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1839a3a770
nextpnr/ice40/chains.cc
David Shah 1839a3a770 Major Property improvements for common and iCE40 
Signed-off-by: David Shah <dave@ds0.me>
2019-08-05 14:52:15 +01:00

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/*
* nextpnr -- Next Generation Place and Route
*
* 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 "chains.h"
#include <algorithm>
#include <vector>
#include "cells.h"
#include "chain_utils.h"
#include "design_utils.h"
#include "log.h"
#include "place_common.h"
#include "util.h"
NEXTPNR_NAMESPACE_BEGIN
class ChainConstrainer
{
private:
Context *ctx;
// Split a carry chain into multiple legal chains
std::vector<CellChain> split_carry_chain(CellChain &carryc)
{
bool start_of_chain = true;
std::vector<CellChain> chains;
std::vector<const CellInfo *> tile;
const int max_length = (ctx->chip_info->height - 2) * 8 - 2;
auto curr_cell = carryc.cells.begin();
while (curr_cell != carryc.cells.end()) {
CellInfo *cell = *curr_cell;
if (tile.size() >= 8) {
tile.clear();
}
if (start_of_chain) {
tile.clear();
chains.emplace_back();
start_of_chain = false;
if (cell->ports.at(ctx->id("CIN")).net) {
// CIN is not constant and not part of a chain. Must feed in from fabric
CellInfo *feedin = make_carry_feed_in(cell, cell->ports.at(ctx->id("CIN")));
chains.back().cells.push_back(feedin);
tile.push_back(feedin);
}
}
tile.push_back(cell);
chains.back().cells.push_back(cell);
bool split_chain = (!ctx->logicCellsCompatible(tile.data(), tile.size())) ||
(int(chains.back().cells.size()) > max_length);
if (split_chain) {
CellInfo *passout = make_carry_pass_out((*(curr_cell - 1))->ports.at(ctx->id("COUT")));
tile.pop_back();
chains.back().cells.back() = passout;
start_of_chain = true;
} else {
NetInfo *carry_net = cell->ports.at(ctx->id("COUT")).net;
bool at_end = (curr_cell == carryc.cells.end() - 1);
if (carry_net != nullptr && (carry_net->users.size() > 1 || at_end)) {
if (carry_net->users.size() > 2 ||
(net_only_drives(ctx, carry_net, is_lc, ctx->id("I3"), false) !=
net_only_drives(ctx, carry_net, is_lc, ctx->id("CIN"), false)) ||
(at_end && !net_only_drives(ctx, carry_net, is_lc, ctx->id("I3"), true))) {
CellInfo *passout = make_carry_pass_out(cell->ports.at(ctx->id("COUT")),
at_end ? nullptr : *(curr_cell + 1));
chains.back().cells.push_back(passout);
tile.push_back(passout);
}
}
++curr_cell;
}
}
return chains;
}
// Insert a logic cell to legalise a COUT->fabric connection
CellInfo *make_carry_pass_out(PortInfo &cout_port, CellInfo *cin_cell = nullptr)
{
NPNR_ASSERT(cout_port.net != nullptr);
std::unique_ptr<CellInfo> lc = create_ice_cell(ctx, ctx->id("ICESTORM_LC"));
lc->params[ctx->id("LUT_INIT")] = Property(65280, 16); // 0xff00: O = I3
lc->params[ctx->id("CARRY_ENABLE")] = Property::State::S1;
lc->ports.at(id_O).net = cout_port.net;
std::unique_ptr<NetInfo> co_i3_net(new NetInfo());
co_i3_net->name = ctx->id(lc->name.str(ctx) + "$I3");
co_i3_net->driver = cout_port.net->driver;
PortRef i3_r;
i3_r.port = id_I3;
i3_r.cell = lc.get();
co_i3_net->users.push_back(i3_r);
PortRef o_r;
o_r.port = id_O;
o_r.cell = lc.get();
cout_port.net->driver = o_r;
lc->ports.at(id_I3).net = co_i3_net.get();
cout_port.net = co_i3_net.get();
IdString co_i3_name = co_i3_net->name;
NPNR_ASSERT(ctx->nets.find(co_i3_name) == ctx->nets.end());
ctx->nets[co_i3_name] = std::move(co_i3_net);
// If COUT also connects to a CIN; preserve the carry chain
if (cin_cell) {
std::unique_ptr<NetInfo> co_cin_net(new NetInfo());
co_cin_net->name = ctx->id(lc->name.str(ctx) + "$COUT");
// Connect I1 to 1 to preserve carry chain
NetInfo *vcc = ctx->nets.at(ctx->id("$PACKER_VCC_NET")).get();
lc->ports.at(id_I1).net = vcc;
PortRef i1_r;
i1_r.port = id_I1;
i1_r.cell = lc.get();
vcc->users.push_back(i1_r);
// Connect co_cin_net to the COUT of the LC
PortRef co_r;
co_r.port = id_COUT;
co_r.cell = lc.get();
co_cin_net->driver = co_r;
lc->ports.at(id_COUT).net = co_cin_net.get();
// Find the user corresponding to the next CIN
int replaced_ports = 0;
if (ctx->debug)
log_info("cell: %s\n", cin_cell->name.c_str(ctx));
for (auto port : {id_CIN, id_I3}) {
auto &usr = lc->ports.at(id_O).net->users;
if (ctx->debug)
for (auto user : usr)
log_info("%s.%s\n", user.cell->name.c_str(ctx), user.port.c_str(ctx));
auto fnd_user = std::find_if(usr.begin(), usr.end(),
[&](const PortRef &pr) { return pr.cell == cin_cell && pr.port == port; });
if (fnd_user != usr.end()) {
co_cin_net->users.push_back(*fnd_user);
usr.erase(fnd_user);
cin_cell->ports.at(port).net = co_cin_net.get();
++replaced_ports;
}
}
NPNR_ASSERT(replaced_ports > 0);
IdString co_cin_name = co_cin_net->name;
NPNR_ASSERT(ctx->nets.find(co_cin_name) == ctx->nets.end());
ctx->nets[co_cin_name] = std::move(co_cin_net);
}
IdString name = lc->name;
ctx->assignCellInfo(lc.get());
ctx->cells[lc->name] = std::move(lc);
return ctx->cells[name].get();
}
// Insert a logic cell to legalise a CIN->fabric connection
CellInfo *make_carry_feed_in(CellInfo *cin_cell, PortInfo &cin_port)
{
NPNR_ASSERT(cin_port.net != nullptr);
std::unique_ptr<CellInfo> lc = create_ice_cell(ctx, ctx->id("ICESTORM_LC"));
lc->params[ctx->id("CARRY_ENABLE")] = Property::State::S1;
lc->params[ctx->id("CIN_CONST")] = Property::State::S1;
lc->params[ctx->id("CIN_SET")] = Property::State::S1;
lc->ports.at(ctx->id("I1")).net = cin_port.net;
cin_port.net->users.erase(std::remove_if(cin_port.net->users.begin(), cin_port.net->users.end(),
[cin_cell, cin_port](const PortRef &usr) {
return usr.cell == cin_cell && usr.port == cin_port.name;
}));
PortRef i1_ref;
i1_ref.cell = lc.get();
i1_ref.port = ctx->id("I1");
lc->ports.at(ctx->id("I1")).net->users.push_back(i1_ref);
std::unique_ptr<NetInfo> out_net(new NetInfo());
out_net->name = ctx->id(lc->name.str(ctx) + "$O");
PortRef drv_ref;
drv_ref.port = ctx->id("COUT");
drv_ref.cell = lc.get();
out_net->driver = drv_ref;
lc->ports.at(ctx->id("COUT")).net = out_net.get();
PortRef usr_ref;
usr_ref.port = cin_port.name;
usr_ref.cell = cin_cell;
out_net->users.push_back(usr_ref);
cin_cell->ports.at(cin_port.name).net = out_net.get();
IdString out_net_name = out_net->name;
NPNR_ASSERT(ctx->nets.find(out_net_name) == ctx->nets.end());
ctx->nets[out_net_name] = std::move(out_net);
IdString name = lc->name;
ctx->assignCellInfo(lc.get());
ctx->cells[lc->name] = std::move(lc);
return ctx->cells[name].get();
}
void process_carries()
{
std::vector<CellChain> carry_chains = find_chains(
ctx, [](const Context *ctx, const CellInfo *cell) { return is_lc(ctx, cell); },
[](const Context *ctx, const
CellInfo *cell) {
CellInfo *carry_prev =
net_driven_by(ctx, cell->ports.at(ctx->id("CIN")).net, is_lc, ctx->id("COUT"));
if (carry_prev != nullptr)
return carry_prev;
CellInfo *i3_prev = net_driven_by(ctx, cell->ports.at(ctx->id("I3")).net, is_lc, ctx->id("COUT"));
if (i3_prev != nullptr)
return i3_prev;
return (CellInfo *)nullptr;
},
[](const Context *ctx, const CellInfo *cell) {
CellInfo *carry_next =
net_only_drives(ctx, cell->ports.at(ctx->id("COUT")).net, is_lc, ctx->id("CIN"), false);
if (carry_next != nullptr)
return carry_next;
CellInfo *i3_next =
net_only_drives(ctx, cell->ports.at(ctx->id("COUT")).net, is_lc, ctx->id("I3"), false);
if (i3_next != nullptr)
return i3_next;
return (CellInfo *)nullptr;
});
std::unordered_set<IdString> chained;
for (auto &base_chain : carry_chains) {
for (auto c : base_chain.cells)
chained.insert(c->name);
}
// Any cells not in chains, but with carry enabled, must also be put in a single-carry chain
// for correct processing
for (auto cell : sorted(ctx->cells)) {
CellInfo *ci = cell.second;
if (chained.find(cell.first) == chained.end() && is_lc(ctx, ci) &&
bool_or_default(ci->params, ctx->id("CARRY_ENABLE"))) {
CellChain sChain;
sChain.cells.push_back(ci);
chained.insert(cell.first);
carry_chains.push_back(sChain);
}
}
std::vector<CellChain> all_chains;
// Chain splitting
for (auto &base_chain : carry_chains) {
if (ctx->verbose) {
log_info("Found carry chain: \n");
for (auto entry : base_chain.cells)
log_info(" %s\n", entry->name.c_str(ctx));
log_info("\n");
}
std::vector<CellChain> split_chains = split_carry_chain(base_chain);
for (auto &chain : split_chains) {
all_chains.push_back(chain);
}
}
// Actual chain placement
for (auto &chain : all_chains) {
if (ctx->verbose)
log_info("Placing carry chain starting at '%s'\n", chain.cells.front()->name.c_str(ctx));
// Place carry chain
chain.cells.at(0)->constr_abs_z = true;
chain.cells.at(0)->constr_z = 0;
for (int i = 1; i < int(chain.cells.size()); i++) {
chain.cells.at(i)->constr_x = 0;
chain.cells.at(i)->constr_y = (i / 8);
chain.cells.at(i)->constr_z = i % 8;
chain.cells.at(i)->constr_abs_z = true;
chain.cells.at(i)->constr_parent = chain.cells.at(0);
chain.cells.at(0)->constr_children.push_back(chain.cells.at(i));
}
}
}
public:
ChainConstrainer(Context *ctx) : ctx(ctx){};
void constrain_chains() { process_carries(); }
};
void constrain_chains(Context *ctx)
{
log_info("Constraining chains...\n");
ChainConstrainer(ctx).constrain_chains();
}
NEXTPNR_NAMESPACE_END
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