From 3e40f0b9c3f6c9ebde0a89e35cddaf3405292458 Mon Sep 17 00:00:00 2001 From: David Shah Date: Fri, 7 Dec 2018 15:18:26 +0000 Subject: placer1: New cost calculation infrastructure Signed-off-by: David Shah --- common/placer1.cc | 104 +++++++++++++++++++++++++++++++++++++++++++++++++++++- 1 file changed, 103 insertions(+), 1 deletion(-) diff --git a/common/placer1.cc b/common/placer1.cc index 5b72602f..32986e37 100644 --- a/common/placer1.cc +++ b/common/placer1.cc @@ -47,6 +47,14 @@ NEXTPNR_NAMESPACE_BEGIN class SAPlacer { + private: + struct BoundingBox + { + int x0 = 0, x1 = 0, y0 = 0, y1 = 0; + bool includes(int x, int y) const { return x >= x0 && x <= x1 && y >= y0 && y <= y1; } + wirelen_t hpwl() const { return wirelen_t((x1 - x0) + (y1 - y0)); } + }; + public: SAPlacer(Context *ctx, Placer1Cfg cfg) : ctx(ctx), cfg(cfg) { @@ -494,10 +502,104 @@ class SAPlacer } } + // Return true if a net is to be entirely ignored + inline bool ignore_net(NetInfo *net) + { + return net->driver.cell == nullptr || net->driver.cell->bel == BelId() || + ctx->getBelGlobalBuf(net->driver.cell->bel); + } + + // Get the bounding box for a net + inline BoundingBox get_net_bounds(NetInfo *net) + { + BoundingBox bb; + NPNR_ASSERT(net->driver.cell != nullptr); + Loc dloc = ctx->getBelLocation(net->driver.cell->bel); + bb.x0 = dloc.x; + bb.x1 = dloc.x; + bb.y0 = dloc.y; + bb.y1 = dloc.y; + + for (auto user : net->users) { + if (user.cell->bel == BelId()) + continue; + Loc uloc = ctx->getBelLocation(user.cell->bel); + bb.x0 = std::min(bb.x0, uloc.x); + bb.x1 = std::max(bb.x1, uloc.x); + bb.y0 = std::min(bb.y0, uloc.y); + bb.y1 = std::max(bb.y1, uloc.y); + } + + return bb; + } + + // Get the timing cost for an arc of a net + inline double get_timing_cost(NetInfo *net, size_t user) + { + int cc; + if (net->driver.cell == nullptr) + return 0; + if (ctx->getPortTimingClass(net->driver.cell, net->driver.port, cc) == TMG_IGNORE) + return 0; + auto crit = net_crit.find(net->name); + if (crit == net_crit.end() || crit->second.criticality.empty()) + return 0; + double delay = ctx->getDelayNS(ctx->predictDelay(net, net->users.at(user))); + return delay * std::pow(crit->second.criticality.at(user), crit_exp); + } + + // Set up the cost maps + void setup_costs() + { + for (auto net : sorted(ctx->nets)) { + NetInfo *ni = net.second; + if (ignore_net(ni)) + continue; + net_bounds[ni->name] = get_net_bounds(ni); + net_arc_tcost[ni->name].resize(ni->users.size()); + for (size_t i = 0; i < ni->users.size(); i++) + net_arc_tcost[ni->name][i] = get_timing_cost(ni, i); + } + } + + // Get the total wiring cost for the design + wirelen_t total_wirelen_cost() + { + wirelen_t cost = 0; + for (const auto &net : net_bounds) + cost += net.second.hpwl(); + return cost; + } + + // Get the total timing cost for the design + double total_delay_cost() + { + double cost = 0; + for (const auto &net : net_arc_tcost) { + for (auto arc_cost : net.second) { + cost += arc_cost; + } + } + return cost; + } + + // Map nets to their bounding box (so we can skip recompute for moves that do not exceed the bounds + std::unordered_map net_bounds; + // Map net arcs to their timing cost (criticality * delay ns) + std::unordered_map> net_arc_tcost; + + // Wirelength and timing cost at last and current iteration + wirelen_t last_wirelen_cost, curr_wirelen_cost; + double last_timing_cost, curr_timing_cost; + + // Criticality data from timing analysis + NetCriticalityMap net_crit; + Context *ctx; - wirelen_t curr_metric = std::numeric_limits::max(); float curr_tns = 0; float temp = 1000; + float crit_exp = 8; + float lambda = 0.5; bool improved = false; int n_move, n_accept; int diameter = 35, max_x = 1, max_y = 1; -- cgit v1.2.3