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/*
* nextpnr -- Next Generation Place and Route
*
* Copyright (C) 2018 Clifford Wolf <clifford@symbioticeda.com>
* Copyright (C) 2018 David Shah <david@symbioticeda.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 "bitstream.h"
#include <vector>
#include "log.h"
NEXTPNR_NAMESPACE_BEGIN
inline TileType tile_at(const Context *ctx, int x, int y)
{
return ctx->chip_info->tile_grid[y * ctx->chip_info->width + x];
}
const ConfigEntryPOD &find_config(const TileInfoPOD &tile, const std::string &name)
{
for (int i = 0; i < tile.num_config_entries; i++) {
if (std::string(tile.entries[i].name.get()) == name) {
return tile.entries[i];
}
}
assert(false);
}
std::tuple<int8_t, int8_t, int8_t> get_ieren(const BitstreamInfoPOD &bi, int8_t x, int8_t y, int8_t z)
{
for (int i = 0; i < bi.num_ierens; i++) {
auto ie = bi.ierens[i];
if (ie.iox == x && ie.ioy == y && ie.ioz == z) {
return std::make_tuple(ie.ierx, ie.iery, ie.ierz);
}
}
// No pin at this location
return std::make_tuple(-1, -1, -1);
};
void set_config(const TileInfoPOD &ti, std::vector<std::vector<int8_t>> &tile_cfg, const std::string &name, bool value,
int index = -1)
{
const ConfigEntryPOD &cfg = find_config(ti, name);
if (index == -1) {
for (int i = 0; i < cfg.num_bits; i++) {
int8_t &cbit = tile_cfg.at(cfg.bits[i].row).at(cfg.bits[i].col);
if (cbit && !value)
log_error("clearing already set config bit %s", name.c_str());
cbit = value;
}
} else {
int8_t &cbit = tile_cfg.at(cfg.bits[index].row).at(cfg.bits[index].col);
cbit = value;
if (cbit && !value)
log_error("clearing already set config bit %s[%d]", name.c_str(), index);
}
}
int get_param_or_def(const CellInfo *cell, const IdString param, int defval = 0)
{
auto found = cell->params.find(param);
if (found != cell->params.end())
return std::stoi(found->second);
else
return defval;
}
std::string get_param_str_or_def(const CellInfo *cell, const IdString param, std::string defval = "")
{
auto found = cell->params.find(param);
if (found != cell->params.end())
return found->second;
else
return defval;
}
char get_hexdigit(int i) { return std::string("0123456789ABCDEF").at(i); }
void write_asc(const Context *ctx, std::ostream &out)
{
// [y][x][row][col]
const ChipInfoPOD &ci = *ctx->chip_info;
const BitstreamInfoPOD &bi = *ci.bits_info;
std::vector<std::vector<std::vector<std::vector<int8_t>>>> config;
config.resize(ci.height);
for (int y = 0; y < ci.height; y++) {
config.at(y).resize(ci.width);
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
int rows = bi.tiles_nonrouting[tile].rows;
int cols = bi.tiles_nonrouting[tile].cols;
config.at(y).at(x).resize(rows, std::vector<int8_t>(cols));
}
}
out << ".comment from next-pnr" << std::endl;
switch (ctx->args.type) {
case ArchArgs::LP384:
out << ".device 384" << std::endl;
break;
case ArchArgs::HX1K:
case ArchArgs::LP1K:
out << ".device 1k" << std::endl;
break;
case ArchArgs::HX8K:
case ArchArgs::LP8K:
out << ".device 8k" << std::endl;
break;
case ArchArgs::UP5K:
out << ".device 5k" << std::endl;
break;
default:
assert(false);
}
// Set pips
for (auto pip : ctx->getPips()) {
if (ctx->pip_to_net[pip.index] != IdString()) {
const PipInfoPOD &pi = ci.pip_data[pip.index];
const SwitchInfoPOD &swi = bi.switches[pi.switch_index];
for (int i = 0; i < swi.num_bits; i++) {
bool val = (pi.switch_mask & (1 << ((swi.num_bits - 1) - i))) != 0;
int8_t &cbit = config.at(swi.y).at(swi.x).at(swi.cbits[i].row).at(swi.cbits[i].col);
if (bool(cbit) != 0)
assert(false);
cbit = val;
}
}
}
// Set logic cell config
for (auto &cell : ctx->cells) {
BelId bel = cell.second.get()->bel;
if (bel == BelId()) {
std::cout << "Found unplaced cell " << cell.first.str(ctx) << " while generating bitstream!" << std::endl;
continue;
}
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
if (cell.second->type == ctx->id("ICESTORM_LC")) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_LOGIC];
unsigned lut_init = get_param_or_def(cell.second.get(), ctx->id("LUT_INIT"));
bool neg_clk = get_param_or_def(cell.second.get(), ctx->id("NEG_CLK"));
bool dff_enable = get_param_or_def(cell.second.get(), ctx->id("DFF_ENABLE"));
bool async_sr = get_param_or_def(cell.second.get(), ctx->id("ASYNC_SR"));
bool set_noreset = get_param_or_def(cell.second.get(), ctx->id("SET_NORESET"));
bool carry_enable = get_param_or_def(cell.second.get(), ctx->id("CARRY_ENABLE"));
std::vector<bool> lc(20, false);
// From arachne-pnr
static std::vector<int> lut_perm = {
4, 14, 15, 5, 6, 16, 17, 7, 3, 13, 12, 2, 1, 11, 10, 0,
};
for (int i = 0; i < 16; i++) {
if ((lut_init >> i) & 0x1)
lc.at(lut_perm.at(i)) = true;
}
lc.at(8) = carry_enable;
lc.at(9) = dff_enable;
lc.at(18) = set_noreset;
lc.at(19) = async_sr;
for (int i = 0; i < 20; i++)
set_config(ti, config.at(y).at(x), "LC_" + std::to_string(z), lc.at(i), i);
if (dff_enable)
set_config(ti, config.at(y).at(x), "NegClk", neg_clk);
bool carry_const = get_param_or_def(cell.second.get(), ctx->id("CIN_CONST"));
bool carry_set = get_param_or_def(cell.second.get(), ctx->id("CIN_SET"));
if (carry_const) {
if (!ctx->force)
assert(z == 0);
set_config(ti, config.at(y).at(x), "CarryInSet", carry_set);
}
} else if (cell.second->type == ctx->id("SB_IO")) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
unsigned pin_type = get_param_or_def(cell.second.get(), ctx->id("PIN_TYPE"));
bool neg_trigger = get_param_or_def(cell.second.get(), ctx->id("NEG_TRIGGER"));
bool pullup = get_param_or_def(cell.second.get(), ctx->id("PULLUP"));
for (int i = 0; i < 6; i++) {
bool val = (pin_type >> i) & 0x01;
set_config(ti, config.at(y).at(x), "IOB_" + std::to_string(z) + ".PINTYPE_" + std::to_string(i), val);
}
auto ieren = get_ieren(bi, x, y, z);
int iex, iey, iez;
std::tie(iex, iey, iez) = ieren;
assert(iez != -1);
bool input_en = false;
if ((ctx->wire_to_net[ctx->getWireBelPin(bel, PIN_D_IN_0).index] != IdString()) ||
(ctx->wire_to_net[ctx->getWireBelPin(bel, PIN_D_IN_1).index] != IdString())) {
input_en = true;
}
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), !input_en);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
} else {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), input_en);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), !pullup);
}
if (ctx->args.type == ArchArgs::UP5K) {
if (iez == 0) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_39", !pullup);
} else if (iez == 1) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.cf_bit_35", !pullup);
}
}
} else if (cell.second->type == ctx->id("SB_GB")) {
// no cell config bits
} else if (cell.second->type == ctx->id("ICESTORM_RAM")) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y;
const TileInfoPOD &ti_ramt = bi.tiles_nonrouting[TILE_RAMT];
const TileInfoPOD &ti_ramb = bi.tiles_nonrouting[TILE_RAMB];
if (!(ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K)) {
set_config(ti_ramb, config.at(y).at(x), "RamConfig.PowerUp", true);
}
bool negclk_r = get_param_or_def(cell.second.get(), ctx->id("NEG_CLK_R"));
bool negclk_w = get_param_or_def(cell.second.get(), ctx->id("NEG_CLK_W"));
int write_mode = get_param_or_def(cell.second.get(), ctx->id("WRITE_MODE"));
int read_mode = get_param_or_def(cell.second.get(), ctx->id("READ_MODE"));
set_config(ti_ramb, config.at(y).at(x), "NegClk", negclk_w);
set_config(ti_ramt, config.at(y + 1).at(x), "NegClk", negclk_r);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_0", write_mode & 0x1);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_1", write_mode & 0x2);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_2", read_mode & 0x1);
set_config(ti_ramt, config.at(y + 1).at(x), "RamConfig.CBIT_3", read_mode & 0x2);
} else if (cell.second->type == ctx->id("SB_WARMBOOT") || cell.second->type == ctx->id("ICESTORM_LFOSC")) {
// No config needed
} else if (cell.second->type == ctx->id("ICESTORM_SPRAM")) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
assert(ctx->args.type == ArchArgs::UP5K);
if (x == 0 && y == 0) {
const TileInfoPOD &ti_ipcon = bi.tiles_nonrouting[TILE_IPCON];
if (z == 1) {
set_config(ti_ipcon, config.at(1).at(0), "IpConfig.CBIT_0", true);
} else if (z == 2) {
set_config(ti_ipcon, config.at(1).at(0), "IpConfig.CBIT_1", true);
} else {
assert(false);
}
} else if (x == 25 && y == 0) {
const TileInfoPOD &ti_ipcon = bi.tiles_nonrouting[TILE_IPCON];
if (z == 3) {
set_config(ti_ipcon, config.at(1).at(25), "IpConfig.CBIT_0", true);
} else if (z == 4) {
set_config(ti_ipcon, config.at(1).at(25), "IpConfig.CBIT_1", true);
} else {
assert(false);
}
}
} else {
assert(false);
}
}
// Set config bits in unused IO and RAM
for (auto bel : ctx->getBels()) {
if (ctx->bel_to_cell[bel.index] == IdString() && ctx->getBelType(bel) == TYPE_SB_IO) {
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_IO];
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y, z = beli.z;
auto ieren = get_ieren(bi, x, y, z);
int iex, iey, iez;
std::tie(iex, iey, iez) = ieren;
if (iez != -1) {
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
set_config(ti, config.at(iey).at(iex), "IoCtrl.IE_" + std::to_string(iez), true);
set_config(ti, config.at(iey).at(iex), "IoCtrl.REN_" + std::to_string(iez), false);
}
}
} else if (ctx->bel_to_cell[bel.index] == IdString() && ctx->getBelType(bel) == TYPE_ICESTORM_RAM) {
const BelInfoPOD &beli = ci.bel_data[bel.index];
int x = beli.x, y = beli.y;
const TileInfoPOD &ti = bi.tiles_nonrouting[TILE_RAMB];
if ((ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K)) {
set_config(ti, config.at(y).at(x), "RamConfig.PowerUp", true);
}
}
}
// Set other config bits
for (int y = 0; y < ci.height; y++) {
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
const TileInfoPOD &ti = bi.tiles_nonrouting[tile];
// set all ColBufCtrl bits (FIXME)
bool setColBufCtrl = true;
if (ctx->args.type == ArchArgs::LP1K || ctx->args.type == ArchArgs::HX1K) {
if (tile == TILE_RAMB || tile == TILE_RAMT) {
setColBufCtrl = (y == 3 || y == 5 || y == 11 || y == 13);
} else {
setColBufCtrl = (y == 4 || y == 5 || y == 12 || y == 13);
}
} else if (ctx->args.type == ArchArgs::LP8K || ctx->args.type == ArchArgs::HX8K) {
setColBufCtrl = (y == 8 || y == 9 || y == 24 || y == 25);
} else if (ctx->args.type == ArchArgs::UP5K) {
setColBufCtrl = (y == 4 || y == 5 || y == 14 || y == 15 || y == 26 || y == 27);
}
if (setColBufCtrl) {
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_0", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_1", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_2", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_3", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_4", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_5", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_6", true);
set_config(ti, config.at(y).at(x), "ColBufCtrl.glb_netwk_7", true);
}
// Weird UltraPlus bits
if (tile == TILE_DSP0 || tile == TILE_DSP1 || tile == TILE_DSP2 || tile == TILE_DSP3 ||
tile == TILE_IPCON) {
if (ctx->args.type == ArchArgs::UP5K && x == 25 && y == 14) {
// Mystery bits not set in this one tile
} else {
for (int lc_idx = 0; lc_idx < 8; lc_idx++) {
static const std::vector<int> ip_dsp_lut_perm = {
4, 14, 15, 5, 6, 16, 17, 7, 3, 13, 12, 2, 1, 11, 10, 0,
};
for (int i = 0; i < 16; i++)
set_config(ti, config.at(y).at(x), "LC_" + std::to_string(lc_idx), ((i % 8) >= 4),
ip_dsp_lut_perm.at(i));
if (tile == TILE_IPCON)
set_config(ti, config.at(y).at(x),
"Cascade.IPCON_LC0" + std::to_string(lc_idx) + "_inmux02_5", true);
else
set_config(ti, config.at(y).at(x),
"Cascade.MULT" + std::to_string(int(tile - TILE_DSP0)) + "_LC0" +
std::to_string(lc_idx) + "_inmux02_5",
true);
}
}
}
}
}
// Write config out
for (int y = 0; y < ci.height; y++) {
for (int x = 0; x < ci.width; x++) {
TileType tile = tile_at(ctx, x, y);
if (tile == TILE_NONE)
continue;
switch (tile) {
case TILE_LOGIC:
out << ".logic_tile";
break;
case TILE_IO:
out << ".io_tile";
break;
case TILE_RAMB:
out << ".ramb_tile";
break;
case TILE_RAMT:
out << ".ramt_tile";
break;
case TILE_DSP0:
out << ".dsp0_tile";
break;
case TILE_DSP1:
out << ".dsp1_tile";
break;
case TILE_DSP2:
out << ".dsp2_tile";
break;
case TILE_DSP3:
out << ".dsp3_tile";
break;
case TILE_IPCON:
out << ".ipcon_tile";
break;
default:
assert(false);
}
out << " " << x << " " << y << std::endl;
for (auto row : config.at(y).at(x)) {
for (auto col : row) {
if (col == 1)
out << "1";
else
out << "0";
}
out << std::endl;
}
out << std::endl;
}
}
// Write RAM init data
for (auto &cell : ctx->cells) {
if (cell.second->bel != BelId()) {
if (cell.second->type == ctx->id("ICESTORM_RAM")) {
const BelInfoPOD &beli = ci.bel_data[cell.second->bel.index];
int x = beli.x, y = beli.y;
out << ".ram_data " << x << " " << y << std::endl;
for (int w = 0; w < 16; w++) {
std::vector<bool> bits(256);
std::string init =
get_param_str_or_def(cell.second.get(), ctx->id(std::string("INIT_") + get_hexdigit(w)));
assert(init != "");
for (size_t i = 0; i < init.size(); i++) {
bool val = (init.at((init.size() - 1) - i) == '1');
bits.at(i) = val;
}
for (int i = bits.size() - 4; i >= 0; i -= 4) {
int c = bits.at(i) + (bits.at(i + 1) << 1) + (bits.at(i + 2) << 2) + (bits.at(i + 3) << 3);
out << char(std::tolower(get_hexdigit(c)));
}
out << std::endl;
}
out << std::endl;
}
}
}
// Write symbols
// const bool write_symbols = 1;
for (auto wire : ctx->getWires()) {
IdString net = ctx->getBoundWireNet(wire);
if (net != IdString())
out << ".sym " << wire.index << " " << net.str(ctx) << std::endl;
}
}
NEXTPNR_NAMESPACE_END
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