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authorDavid Shah <davey1576@gmail.com>2018-06-20 10:46:14 +0200
committerDavid Shah <davey1576@gmail.com>2018-06-20 10:46:14 +0200
commit1b3432b701152bb3454caa020ee21fe5491995ac (patch)
treea7f949426b8ab0ebd19684ffa0e1510c06722f9c /common
parent7975afc30f737e8468b32285b82db26bf0023d32 (diff)
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place_sa: Refactor to put SA placer in its own class
Signed-off-by: David Shah <davey1576@gmail.com>
Diffstat (limited to 'common')
-rw-r--r--common/place_sa.cc716
1 files changed, 360 insertions, 356 deletions
diff --git a/common/place_sa.cc b/common/place_sa.cc
index 76132e6e..0fead5d8 100644
--- a/common/place_sa.cc
+++ b/common/place_sa.cc
@@ -42,402 +42,406 @@
NEXTPNR_NAMESPACE_BEGIN
-// Initial random placement
-static void place_initial(Context *ctx, CellInfo *cell,
- PlaceValidityChecker *checker)
+class SAPlacer
{
- bool all_placed = false;
- int iters = 25;
- while (!all_placed) {
- BelId best_bel = BelId();
- uint64_t best_score = std::numeric_limits<uint64_t>::max(),
- best_ripup_score = std::numeric_limits<uint64_t>::max();
- CellInfo *ripup_target = nullptr;
- BelId ripup_bel = BelId();
- if (cell->bel != BelId()) {
- ctx->unbindBel(cell->bel);
- cell->bel = BelId();
- }
- BelType targetType = ctx->belTypeFromId(cell->type);
+ public:
+ SAPlacer(Context *ctx) : ctx(ctx)
+ {
+ checker = new PlaceValidityChecker(ctx);
+ int num_bel_types = 0;
for (auto bel : ctx->getBels()) {
- if (ctx->getBelType(bel) == targetType &&
- checker->isValidBelForCell(cell, bel)) {
- if (ctx->checkBelAvail(bel)) {
- uint64_t score = ctx->rng64();
- if (score <= best_score) {
- best_score = score;
- best_bel = bel;
- }
- } else {
- uint64_t score = ctx->rng64();
- if (score <= best_ripup_score) {
- best_ripup_score = score;
- ripup_target =
- ctx->cells.at(ctx->getBelCell(bel, true));
- ripup_bel = bel;
- }
- }
+ int x, y;
+ ctx->estimatePosition(bel, x, y);
+ BelType type = ctx->getBelType(bel);
+ int type_idx;
+ if (bel_types.find(type) == bel_types.end()) {
+ type_idx = num_bel_types++;
+ bel_types[type] = type_idx;
+ } else {
+ type_idx = bel_types.at(type);
}
+ if (int(fast_bels.size()) < type_idx + 1)
+ fast_bels.resize(type_idx + 1);
+ if (int(fast_bels.at(type_idx).size()) < (x + 1))
+ fast_bels.at(type_idx).resize(x + 1);
+ if (int(fast_bels.at(type_idx).at(x).size()) < (y + 1))
+ fast_bels.at(type_idx).at(x).resize(y + 1);
+ max_x = std::max(max_x, x);
+ max_y = std::max(max_y, y);
+ fast_bels.at(type_idx).at(x).at(y).push_back(bel);
}
- if (best_bel == BelId()) {
- if (iters == 0 || ripup_bel == BelId())
- log_error("failed to place cell '%s' of type '%s'\n",
- cell->name.c_str(ctx), cell->type.c_str(ctx));
- --iters;
- ctx->unbindBel(ripup_target->bel);
- ripup_target->bel = BelId();
- best_bel = ripup_bel;
- } else {
- all_placed = true;
- }
- cell->bel = best_bel;
- ctx->bindBel(cell->bel, cell->name);
-
- // Back annotate location
- cell->attrs[ctx->id("BEL")] = ctx->getBelName(cell->bel).str(ctx);
- cell = ripup_target;
+ diameter = std::max(max_x, max_y) + 1;
}
-}
-// Stores the state of the SA placer
-struct SAState
-{
- std::unordered_map<NetInfo *, float> wirelengths;
- float curr_wirelength = std::numeric_limits<float>::infinity();
- float temp = 1000;
- bool improved = false;
- int n_move, n_accept;
- int diameter = 35;
- std::unordered_map<BelType, int> bel_types;
- std::vector<std::vector<std::vector<std::vector<BelId>>>> fast_bels;
- std::unordered_set<BelId> locked_bels;
- PlaceValidityChecker *checker;
-};
+ bool place()
+ {
+ size_t placed_cells = 0;
+ // Initial constraints placer
+ for (auto cell_entry : ctx->cells) {
+ CellInfo *cell = cell_entry.second;
+ auto loc = cell->attrs.find(ctx->id("BEL"));
+ if (loc != cell->attrs.end()) {
+ std::string loc_name = loc->second;
+ BelId bel = ctx->getBelByName(ctx->id(loc_name));
+ if (bel == BelId()) {
+ log_error(
+ "No Bel named \'%s\' located for "
+ "this chip (processing BEL attribute on \'%s\')\n",
+ loc_name.c_str(), cell->name.c_str(ctx));
+ }
-// Get the total estimated wirelength for a net
-static float get_wirelength(Context *ctx, NetInfo *net)
-{
- float wirelength = 0;
- int driver_x = 0, driver_y = 0;
- bool consider_driver = false;
- CellInfo *driver_cell = net->driver.cell;
- if (!driver_cell)
- return 0;
- if (driver_cell->bel == BelId())
- return 0;
- consider_driver =
- ctx->estimatePosition(driver_cell->bel, driver_x, driver_y);
- WireId drv_wire = ctx->getWireBelPin(driver_cell->bel,
- ctx->portPinFromId(net->driver.port));
- if (!consider_driver)
- return 0;
- for (auto load : net->users) {
- if (load.cell == nullptr)
- continue;
- CellInfo *load_cell = load.cell;
- if (load_cell->bel == BelId())
- continue;
- // ctx->estimatePosition(load_cell->bel, load_x, load_y);
- WireId user_wire = ctx->getWireBelPin(load_cell->bel,
- ctx->portPinFromId(load.port));
- // wirelength += std::abs(load_x - driver_x) + std::abs(load_y -
- // driver_y);
- wirelength += ctx->estimateDelay(drv_wire, user_wire);
- }
- return wirelength;
-}
+ BelType bel_type = ctx->getBelType(bel);
+ if (bel_type != ctx->belTypeFromId(cell->type)) {
+ log_error("Bel \'%s\' of type \'%s\' does not match cell "
+ "\'%s\' of type \'%s\'",
+ loc_name.c_str(),
+ ctx->belTypeToId(bel_type).c_str(ctx),
+ cell->name.c_str(ctx), cell->type.c_str(ctx));
+ }
-// Attempt a SA position swap, return true on success or false on failure
-static bool try_swap_position(Context *ctx, CellInfo *cell, BelId newBel,
- SAState &state)
-{
- static std::unordered_set<NetInfo *> update;
- static std::vector<std::pair<NetInfo *, float>> new_lengths;
- new_lengths.clear();
- update.clear();
- BelId oldBel = cell->bel;
- IdString other = ctx->getBelCell(newBel, true);
- CellInfo *other_cell = nullptr;
- float new_wirelength = 0, delta;
- ctx->unbindBel(oldBel);
- if (other != IdString()) {
- other_cell = ctx->cells[other];
- ctx->unbindBel(newBel);
- }
+ cell->bel = bel;
+ ctx->bindBel(bel, cell->name);
+ locked_bels.insert(bel);
+ placed_cells++;
+ }
+ }
+ int constr_placed_cells = placed_cells;
+ log_info("Placed %d cells based on constraints.\n", int(placed_cells));
+
+ // Sort to-place cells for deterministic initial placement
+ std::vector<CellInfo *> autoplaced;
+ for (auto cell : ctx->cells) {
+ CellInfo *ci = cell.second;
+ if (ci->bel == BelId()) {
+ autoplaced.push_back(cell.second);
+ }
+ }
+ std::sort(autoplaced.begin(), autoplaced.end(),
+ [](CellInfo *a, CellInfo *b) { return a->name < b->name; });
+ ctx->shuffle(autoplaced);
- for (const auto &port : cell->ports)
- if (port.second.net != nullptr)
- update.insert(port.second.net);
+ // Place cells randomly initially
+ log_info("Creating initial placement for remaining %d cells.\n",
+ int(autoplaced.size()));
- if (other != IdString()) {
- for (const auto &port : other_cell->ports)
- if (port.second.net != nullptr)
- update.insert(port.second.net);
- }
+ for (auto cell : autoplaced) {
+ place_initial(cell);
+ placed_cells++;
+ if ((placed_cells - constr_placed_cells) % 500 == 0)
+ log_info(" initial placement placed %d/%d cells\n",
+ int(placed_cells - constr_placed_cells),
+ int(autoplaced.size()));
+ }
+ if ((placed_cells - constr_placed_cells) % 500 != 0)
+ log_info(" initial placement placed %d/%d cells\n",
+ int(placed_cells - constr_placed_cells),
+ int(autoplaced.size()));
- ctx->bindBel(newBel, cell->name);
+ log_info("Running simulated annealing placer.\n");
- if (other != IdString()) {
- ctx->bindBel(oldBel, other_cell->name);
- }
+ // Calculate wirelength after initial placement
+ curr_wirelength = 0;
+ for (auto net : ctx->nets) {
+ float wl = get_wirelength(net.second);
+ wirelengths[net.second] = wl;
+ curr_wirelength += wl;
+ }
- if (!state.checker->isBelLocationValid(newBel) ||
- ((other != IdString() && !state.checker->isBelLocationValid(oldBel)))) {
- ctx->unbindBel(newBel);
- if (other != IdString())
- ctx->unbindBel(oldBel);
- goto swap_fail;
- }
+ int n_no_progress = 0;
+ double avg_wirelength = curr_wirelength;
+ temp = 10000;
- cell->bel = newBel;
- if (other != IdString())
- other_cell->bel = oldBel;
+ // Main simulated annealing loop
+ for (int iter = 1;; iter++) {
+ n_move = n_accept = 0;
+ improved = false;
- new_wirelength = state.curr_wirelength;
+ if (iter % 5 == 0 || iter == 1)
+ log_info(" at iteration #%d: temp = %f, wire length = %f\n",
+ iter, temp, curr_wirelength);
+
+ for (int m = 0; m < 15; ++m) {
+ // Loop through all automatically placed cells
+ for (auto cell : autoplaced) {
+ // Find another random Bel for this cell
+ BelId try_bel = random_bel_for_cell(cell);
+ // If valid, try and swap to a new position and see if
+ // the new position is valid/worthwhile
+ if (try_bel != BelId() && try_bel != cell->bel)
+ try_swap_position(cell, try_bel);
+ }
+ }
+ // Heuristic to improve placement on the 8k
+ if (improved)
+ n_no_progress = 0;
+ else
+ n_no_progress++;
+
+ if (temp <= 1e-3 && n_no_progress >= 5) {
+ if (iter % 5 != 0)
+ log_info(
+ " at iteration #%d: temp = %f, wire length = %f\n",
+ iter, temp, curr_wirelength);
+ break;
+ }
- // Recalculate wirelengths for all nets touched by the peturbation
- for (auto net : update) {
- new_wirelength -= state.wirelengths.at(net);
- float net_new_wl = get_wirelength(ctx, net);
- new_wirelength += net_new_wl;
- new_lengths.push_back(std::make_pair(net, net_new_wl));
- }
- delta = new_wirelength - state.curr_wirelength;
- state.n_move++;
- // SA acceptance criterea
- if (delta < 0 ||
- (state.temp > 1e-6 &&
- (ctx->rng() / float(0x3fffffff)) <= std::exp(-delta / state.temp))) {
- state.n_accept++;
- if (delta < 0)
- state.improved = true;
- } else {
- if (other != IdString())
- ctx->unbindBel(oldBel);
- ctx->unbindBel(newBel);
- goto swap_fail;
- }
- state.curr_wirelength = new_wirelength;
- for (auto new_wl : new_lengths)
- state.wirelengths.at(new_wl.first) = new_wl.second;
+ double Raccept = double(n_accept) / double(n_move);
- return true;
-swap_fail:
- ctx->bindBel(oldBel, cell->name);
- cell->bel = oldBel;
- if (other != IdString()) {
- ctx->bindBel(newBel, other);
- other_cell->bel = newBel;
- }
- return false;
-}
+ int M = std::max(max_x, max_y) + 1;
-// Find a random Bel of the correct type for a cell, within the specified
-// diameter
-BelId random_bel_for_cell(Context *ctx, CellInfo *cell, SAState &state)
-{
- BelType targetType = ctx->belTypeFromId(cell->type);
- int x = 0, y = 0;
- ctx->estimatePosition(cell->bel, x, y);
- while (true) {
- int nx = ctx->rng(2 * state.diameter + 1) +
- std::max(x - state.diameter, 0);
- int ny = ctx->rng(2 * state.diameter + 1) +
- std::max(y - state.diameter, 0);
- int beltype_idx = state.bel_types.at(targetType);
- if (nx >= int(state.fast_bels.at(beltype_idx).size()))
- continue;
- if (ny >= int(state.fast_bels.at(beltype_idx).at(nx).size()))
- continue;
- const auto &fb = state.fast_bels.at(beltype_idx).at(nx).at(ny);
- if (fb.size() == 0)
- continue;
- BelId bel = fb.at(ctx->rng(int(fb.size())));
- if (state.locked_bels.find(bel) != state.locked_bels.end())
- continue;
- return bel;
- }
-}
+ double upper = 0.6, lower = 0.4;
-bool place_design_sa(Context *ctx)
-{
- SAState state;
- state.checker = new PlaceValidityChecker(ctx);
- size_t placed_cells = 0;
- std::queue<CellInfo *> visit_cells;
- // Initial constraints placer
- for (auto cell_entry : ctx->cells) {
- CellInfo *cell = cell_entry.second;
- auto loc = cell->attrs.find(ctx->id("BEL"));
- if (loc != cell->attrs.end()) {
- std::string loc_name = loc->second;
- BelId bel = ctx->getBelByName(ctx->id(loc_name));
- if (bel == BelId()) {
- log_error("No Bel named \'%s\' located for "
- "this chip (processing BEL attribute on \'%s\')\n",
- loc_name.c_str(), cell->name.c_str(ctx));
+ if (curr_wirelength < 0.95 * avg_wirelength) {
+ avg_wirelength = 0.8 * avg_wirelength + 0.2 * curr_wirelength;
+ } else {
+ if (Raccept >= 0.8) {
+ temp *= 0.7;
+ } else if (Raccept > upper) {
+ if (diameter < M)
+ diameter++;
+ else
+ temp *= 0.9;
+ } else if (Raccept > lower) {
+ temp *= 0.95;
+ } else {
+ // Raccept < 0.3
+ if (diameter > 1)
+ diameter--;
+ else
+ temp *= 0.8;
+ }
}
+ }
+ // Final post-pacement validitiy check
+ for (auto bel : ctx->getBels()) {
+ if (!checker->isBelLocationValid(bel)) {
+ std::string cell_text = "no cell";
+ IdString cell = ctx->getBelCell(bel, false);
+ if (cell != IdString())
+ cell_text = std::string("cell '") + cell.str(ctx) + "'";
+ log_error("post-placement validity check failed for Bel '%s' "
+ "(%s)",
+ ctx->getBelName(bel).c_str(ctx), cell_text.c_str());
+ }
+ }
+ return true;
+ }
- BelType bel_type = ctx->getBelType(bel);
- if (bel_type != ctx->belTypeFromId(cell->type)) {
- log_error("Bel \'%s\' of type \'%s\' does not match cell "
- "\'%s\' of type \'%s\'",
- loc_name.c_str(),
- ctx->belTypeToId(bel_type).c_str(ctx),
- cell->name.c_str(ctx), cell->type.c_str(ctx));
+ private:
+ // Initial random placement
+ void place_initial(CellInfo *cell)
+ {
+ bool all_placed = false;
+ int iters = 25;
+ while (!all_placed) {
+ BelId best_bel = BelId();
+ uint64_t best_score = std::numeric_limits<uint64_t>::max(),
+ best_ripup_score = std::numeric_limits<uint64_t>::max();
+ CellInfo *ripup_target = nullptr;
+ BelId ripup_bel = BelId();
+ if (cell->bel != BelId()) {
+ ctx->unbindBel(cell->bel);
+ cell->bel = BelId();
+ }
+ BelType targetType = ctx->belTypeFromId(cell->type);
+ for (auto bel : ctx->getBels()) {
+ if (ctx->getBelType(bel) == targetType &&
+ checker->isValidBelForCell(cell, bel)) {
+ if (ctx->checkBelAvail(bel)) {
+ uint64_t score = ctx->rng64();
+ if (score <= best_score) {
+ best_score = score;
+ best_bel = bel;
+ }
+ } else {
+ uint64_t score = ctx->rng64();
+ if (score <= best_ripup_score) {
+ best_ripup_score = score;
+ ripup_target =
+ ctx->cells.at(ctx->getBelCell(bel, true));
+ ripup_bel = bel;
+ }
+ }
+ }
}
+ if (best_bel == BelId()) {
+ if (iters == 0 || ripup_bel == BelId())
+ log_error("failed to place cell '%s' of type '%s'\n",
+ cell->name.c_str(ctx), cell->type.c_str(ctx));
+ --iters;
+ ctx->unbindBel(ripup_target->bel);
+ ripup_target->bel = BelId();
+ best_bel = ripup_bel;
+ } else {
+ all_placed = true;
+ }
+ cell->bel = best_bel;
+ ctx->bindBel(cell->bel, cell->name);
- cell->bel = bel;
- ctx->bindBel(bel, cell->name);
- state.locked_bels.insert(bel);
- placed_cells++;
- visit_cells.push(cell);
+ // Back annotate location
+ cell->attrs[ctx->id("BEL")] = ctx->getBelName(cell->bel).str(ctx);
+ cell = ripup_target;
}
}
- int constr_placed_cells = placed_cells;
- log_info("Placed %d cells based on constraints.\n", int(placed_cells));
-
- // Sort to-place cells for deterministic initial placement
- std::vector<CellInfo *> autoplaced;
- for (auto cell : ctx->cells) {
- CellInfo *ci = cell.second;
- if (ci->bel == BelId()) {
- autoplaced.push_back(cell.second);
+
+ // Get the total estimated wirelength for a net
+ float get_wirelength(NetInfo *net)
+ {
+ float wirelength = 0;
+ int driver_x = 0, driver_y = 0;
+ bool consider_driver = false;
+ CellInfo *driver_cell = net->driver.cell;
+ if (!driver_cell)
+ return 0;
+ if (driver_cell->bel == BelId())
+ return 0;
+ consider_driver =
+ ctx->estimatePosition(driver_cell->bel, driver_x, driver_y);
+ WireId drv_wire = ctx->getWireBelPin(
+ driver_cell->bel, ctx->portPinFromId(net->driver.port));
+ if (!consider_driver)
+ return 0;
+ for (auto load : net->users) {
+ if (load.cell == nullptr)
+ continue;
+ CellInfo *load_cell = load.cell;
+ if (load_cell->bel == BelId())
+ continue;
+ // ctx->estimatePosition(load_cell->bel, load_x, load_y);
+ WireId user_wire = ctx->getWireBelPin(
+ load_cell->bel, ctx->portPinFromId(load.port));
+ // wirelength += std::abs(load_x - driver_x) + std::abs(load_y -
+ // driver_y);
+ wirelength += ctx->estimateDelay(drv_wire, user_wire);
}
+ return wirelength;
}
- std::sort(autoplaced.begin(), autoplaced.end(),
- [](CellInfo *a, CellInfo *b) { return a->name < b->name; });
- ctx->shuffle(autoplaced);
-
- // Place cells randomly initially
- log_info("Creating initial placement for remaining %d cells.\n",
- int(autoplaced.size()));
-
- for (auto cell : autoplaced) {
- place_initial(ctx, cell, state.checker);
- placed_cells++;
- if ((placed_cells - constr_placed_cells) % 500 == 0)
- log_info(" initial placement placed %d/%d cells\n",
- int(placed_cells - constr_placed_cells),
- int(autoplaced.size()));
- }
- if ((placed_cells - constr_placed_cells) % 500 != 0)
- log_info(" initial placement placed %d/%d cells\n",
- int(placed_cells - constr_placed_cells),
- int(autoplaced.size()));
- log_info("Running simulated annealing placer.\n");
-
- // Build up a fast position/type to Bel lookup table
- int max_x = 0, max_y = 0;
- int bel_types = 0;
- for (auto bel : ctx->getBels()) {
- int x, y;
- ctx->estimatePosition(bel, x, y);
- BelType type = ctx->getBelType(bel);
- int type_idx;
- if (state.bel_types.find(type) == state.bel_types.end()) {
- type_idx = bel_types++;
- state.bel_types[type] = type_idx;
- } else {
- type_idx = state.bel_types.at(type);
+ // Attempt a SA position swap, return true on success or false on failure
+ bool try_swap_position(CellInfo *cell, BelId newBel)
+ {
+ static std::unordered_set<NetInfo *> update;
+ static std::vector<std::pair<NetInfo *, float>> new_lengths;
+ new_lengths.clear();
+ update.clear();
+ BelId oldBel = cell->bel;
+ IdString other = ctx->getBelCell(newBel, true);
+ CellInfo *other_cell = nullptr;
+ float new_wirelength = 0, delta;
+ ctx->unbindBel(oldBel);
+ if (other != IdString()) {
+ other_cell = ctx->cells[other];
+ ctx->unbindBel(newBel);
}
- if (int(state.fast_bels.size()) < type_idx + 1)
- state.fast_bels.resize(type_idx + 1);
- if (int(state.fast_bels.at(type_idx).size()) < (x + 1))
- state.fast_bels.at(type_idx).resize(x + 1);
- if (int(state.fast_bels.at(type_idx).at(x).size()) < (y + 1))
- state.fast_bels.at(type_idx).at(x).resize(y + 1);
- max_x = std::max(max_x, x);
- max_y = std::max(max_y, y);
- state.fast_bels.at(type_idx).at(x).at(y).push_back(bel);
- }
- state.diameter = std::max(max_x, max_y) + 1;
-
- // Calculate wirelength after initial placement
- state.curr_wirelength = 0;
- for (auto net : ctx->nets) {
- float wl = get_wirelength(ctx, net.second);
- state.wirelengths[net.second] = wl;
- state.curr_wirelength += wl;
- }
- int n_no_progress = 0;
- double avg_wirelength = state.curr_wirelength;
- state.temp = 10000;
-
- // Main simulated annealing loop
- for (int iter = 1;; iter++) {
- state.n_move = state.n_accept = 0;
- state.improved = false;
-
- if (iter % 5 == 0 || iter == 1)
- log_info(" at iteration #%d: temp = %f, wire length = %f\n", iter,
- state.temp, state.curr_wirelength);
-
- for (int m = 0; m < 15; ++m) {
- // Loop through all automatically placed cells
- for (auto cell : autoplaced) {
- // Find another random Bel for this cell
- BelId try_bel = random_bel_for_cell(ctx, cell, state);
- // If valid, try and swap to a new position and see if
- // the new position is valid/worthwhile
- if (try_bel != BelId() && try_bel != cell->bel)
- try_swap_position(ctx, cell, try_bel, state);
- }
+ for (const auto &port : cell->ports)
+ if (port.second.net != nullptr)
+ update.insert(port.second.net);
+
+ if (other != IdString()) {
+ for (const auto &port : other_cell->ports)
+ if (port.second.net != nullptr)
+ update.insert(port.second.net);
}
- // Heuristic to improve placement on the 8k
- if (state.improved) {
- n_no_progress = 0;
- // std::cout << "improved\n";
- } else
- ++n_no_progress;
-
- if (state.temp <= 1e-3 && n_no_progress >= 5) {
- if (iter % 5 != 0)
- log_info(" at iteration #%d: temp = %f, wire length = %f\n",
- iter, state.temp, state.curr_wirelength);
- break;
+
+ ctx->bindBel(newBel, cell->name);
+
+ if (other != IdString()) {
+ ctx->bindBel(oldBel, other_cell->name);
}
- double Raccept = (double)state.n_accept / (double)state.n_move;
+ if (!checker->isBelLocationValid(newBel) ||
+ ((other != IdString() && !checker->isBelLocationValid(oldBel)))) {
+ ctx->unbindBel(newBel);
+ if (other != IdString())
+ ctx->unbindBel(oldBel);
+ goto swap_fail;
+ }
- int M = std::max(max_x, max_y) + 1;
+ cell->bel = newBel;
+ if (other != IdString())
+ other_cell->bel = oldBel;
- double upper = 0.6, lower = 0.4;
+ new_wirelength = curr_wirelength;
- if (state.curr_wirelength < 0.95 * avg_wirelength)
- avg_wirelength = 0.8 * avg_wirelength + 0.2 * state.curr_wirelength;
- else {
- if (Raccept >= 0.8) {
- state.temp *= 0.7;
- } else if (Raccept > upper) {
- if (state.diameter < M)
- ++state.diameter;
- else
- state.temp *= 0.9;
- } else if (Raccept > lower) {
- state.temp *= 0.95;
- } else {
- // Raccept < 0.3
- if (state.diameter > 1)
- --state.diameter;
- else
- state.temp *= 0.8;
- }
+ // Recalculate wirelengths for all nets touched by the peturbation
+ for (auto net : update) {
+ new_wirelength -= wirelengths.at(net);
+ float net_new_wl = get_wirelength(net);
+ new_wirelength += net_new_wl;
+ new_lengths.push_back(std::make_pair(net, net_new_wl));
+ }
+ delta = new_wirelength - curr_wirelength;
+ n_move++;
+ // SA acceptance criterea
+ if (delta < 0 || (temp > 1e-6 && (ctx->rng() / float(0x3fffffff)) <=
+ std::exp(-delta / temp))) {
+ n_accept++;
+ if (delta < 0)
+ improved = true;
+ } else {
+ if (other != IdString())
+ ctx->unbindBel(oldBel);
+ ctx->unbindBel(newBel);
+ goto swap_fail;
}
+ curr_wirelength = new_wirelength;
+ for (auto new_wl : new_lengths)
+ wirelengths.at(new_wl.first) = new_wl.second;
+
+ return true;
+ swap_fail:
+ ctx->bindBel(oldBel, cell->name);
+ cell->bel = oldBel;
+ if (other != IdString()) {
+ ctx->bindBel(newBel, other);
+ other_cell->bel = newBel;
+ }
+ return false;
}
- for (auto bel : ctx->getBels()) {
- if (!state.checker->isBelLocationValid(bel)) {
- std::string cell_text = "no cell";
- IdString cell = ctx->getBelCell(bel, false);
- if (cell != IdString())
- cell_text = std::string("cell '") + cell.str(ctx) + "'";
- log_error("post-placement validity check failed for Bel '%s' (%s)",
- ctx->getBelName(bel).c_str(ctx), cell_text.c_str());
+
+ // Find a random Bel of the correct type for a cell, within the specified
+ // diameter
+ BelId random_bel_for_cell(CellInfo *cell)
+ {
+ BelType targetType = ctx->belTypeFromId(cell->type);
+ int x = 0, y = 0;
+ ctx->estimatePosition(cell->bel, x, y);
+ while (true) {
+ int nx = ctx->rng(2 * diameter + 1) + std::max(x - diameter, 0);
+ int ny = ctx->rng(2 * diameter + 1) + std::max(y - diameter, 0);
+ int beltype_idx = bel_types.at(targetType);
+ if (nx >= int(fast_bels.at(beltype_idx).size()))
+ continue;
+ if (ny >= int(fast_bels.at(beltype_idx).at(nx).size()))
+ continue;
+ const auto &fb = fast_bels.at(beltype_idx).at(nx).at(ny);
+ if (fb.size() == 0)
+ continue;
+ BelId bel = fb.at(ctx->rng(int(fb.size())));
+ if (locked_bels.find(bel) != locked_bels.end())
+ continue;
+ return bel;
}
}
- delete state.checker;
+
+ Context *ctx;
+ std::unordered_map<NetInfo *, float> wirelengths;
+ float curr_wirelength = std::numeric_limits<float>::infinity();
+ float temp = 1000;
+ bool improved = false;
+ int n_move, n_accept;
+ int diameter = 35, max_x = 1, max_y = 1;
+ std::unordered_map<BelType, int> bel_types;
+ std::vector<std::vector<std::vector<std::vector<BelId>>>> fast_bels;
+ std::unordered_set<BelId> locked_bels;
+ PlaceValidityChecker *checker;
+};
+
+bool place_design_sa(Context *ctx)
+{
+ SAPlacer placer(ctx);
+ placer.place();
return true;
}
generated by cgit v1.2.3 (git 2.25.1) at 2024-07-17 09:32:54 +0000