void CellInfo::unsetAttr(IdString name) { attrs.erase(name); } +bool CellInfo::isConstrained(bool include_abs_z_constr) const +{ + return constr_parent != nullptr || !constr_children.empty() || (include_abs_z_constr && constr_abs_z); +} + +bool CellInfo::testRegion(BelId bel) const +{ + return region == nullptr || !region->constr_bels || region->bels.count(bel); +} +Loc CellInfo::getConstrainedLoc(Loc parent_loc) const +{ + NPNR_ASSERT(constr_parent != nullptr); + Loc cloc = parent_loc; + if (constr_x != UNCONSTR) + cloc.x += constr_x; + if (constr_y != UNCONSTR) + cloc.y += constr_y; + if (constr_z != UNCONSTR) + cloc.z = constr_abs_z ? constr_z : (parent_loc.z + constr_z); + return cloc; +} + std::string Property::to_string() const { if (is_string) { diff --git a/common/nextpnr.h b/common/nextpnr.h index c2fe5192..ed227fb6 100644 --- a/common/nextpnr.h +++ b/common/nextpnr.h @@ -664,6 +664,14 @@ struct CellInfo : ArchCellInfo void unsetParam(IdString name); void setAttr(IdString name, Property value); void unsetAttr(IdString name); + + // return true if the cell has placement constraints (optionally excluding the case where the only case is an + // absolute z constraint) + bool isConstrained(bool include_abs_z_constr = true) const; + // check whether a bel complies with the cell's region constraint + bool testRegion(BelId bel) const; + // get the constrained location for this cell given a provisional location for its parent + Loc getConstrainedLoc(Loc parent_loc) const; }; enum TimingPortClass diff --git a/common/place_common.cc b/common/place_common.cc index e5b48ffb..31b93420 100644 --- a/common/place_common.cc +++ b/common/place_common.cc @@ -536,12 +536,4 @@ int get_constraints_distance(const Context *ctx, const CellInfo *cell) return dist; } -bool check_cell_bel_region(const CellInfo *cell, BelId bel) -{ - if (cell->region != nullptr && cell->region->constr_bels && !cell->region->bels.count(bel)) - return false; - else - return true; -} - NEXTPNR_NAMESPACE_END diff --git a/common/place_common.h b/common/place_common.h index fa5ce4c2..434233fd 100644 --- a/common/place_common.h +++ b/common/place_common.h @@ -50,9 +50,6 @@ bool legalise_relative_constraints(Context *ctx); // Get the total distance from satisfied constraints for a cell int get_constraints_distance(const Context *ctx, const CellInfo *cell); -// Check that a Bel is within the region for a cell -bool check_cell_bel_region(const CellInfo *cell, BelId bel); - NEXTPNR_NAMESPACE_END #endif diff --git a/common/placer1.cc b/common/placer1.cc index 270430e9..837010fe 100644 --- a/common/placer1.cc +++ b/common/placer1.cc @@ -504,12 +504,12 @@ class SAPlacer { static const double epsilon = 1e-20; moveChange.reset(this); - if (!require_legal && is_constrained(cell)) + if (!require_legal && cell->isConstrained(false)) return false; BelId oldBel = cell->bel; CellInfo *other_cell = ctx->getBoundBelCell(newBel); if (!require_legal && other_cell != nullptr && - (is_constrained(other_cell) || other_cell->belStrength > STRENGTH_WEAK)) { + (other_cell->isConstrained(false) || other_cell->belStrength > STRENGTH_WEAK)) { return false; } int old_dist = get_constraints_distance(ctx, cell); @@ -589,11 +589,6 @@ class SAPlacer return false; } - inline bool is_constrained(CellInfo *cell) - { - return cell->constr_parent != nullptr || !cell->constr_children.empty(); - } - // Swap the Bel of a cell with another, return the original location BelId swap_cell_bels(CellInfo *cell, BelId newBel) { @@ -605,9 +600,9 @@ class SAPlacer if (bound != nullptr) ctx->unbindBel(newBel); ctx->unbindBel(oldBel); - ctx->bindBel(newBel, cell, is_constrained(cell) ? STRENGTH_STRONG : STRENGTH_WEAK); + ctx->bindBel(newBel, cell, cell->isConstrained(false) ? STRENGTH_STRONG : STRENGTH_WEAK); if (bound != nullptr) { - ctx->bindBel(oldBel, bound, is_constrained(bound) ? STRENGTH_STRONG : STRENGTH_WEAK); + ctx->bindBel(oldBel, bound, bound->isConstrained(false) ? STRENGTH_STRONG : STRENGTH_WEAK); if (cfg.netShareWeight > 0) update_nets_by_tile(bound, ctx->getBelLocation(newBel), ctx->getBelLocation(oldBel)); } @@ -658,7 +653,7 @@ class SAPlacer // We don't consider swapping chains with other chains, at least for the time being - unless it is // part of this chain if (bound != nullptr && !cells.count(bound->name) && - (bound->belStrength >= STRENGTH_STRONG || is_constrained(bound))) + (bound->belStrength >= STRENGTH_STRONG || bound->isConstrained(false))) return false; dest_bels.emplace_back(std::make_pair(cr.first, targetBel)); } @@ -676,12 +671,12 @@ class SAPlacer add_move_cell(moveChange, bound, db.second); } for (const auto &mm : moves_made) { - if (!ctx->isBelLocationValid(mm.first->bel) || !check_cell_bel_region(mm.first, mm.first->bel)) + if (!ctx->isBelLocationValid(mm.first->bel) || !mm.first->testRegion(mm.first->bel)) goto swap_fail; if (!ctx->isBelLocationValid(mm.second)) goto swap_fail; CellInfo *bound = ctx->getBoundBelCell(mm.second); - if (bound && !check_cell_bel_region(bound, bound->bel)) + if (bound && !bound->testRegion(bound->bel)) goto swap_fail; } compute_cost_changes(moveChange); @@ -752,7 +747,7 @@ class SAPlacer if (loc.z != force_z) continue; } - if (!check_cell_bel_region(cell, bel)) + if (!cell->testRegion(bel)) continue; if (locked_bels.find(bel) != locked_bels.end()) continue; diff --git a/common/placer_heap.cc b/common/placer_heap.cc index 92caaf09..8a3b427f 100644 --- a/common/placer_heap.cc +++ b/common/placer_heap.cc @@ -222,6 +222,7 @@ class HeAPPlacer // Heuristic: don't bother with threading below a certain size auto solve_startt = std::chrono::high_resolution_clock::now(); + // Build the connectivity matrix and run the solver; multithreaded between x and y axes if applicable #ifndef NPNR_DISABLE_THREADS if (solve_cells.size() >= 500) { boost::thread xaxis([&]() { build_solve_direction(false, (iter == 0) ? -1 : iter); }); @@ -240,6 +241,7 @@ class HeAPPlacer update_all_chains(); + // Run the spreader for (const auto &group : cfg.cellGroups) CutSpreader(this, group).run(); @@ -248,6 +250,7 @@ class HeAPPlacer [type](const std::unordered_set<BelBucketId> &grp) { return !grp.count(type); })) CutSpreader(this, {type}).run(); + // Run strict legalisation to find a valid bel for all cells update_all_chains(); spread_hpwl = total_hpwl(); legalise_placement_strict(true); @@ -263,6 +266,7 @@ class HeAPPlacer std::chrono::duration<double>(run_stopt - run_startt).count()); } + // Update timing weights if (cfg.timing_driven) get_criticalities(ctx, &net_crit); @@ -851,6 +855,8 @@ class HeAPPlacer log_error("Unable to find legal placement for cell '%s', check constraints and utilisation.\n", ctx->nameOf(ci)); + // Determine a search radius around the solver location (which increases over time) that is clamped to + // the region constraint for the cell (if applicable) int rx = radius, ry = radius; if (ci->region != nullptr) { @@ -864,14 +870,18 @@ class HeAPPlacer 1); } + // Pick a random X and Y location within our search radius int nx = ctx->rng(2 * rx + 1) + std::max(cell_locs.at(ci->name).x - rx, 0); int ny = ctx->rng(2 * ry + 1) + std::max(cell_locs.at(ci->name).y - ry, 0); iter++; iter_at_radius++; if (iter >= (10 * (radius + 1))) { + // No luck yet, increase radius radius = std::min(std::max(max_x, max_y), radius + 1); while (radius < std::max(max_x, max_y)) { + // Keep increasing the radius until it will actually increase the number of cells we are + // checking (e.g. BRAM and DSP will not be in all cols/rows), so we don't waste effort for (int x = std::max(0, cell_locs.at(ci->name).x - radius); x <= std::min(max_x, cell_locs.at(ci->name).x + radius); x++) { if (x >= int(fb->size())) @@ -890,6 +900,8 @@ class HeAPPlacer iter_at_radius = 0; iter = 0; } + // If our randomly chosen cooridnate is out of bounds; or points to a tile with no relevant bels; ignore + // it if (nx < 0 || nx > max_x) continue; if (ny < 0 || ny > max_y) @@ -902,8 +914,11 @@ class HeAPPlacer if (fb->at(nx).at(ny).empty()) continue; + // The number of attempts to find a location to try int need_to_explore = 2 * radius; + // If we have found at least one legal location; and made enough attempts; assume it's good enough and + // finish if (iter_at_radius >= need_to_explore && bestBel != BelId()) { CellInfo *bound = ctx->getBoundBelCell(bestBel); if (bound != nullptr) { @@ -919,27 +934,37 @@ class HeAPPlacer } if (ci->constr_children.empty() && !ci->constr_abs_z) { + // The case where we have no relative constraints for (auto sz : fb->at(nx).at(ny)) { - if (ci->region != nullptr && ci->region->constr_bels && !ci->region->bels.count(sz)) + // Look through all bels in this tile; checking region constraint if applicable + if (!ci->testRegion(sz)) continue; + // Prefer available bels; unless we are dealing with a wide radius (e.g. difficult control sets) + // or occasionally trigger a tiebreaker if (ctx->checkBelAvail(sz) || (radius > ripup_radius || ctx->rng(20000) < 10)) { CellInfo *bound = ctx->getBoundBelCell(sz); if (bound != nullptr) { - if (bound->constr_parent != nullptr || !bound->constr_children.empty() || - bound->constr_abs_z) + // Only rip up cells without constraints + if (bound->isConstrained()) continue; ctx->unbindBel(bound->bel); } + // Provisionally bind the bel ctx->bindBel(sz, ci, STRENGTH_WEAK); if (require_validity && !ctx->isBelLocationValid(sz)) { + // New location is not legal; unbind the cell (and rebind the cell we ripped up if + // applicable) ctx->unbindBel(sz); if (bound != nullptr) ctx->bindBel(sz, bound, STRENGTH_WEAK); } else if (iter_at_radius < need_to_explore) { + // It's legal, but we haven't tried enough locations yet ctx->unbindBel(sz); if (bound != nullptr) ctx->bindBel(sz, bound, STRENGTH_WEAK); int input_len = 0; + // Compute a fast input wirelength metric at this bel; and save if better than our last + // try for (auto &port : ci->ports) { auto &p = port.second; if (p.type != PORT_IN || p.net == nullptr || p.net->driver.cell == nullptr) @@ -958,6 +983,7 @@ class HeAPPlacer } break; } else { + // It's legal, and we've tried enough. Finish. if (bound != nullptr) remaining.emplace(chain_size[bound->name], bound->name); Loc loc = ctx->getBelLocation(sz); @@ -969,44 +995,49 @@ class HeAPPlacer } } } else { + // We do have relative constraints for (auto sz : fb->at(nx).at(ny)) { Loc loc = ctx->getBelLocation(sz); + // Check that the absolute-z constraint is satisfied if applicable if (ci->constr_abs_z && loc.z != ci->constr_z) continue; + // List of cells and their destination std::vector<std::pair<CellInfo *, BelId>> targets; + // List of bels we placed things at; and the cell that was there before if applicable std::vector<std::pair<BelId, CellInfo *>> swaps_made; + // List of (cell, new location) pairs to check std::queue<std::pair<CellInfo *, Loc>> visit; + // FIXME: this approach of having a visit queue is designed to deal with recursively chained + // cells. But is this a case we really want to care about given the complexity it adds? Start by + // considering the root cell at the root location visit.emplace(ci, loc); while (!visit.empty()) { CellInfo *vc = visit.front().first; NPNR_ASSERT(vc->bel == BelId()); Loc ploc = visit.front().second; visit.pop(); + // Get the bel we're going to place this cell at BelId target = ctx->getBelByLocation(ploc); - if (vc->region != nullptr && vc->region->constr_bels && !vc->region->bels.count(target)) + // Check it satisfies the region constraint if applicable + if (!vc->testRegion(target)) goto fail; CellInfo *bound; + // Check that the target bel exists and is of a suitable type if (target == BelId() || !ctx->isValidBelForCellType(vc->type, target)) goto fail; bound = ctx->getBoundBelCell(target); - // Chains cannot overlap + // Chains cannot overlap; so if we have to ripup a cell make sure it isn't part of a chain if (bound != nullptr) - if (bound->constr_z != bound->UNCONSTR || bound->constr_parent != nullptr || - !bound->constr_children.empty() || bound->belStrength > STRENGTH_WEAK) + if (bound->isConstrained() || bound->belStrength > STRENGTH_WEAK) goto fail; targets.emplace_back(vc, target); for (auto child : vc->constr_children) { - Loc cloc = ploc; - if (child->constr_x != child->UNCONSTR) - cloc.x += child->constr_x; - if (child->constr_y != child->UNCONSTR) - cloc.y += child->constr_y; - if (child->constr_z != child->UNCONSTR) - cloc.z = child->constr_abs_z ? child->constr_z : (ploc.z + child->constr_z); - visit.emplace(child, cloc); + // For all the constrained children; compute the location we need to place them at and + // add them to the queue + visit.emplace(child, child->getConstrainedLoc(ploc)); } } - + // Actually perform the move; keeping track of the moves we make so we can revert them if needed for (auto &target : targets) { CellInfo *bound = ctx->getBoundBelCell(target.second); if (bound != nullptr) @@ -1014,7 +1045,7 @@ class HeAPPlacer ctx->bindBel(target.second, target.first, STRENGTH_STRONG); swaps_made.emplace_back(target.second, bound); } - + // Check that the move we have made is legal for (auto &sm : swaps_made) { if (!ctx->isBelLocationValid(sm.first)) goto fail; @@ -1022,6 +1053,7 @@ class HeAPPlacer if (false) { fail: + // If the move turned out to be illegal; revert all the moves we made for (auto &swap : swaps_made) { ctx->unbindBel(swap.first); if (swap.second != nullptr) @@ -1036,6 +1068,7 @@ class HeAPPlacer // log_info("%s %d %d %d\n", target.first->name.c_str(ctx), loc.x, loc.y, loc.z); } for (auto &swap : swaps_made) { + // Where we have ripped up cells; add them to the queue if (swap.second != nullptr) remaining.emplace(chain_size[swap.second->name], swap.second->name); } |