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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Claire Xen <claire@symbioticeda.com>
* Copyright (C) 2021 William D. Jones <wjones@wdj-consulting.com>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#include <iostream>
#include <math.h>
#include "embed.h"
#include "nextpnr.h"
#include "placer1.h"
#include "placer_heap.h"
#include "router1.h"
#include "router2.h"
#include "util.h"
NEXTPNR_NAMESPACE_BEGIN
// -----------------------------------------------------------------------
void IdString::initialize_arch(const BaseCtx *ctx)
{
#define X(t) initialize_add(ctx, #t, ID_##t);
#include "constids.inc"
#undef X
}
// ---------------------------------------------------------------
static const ChipInfoPOD *get_chip_info(ArchArgs::ArchArgsTypes chip)
{
std::string chipdb;
if (chip == ArchArgs::LCMXO2_256HC) {
chipdb = "machxo2/chipdb-256.bin";
} else if (chip == ArchArgs::LCMXO2_640HC) {
chipdb = "machxo2/chipdb-640.bin";
} else if (chip == ArchArgs::LCMXO2_1200HC) {
chipdb = "machxo2/chipdb-1200.bin";
} else if (chip == ArchArgs::LCMXO2_2000HC) {
chipdb = "machxo2/chipdb-2000.bin";
} else if (chip == ArchArgs::LCMXO2_4000HC) {
chipdb = "machxo2/chipdb-4000.bin";
} else if (chip == ArchArgs::LCMXO2_7000HC) {
chipdb = "machxo2/chipdb-7000.bin";
} else {
log_error("Unknown chip\n");
}
auto ptr = reinterpret_cast<const RelPtr<ChipInfoPOD> *>(get_chipdb(chipdb));
if (ptr == nullptr)
return nullptr;
return ptr->get();
}
// ---------------------------------------------------------------
Arch::Arch(ArchArgs args) : args(args)
{
chip_info = get_chip_info(args.type);
if (chip_info == nullptr)
log_error("Unsupported MachXO2 chip type.\n");
if (chip_info->const_id_count != DB_CONST_ID_COUNT)
log_error("Chip database 'bba' and nextpnr code are out of sync; please rebuild (or contact distribution "
"maintainer)!\n");
package_info = nullptr;
for (int i = 0; i < chip_info->num_packages; i++) {
if (args.package == chip_info->package_info[i].name.get()) {
package_info = &(chip_info->package_info[i]);
break;
}
}
if (!package_info)
log_error("Unsupported package '%s' for '%s'.\n", args.package.c_str(), getChipName().c_str());
BaseArch::init_cell_types();
BaseArch::init_bel_buckets();
for (int i = 0; i < chip_info->width; i++)
x_ids.push_back(id(stringf("X%d", i)));
for (int i = 0; i < chip_info->height; i++)
y_ids.push_back(id(stringf("Y%d", i)));
for (int i = 0; i < chip_info->width; i++) {
IdString x_id = id(stringf("X%d", i));
x_ids.push_back(x_id);
id_to_x[x_id] = i;
}
for (int i = 0; i < chip_info->height; i++) {
IdString y_id = id(stringf("Y%d", i));
y_ids.push_back(y_id);
id_to_y[y_id] = i;
}
}
bool Arch::is_available(ArchArgs::ArchArgsTypes chip) { return get_chip_info(chip) != nullptr; }
std::vector<std::string> Arch::get_supported_packages(ArchArgs::ArchArgsTypes chip)
{
const ChipInfoPOD *chip_info = get_chip_info(chip);
std::vector<std::string> pkgs;
for (int i = 0; i < chip_info->num_packages; i++) {
pkgs.push_back(chip_info->package_info[i].name.get());
}
return pkgs;
}
std::string Arch::getChipName() const
{
if (args.type == ArchArgs::LCMXO2_256HC) {
return "LCMXO2-256HC";
} else if (args.type == ArchArgs::LCMXO2_640HC) {
return "LCMXO2-640HC";
} else if (args.type == ArchArgs::LCMXO2_1200HC) {
return "LCMXO2-1200HC";
} else if (args.type == ArchArgs::LCMXO2_2000HC) {
return "LCMXO2-2000HC";
} else if (args.type == ArchArgs::LCMXO2_4000HC) {
return "LCMXO2-4000HC";
} else if (args.type == ArchArgs::LCMXO2_7000HC) {
return "LCMXO2-7000HC";
} else {
log_error("Unknown chip\n");
}
}
std::string Arch::get_full_chip_name() const
{
std::string name = getChipName();
name += "-";
switch (args.speed) {
case ArchArgs::SPEED_1:
name += "1";
break;
case ArchArgs::SPEED_2:
name += "2";
break;
case ArchArgs::SPEED_3:
name += "3";
break;
case ArchArgs::SPEED_4:
name += "4";
break;
case ArchArgs::SPEED_5:
name += "5";
break;
case ArchArgs::SPEED_6:
name += "6";
break;
}
name += args.package;
return name;
}
IdString Arch::archArgsToId(ArchArgs args) const
{
if (args.type == ArchArgs::LCMXO2_256HC) {
return id("lcmxo2_256hc");
} else if (args.type == ArchArgs::LCMXO2_640HC) {
return id("lcmxo2_640hc");
} else if (args.type == ArchArgs::LCMXO2_1200HC) {
return id("lcmxo2_1200hc");
} else if (args.type == ArchArgs::LCMXO2_2000HC) {
return id("lcmxo2_2000hc");
} else if (args.type == ArchArgs::LCMXO2_4000HC) {
return id("lcmxo2_4000hc");
} else if (args.type == ArchArgs::LCMXO2_7000HC) {
return id("lcmxo2_7000hc");
}
return IdString();
}
// ---------------------------------------------------------------
BelId Arch::getBelByName(IdStringList name) const
{
if (name.size() != 3)
return BelId();
BelId ret;
Location loc;
loc.x = id_to_x.at(name[0]);
loc.y = id_to_y.at(name[1]);
ret.location = loc;
const TileTypePOD *loci = tile_info(ret);
for (int i = 0; i < loci->num_bels; i++) {
if (std::strcmp(loci->bel_data[i].name.get(), name[2].c_str(this)) == 0) {
ret.index = i;
return ret;
}
}
return BelId();
}
BelId Arch::getBelByLocation(Loc loc) const
{
BelId ret;
if (loc.x >= chip_info->width || loc.y >= chip_info->height)
return BelId();
ret.location.x = loc.x;
ret.location.y = loc.y;
const TileTypePOD *tilei = tile_info(ret);
for (int i = 0; i < tilei->num_bels; i++) {
if (tilei->bel_data[i].z == loc.z) {
ret.index = i;
return ret;
}
}
return BelId();
}
BelRange Arch::getBelsByTile(int x, int y) const
{
BelRange br;
br.b.cursor_tile = y * chip_info->width + x;
br.e.cursor_tile = y * chip_info->width + x;
br.b.cursor_index = 0;
br.e.cursor_index = chip_info->tiles[y * chip_info->width + x].num_bels - 1;
br.b.chip = chip_info;
br.e.chip = chip_info;
if (br.e.cursor_index == -1)
++br.e.cursor_index;
else
++br.e;
return br;
}
bool Arch::getBelGlobalBuf(BelId bel) const { return false; }
WireId Arch::getBelPinWire(BelId bel, IdString pin) const
{
NPNR_ASSERT(bel != BelId());
int num_bel_wires = tile_info(bel)->bel_data[bel.index].num_bel_wires;
const BelWirePOD *bel_wires = &*tile_info(bel)->bel_data[bel.index].bel_wires;
for (int i = 0; i < num_bel_wires; i++)
if (bel_wires[i].port == pin.index) {
WireId ret;
ret.location.x = bel_wires[i].rel_wire_loc.x;
ret.location.y = bel_wires[i].rel_wire_loc.y;
ret.index = bel_wires[i].wire_index;
return ret;
}
return WireId();
}
PortType Arch::getBelPinType(BelId bel, IdString pin) const
{
NPNR_ASSERT(bel != BelId());
int num_bel_wires = tile_info(bel)->bel_data[bel.index].num_bel_wires;
const BelWirePOD *bel_wires = &*tile_info(bel)->bel_data[bel.index].bel_wires;
for (int i = 0; i < num_bel_wires; i++)
if (bel_wires[i].port == pin.index)
return PortType(bel_wires[i].dir);
return PORT_INOUT;
}
std::vector<IdString> Arch::getBelPins(BelId bel) const
{
std::vector<IdString> ret;
NPNR_ASSERT(bel != BelId());
int num_bel_wires = tile_info(bel)->bel_data[bel.index].num_bel_wires;
const BelWirePOD *bel_wires = &*tile_info(bel)->bel_data[bel.index].bel_wires;
for (int i = 0; i < num_bel_wires; i++) {
IdString id(bel_wires[i].port);
ret.push_back(id);
}
return ret;
}
// ---------------------------------------------------------------
BelId Arch::getPackagePinBel(const std::string &pin) const
{
for (int i = 0; i < package_info->num_pins; i++) {
if (package_info->pin_data[i].name.get() == pin) {
BelId bel;
bel.location = package_info->pin_data[i].abs_loc;
bel.index = package_info->pin_data[i].bel_index;
return bel;
}
}
return BelId();
}
// ---------------------------------------------------------------
WireId Arch::getWireByName(IdStringList name) const
{
if (name.size() != 3)
return WireId();
WireId ret;
Location loc;
loc.x = id_to_x.at(name[0]);
loc.y = id_to_y.at(name[1]);
ret.location = loc;
const TileTypePOD *loci = tile_info(ret);
for (int i = 0; i < loci->num_wires; i++) {
if (std::strcmp(loci->wire_data[i].name.get(), name[2].c_str(this)) == 0) {
ret.index = i;
return ret;
}
}
return WireId();
}
// ---------------------------------------------------------------
PipId Arch::getPipByName(IdStringList name) const
{
if (name.size() != 3)
return PipId();
auto it = pip_by_name.find(name);
if (it != pip_by_name.end())
return it->second;
PipId ret;
Location loc;
std::string basename;
loc.x = id_to_x.at(name[0]);
loc.y = id_to_y.at(name[1]);
ret.location = loc;
const TileTypePOD *loci = tile_info(ret);
for (int i = 0; i < loci->num_pips; i++) {
PipId curr;
curr.location = loc;
curr.index = i;
pip_by_name[getPipName(curr)] = curr;
}
if (pip_by_name.find(name) == pip_by_name.end())
NPNR_ASSERT_FALSE_STR("no pip named " + name.str(getCtx()));
return pip_by_name[name];
}
IdStringList Arch::getPipName(PipId pip) const
{
auto &pip_data = tile_info(pip)->pips_data[pip.index];
WireId src = getPipSrcWire(pip), dst = getPipDstWire(pip);
const char *src_name = tile_info(src)->wire_data[src.index].name.get();
const char *dst_name = tile_info(dst)->wire_data[dst.index].name.get();
std::string pip_name =
stringf("%d_%d_%s->%d_%d_%s", pip_data.src.x - pip.location.x, pip_data.src.y - pip.location.y, src_name,
pip_data.dst.x - pip.location.x, pip_data.dst.y - pip.location.y, dst_name);
std::array<IdString, 3> ids{x_ids.at(pip.location.x), y_ids.at(pip.location.y), id(pip_name)};
return IdStringList(ids);
}
// ---------------------------------------------------------------
delay_t Arch::estimateDelay(WireId src, WireId dst) const
{
// Taxicab distance multiplied by pipDelay (0.01) and fake wireDelay (0.01).
// TODO: This function will not work well for entrance to global routing,
// as the entrances are located physically far from the DCCAs.
return (abs(dst.location.x - src.location.x) + abs(dst.location.y - src.location.y)) * (0.01 + 0.01);
}
delay_t Arch::predictDelay(const NetInfo *net_info, const PortRef &sink) const
{
BelId src = net_info->driver.cell->bel;
BelId dst = sink.cell->bel;
NPNR_ASSERT(src != BelId());
NPNR_ASSERT(dst != BelId());
// TODO: Same deal applies here as with estimateDelay.
return (abs(dst.location.x - src.location.x) + abs(dst.location.y - src.location.y)) * (0.01 + 0.01);
}
ArcBounds Arch::getRouteBoundingBox(WireId src, WireId dst) const
{
ArcBounds bb;
bb.x0 = std::min(src.location.x, dst.location.x);
bb.y0 = std::min(src.location.y, dst.location.y);
bb.x1 = std::max(src.location.x, dst.location.x);
bb.y1 = std::max(src.location.y, dst.location.y);
return bb;
}
// ---------------------------------------------------------------
bool Arch::place()
{
std::string placer = str_or_default(settings, id("placer"), defaultPlacer);
if (placer == "sa") {
bool retVal = placer1(getCtx(), Placer1Cfg(getCtx()));
getCtx()->settings[getCtx()->id("place")] = 1;
archInfoToAttributes();
return retVal;
} else if (placer == "heap") {
PlacerHeapCfg cfg(getCtx());
cfg.ioBufTypes.insert(id_FACADE_IO);
bool retVal = placer_heap(getCtx(), cfg);
getCtx()->settings[getCtx()->id("place")] = 1;
archInfoToAttributes();
return retVal;
} else {
log_error("MachXO2 architecture does not support placer '%s'\n", placer.c_str());
}
}
bool Arch::route()
{
std::string router = str_or_default(settings, id("router"), defaultRouter);
bool result;
if (router == "router1") {
result = router1(getCtx(), Router1Cfg(getCtx()));
} else if (router == "router2") {
router2(getCtx(), Router2Cfg(getCtx()));
result = true;
} else {
log_error("MachXO2 architecture does not support router '%s'\n", router.c_str());
}
getCtx()->settings[getCtx()->id("route")] = 1;
archInfoToAttributes();
return result;
}
// ---------------------------------------------------------------
bool Arch::isBelLocationValid(BelId bel) const
{
// FIXME: Same deal as isValidBelForCell.
return true;
}
#ifdef WITH_HEAP
const std::string Arch::defaultPlacer = "heap";
#else
const std::string Arch::defaultPlacer = "sa";
#endif
const std::vector<std::string> Arch::availablePlacers = {"sa",
#ifdef WITH_HEAP
"heap"
#endif
};
const std::string Arch::defaultRouter = "router1";
const std::vector<std::string> Arch::availableRouters = {"router1", "router2"};
bool Arch::cells_compatible(const CellInfo **cells, int count) const { return false; }
std::vector<std::pair<std::string, std::string>> Arch::get_tiles_at_location(int row, int col)
{
std::vector<std::pair<std::string, std::string>> ret;
auto &tileloc = chip_info->tile_info[row * chip_info->width + col];
for (int i = 0; i < tileloc.num_tiles; i++) {
ret.push_back(std::make_pair(tileloc.tile_names[i].name.get(),
chip_info->tiletype_names[tileloc.tile_names[i].type_idx].get()));
}
return ret;
}
NEXTPNR_NAMESPACE_END
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