nextpnr/xc7/pack.cc

/*
 *  nextpnr -- Next Generation Place and Route
 *
 *  Copyright (C) 2018  Clifford Wolf <clifford@symbioticeda.com>
 *  Copyright (C) 2018  David Shah <david@symbioticeda.com>
 *  Copyright (C) 2018  Serge Bazanski <q3k@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 <algorithm>
#include <iterator>
#include <unordered_set>
#include "cells.h"
#include "chains.h"
#include "design_utils.h"
#include "log.h"
#include "util.h"

NEXTPNR_NAMESPACE_BEGIN

// Pack LUTs and LUT-FF pairs
static void pack_lut_lutffs(Context *ctx)
{
    log_info("Packing LUT-FFs..\n");

    std::unordered_set<IdString> packed_cells;
    std::vector<std::unique_ptr<CellInfo>> new_cells;
    for (auto cell : sorted(ctx->cells)) {
        CellInfo *ci = cell.second;
        if (ctx->verbose)
            log_info("cell '%s' is of type '%s'\n", ci->name.c_str(ctx), ci->type.c_str(ctx));
        if (is_lut(ctx, ci)) {
            std::unique_ptr<CellInfo> packed = create_xc7_cell(ctx, ctx->id("XC7_LC"), ci->name.str(ctx) + "_LC");
            std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(packed->attrs, packed->attrs.begin()));
            packed_cells.insert(ci->name);
            if (ctx->verbose)
                log_info("packed cell %s into %s\n", ci->name.c_str(ctx), packed->name.c_str(ctx));
            // See if we can pack into a DFF
            // TODO: LUT cascade
            NetInfo *o = ci->ports.at(ctx->id("O")).net;
            CellInfo *dff = net_only_drives(ctx, o, is_ff, ctx->id("D"), true);
            auto lut_bel = ci->attrs.find(ctx->id("BEL"));
            bool packed_dff = false;
            if (dff) {
                if (ctx->verbose)
                    log_info("found attached dff %s\n", dff->name.c_str(ctx));
                auto dff_bel = dff->attrs.find(ctx->id("BEL"));
                if (lut_bel != ci->attrs.end() && dff_bel != dff->attrs.end() && lut_bel->second != dff_bel->second) {
                    // Locations don't match, can't pack
                } else {
                    lut_to_lc(ctx, ci, packed.get(), false);
                    dff_to_lc(ctx, dff, packed.get(), false);
                    ctx->nets.erase(o->name);
                    if (dff_bel != dff->attrs.end())
                        packed->attrs[ctx->id("BEL")] = dff_bel->second;
                    packed_cells.insert(dff->name);
                    if (ctx->verbose)
                        log_info("packed cell %s into %s\n", dff->name.c_str(ctx), packed->name.c_str(ctx));
                    packed_dff = true;
                }
            }
            if (!packed_dff) {
                lut_to_lc(ctx, ci, packed.get(), true);
            }
            new_cells.push_back(std::move(packed));
        }
    }
    for (auto pcell : packed_cells) {
        ctx->cells.erase(pcell);
    }
    for (auto &ncell : new_cells) {
        ctx->cells[ncell->name] = std::move(ncell);
    }
}

// Pack FFs not packed as LUTFFs
static void pack_nonlut_ffs(Context *ctx)
{
    log_info("Packing non-LUT FFs..\n");

    std::unordered_set<IdString> packed_cells;
    std::vector<std::unique_ptr<CellInfo>> new_cells;

    for (auto cell : sorted(ctx->cells)) {
        CellInfo *ci = cell.second;
        if (is_ff(ctx, ci)) {
            std::unique_ptr<CellInfo> packed = create_xc7_cell(ctx, ctx->id("XC7_LC"), ci->name.str(ctx) + "_DFFLC");
            std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(packed->attrs, packed->attrs.begin()));
            if (ctx->verbose)
                log_info("packed cell %s into %s\n", ci->name.c_str(ctx), packed->name.c_str(ctx));
            packed_cells.insert(ci->name);
            dff_to_lc(ctx, ci, packed.get(), true);
            new_cells.push_back(std::move(packed));
        }
    }
    for (auto pcell : packed_cells) {
        ctx->cells.erase(pcell);
    }
    for (auto &ncell : new_cells) {
        ctx->cells[ncell->name] = std::move(ncell);
    }
}

static bool net_is_constant(const Context *ctx, NetInfo *net, bool &value)
{
    if (net == nullptr)
        return false;
    if (net->name == ctx->id("$PACKER_GND_NET") || net->name == ctx->id("$PACKER_VCC_NET")) {
        value = (net->name == ctx->id("$PACKER_VCC_NET"));
        return true;
    } else {
        return false;
    }
}

// Pack carry logic
static void pack_carries(Context *ctx)
{
    // log_info("Packing carries..\n");
    // TODO
}

// "Pack" RAMs
static void pack_ram(Context *ctx)
{
    // log_info("Packing RAMs..\n");
    // TODO
}

// Merge a net into a constant net
static void set_net_constant(const Context *ctx, NetInfo *orig, NetInfo *constnet, bool constval)
{
    orig->driver.cell = nullptr;
    for (auto user : orig->users) {
        if (user.cell != nullptr) {
            CellInfo *uc = user.cell;
            if (ctx->verbose)
                log_info("%s user %s\n", orig->name.c_str(ctx), uc->name.c_str(ctx));
            if ((is_lut(ctx, uc) || is_lc(ctx, uc) || is_carry(ctx, uc)) && (user.port.str(ctx).at(0) == 'I') &&
                !constval) {
                uc->ports[user.port].net = nullptr;
            } else {
                uc->ports[user.port].net = constnet;
                constnet->users.push_back(user);
            }
        }
    }
    orig->users.clear();
}

// Pack constants (simple implementation)
static void pack_constants(Context *ctx)
{
    log_info("Packing constants..\n");

    std::unique_ptr<CellInfo> gnd_cell = create_xc7_cell(ctx, ctx->id("XC7_LC"), "$PACKER_GND");
    gnd_cell->params[ctx->id("INIT")] = "0";
    std::unique_ptr<NetInfo> gnd_net = std::unique_ptr<NetInfo>(new NetInfo);
    gnd_net->name = ctx->id("$PACKER_GND_NET");
    gnd_net->driver.cell = gnd_cell.get();
    gnd_net->driver.port = id_O;
    gnd_cell->ports.at(id_O).net = gnd_net.get();

    std::unique_ptr<CellInfo> vcc_cell = create_xc7_cell(ctx, ctx->id("XC7_LC"), "$PACKER_VCC");
    vcc_cell->params[ctx->id("INIT")] = "1";
    std::unique_ptr<NetInfo> vcc_net = std::unique_ptr<NetInfo>(new NetInfo);
    vcc_net->name = ctx->id("$PACKER_VCC_NET");
    vcc_net->driver.cell = vcc_cell.get();
    vcc_net->driver.port = id_O;
    vcc_cell->ports.at(id_O).net = vcc_net.get();

    std::vector<IdString> dead_nets;

    bool gnd_used = false;

    for (auto net : sorted(ctx->nets)) {
        NetInfo *ni = net.second;
        if (ni->driver.cell != nullptr && ni->driver.cell->type == ctx->id("GND")) {
            IdString drv_cell = ni->driver.cell->name;
            set_net_constant(ctx, ni, gnd_net.get(), false);
            gnd_used = true;
            dead_nets.push_back(net.first);
            ctx->cells.erase(drv_cell);
        } else if (ni->driver.cell != nullptr && ni->driver.cell->type == ctx->id("VCC")) {
            IdString drv_cell = ni->driver.cell->name;
            set_net_constant(ctx, ni, vcc_net.get(), true);
            dead_nets.push_back(net.first);
            ctx->cells.erase(drv_cell);
        }
    }

    if (gnd_used) {
        ctx->cells[gnd_cell->name] = std::move(gnd_cell);
        ctx->nets[gnd_net->name] = std::move(gnd_net);
    }
    // Vcc cell always inserted for now, as it may be needed during carry legalisation (TODO: trim later if actually
    // never used?)
    ctx->cells[vcc_cell->name] = std::move(vcc_cell);
    ctx->nets[vcc_net->name] = std::move(vcc_net);

    for (auto dn : dead_nets) {
        ctx->nets.erase(dn);
    }
}

static bool is_nextpnr_iob(Context *ctx, CellInfo *cell)
{
    return cell->type == ctx->id("$nextpnr_ibuf") || cell->type == ctx->id("$nextpnr_obuf") ||
           cell->type == ctx->id("$nextpnr_iobuf");
}

// Pack IO buffers
static void pack_io(Context *ctx)
{
    std::unordered_set<IdString> packed_cells;
    std::vector<std::unique_ptr<CellInfo>> new_cells;
    log_info("Packing IOs..\n");

    for (auto cell : sorted(ctx->cells)) {
        CellInfo *ci = cell.second;
        if (is_nextpnr_iob(ctx, ci)) {
            CellInfo *sb = nullptr;
            if (ci->type == ctx->id("$nextpnr_ibuf") || ci->type == ctx->id("$nextpnr_iobuf")) {
                sb = net_only_drives(ctx, ci->ports.at(ctx->id("O")).net, is_sb_io, ctx->id("PACKAGE_PIN"), true, ci);

            } else if (ci->type == ctx->id("$nextpnr_obuf")) {
                sb = net_only_drives(ctx, ci->ports.at(ctx->id("I")).net, is_sb_io, ctx->id("PACKAGE_PIN"), true, ci);
            }
            if (sb != nullptr) {
                // Trivial case, IOBUF used. Just destroy the net and the
                // iobuf
                log_info("%s feeds IOBUF %s, removing %s %s.\n", ci->name.c_str(ctx), sb->name.c_str(ctx),
                         ci->type.c_str(ctx), ci->name.c_str(ctx));
                NetInfo *net = sb->ports.at(ctx->id("PACKAGE_PIN")).net;
                if (net != nullptr) {
                    ctx->nets.erase(net->name);
                    sb->ports.at(ctx->id("PACKAGE_PIN")).net = nullptr;
                }
                if (ci->type == ctx->id("$nextpnr_iobuf")) {
                    NetInfo *net2 = ci->ports.at(ctx->id("I")).net;
                    if (net2 != nullptr) {
                        ctx->nets.erase(net2->name);
                    }
                }
            } else {
                // Create a IOBUF buffer
                std::unique_ptr<CellInfo> xc7_cell = create_xc7_cell(ctx, ctx->id("IOBUF"), ci->name.str(ctx));
                nxio_to_sb(ctx, ci, xc7_cell.get());
                new_cells.push_back(std::move(xc7_cell));
                sb = new_cells.back().get();
            }
            packed_cells.insert(ci->name);
            std::copy(ci->attrs.begin(), ci->attrs.end(), std::inserter(sb->attrs, sb->attrs.begin()));
        }
    }
    for (auto pcell : packed_cells) {
        ctx->cells.erase(pcell);
    }
    for (auto &ncell : new_cells) {
        ctx->cells[ncell->name] = std::move(ncell);
    }
}

// Return true if a port counts as "logic" for global promotion
static bool is_logic_port(BaseCtx *ctx, const PortRef &port)
{
    if (is_clock_port(ctx, port) || is_reset_port(ctx, port) || is_enable_port(ctx, port))
        return false;
    return !is_sb_io(ctx, port.cell) && port.cell->type != id_BUFGCTRL;
}

static void insert_global(Context *ctx, NetInfo *net, bool is_reset, bool is_cen, bool is_logic)
{
    std::string glb_name = net->name.str(ctx) + std::string("_$glb_") + (is_reset ? "sr" : (is_cen ? "ce" : "clk"));
    std::unique_ptr<CellInfo> gb = create_xc7_cell(ctx, id_BUFGCTRL, "$bufg_" + glb_name);
    gb->ports[ctx->id("I0")].net = net;
    PortRef pr;
    pr.cell = gb.get();
    pr.port = ctx->id("I0");
    net->users.push_back(pr);

    pr.cell = gb.get();
    pr.port = ctx->id("O");
    std::unique_ptr<NetInfo> glbnet = std::unique_ptr<NetInfo>(new NetInfo());
    glbnet->name = ctx->id(glb_name);
    glbnet->driver = pr;
    gb->ports[ctx->id("O")].net = glbnet.get();
    std::vector<PortRef> keep_users;
    for (auto user : net->users) {
        if (is_clock_port(ctx, user) || (is_reset && is_reset_port(ctx, user)) ||
            (is_cen && is_enable_port(ctx, user)) || (is_logic && is_logic_port(ctx, user))) {
            user.cell->ports[user.port].net = glbnet.get();
            glbnet->users.push_back(user);
        } else {
            keep_users.push_back(user);
        }
    }
    net->users = keep_users;
    ctx->nets[glbnet->name] = std::move(glbnet);
    ctx->cells[gb->name] = std::move(gb);
}

// Simple global promoter (clock only)
static void promote_globals(Context *ctx)
{
    log_info("Promoting globals..\n");
    const int logic_fanout_thresh = 15;
    const int enable_fanout_thresh = 5;
    std::map<IdString, int> clock_count, reset_count, cen_count, logic_count;
    for (auto net : sorted(ctx->nets)) {
        NetInfo *ni = net.second;
        if (ni->driver.cell != nullptr && !ctx->isGlobalNet(ni)) {
            clock_count[net.first] = 0;
            reset_count[net.first] = 0;
            cen_count[net.first] = 0;

            for (auto user : ni->users) {
                if (is_clock_port(ctx, user))
                    clock_count[net.first]++;
                if (is_reset_port(ctx, user))
                    reset_count[net.first]++;
                if (is_enable_port(ctx, user))
                    cen_count[net.first]++;
                if (is_logic_port(ctx, user))
                    logic_count[net.first]++;
            }
        }
    }
    int prom_globals = 0, prom_resets = 0, prom_cens = 0, prom_logics = 0;
    int gbs_available = 8;
    for (auto &cell : ctx->cells)
        if (is_gbuf(ctx, cell.second.get()))
            --gbs_available;
    while (prom_globals < gbs_available) {
        auto global_clock = std::max_element(clock_count.begin(), clock_count.end(),
                                             [](const std::pair<IdString, int> &a, const std::pair<IdString, int> &b) {
                                                 return a.second < b.second;
                                             });

        auto global_reset = std::max_element(reset_count.begin(), reset_count.end(),
                                             [](const std::pair<IdString, int> &a, const std::pair<IdString, int> &b) {
                                                 return a.second < b.second;
                                             });
        auto global_cen = std::max_element(cen_count.begin(), cen_count.end(),
                                           [](const std::pair<IdString, int> &a, const std::pair<IdString, int> &b) {
                                               return a.second < b.second;
                                           });
        auto global_logic = std::max_element(logic_count.begin(), logic_count.end(),
                                             [](const std::pair<IdString, int> &a, const std::pair<IdString, int> &b) {
                                                 return a.second < b.second;
                                             });
        if (global_clock->second == 0 && prom_logics < 4 && global_logic->second > logic_fanout_thresh &&
            (global_logic->second > global_cen->second || prom_cens >= 4) &&
            (global_logic->second > global_reset->second || prom_resets >= 4)) {
            NetInfo *logicnet = ctx->nets[global_logic->first].get();
            insert_global(ctx, logicnet, false, false, true);
            ++prom_globals;
            ++prom_logics;
            clock_count.erase(logicnet->name);
            reset_count.erase(logicnet->name);
            cen_count.erase(logicnet->name);
            logic_count.erase(logicnet->name);
        } else if (global_reset->second > global_clock->second && prom_resets < 4) {
            NetInfo *rstnet = ctx->nets[global_reset->first].get();
            insert_global(ctx, rstnet, true, false, false);
            ++prom_globals;
            ++prom_resets;
            clock_count.erase(rstnet->name);
            reset_count.erase(rstnet->name);
            cen_count.erase(rstnet->name);
            logic_count.erase(rstnet->name);
        } else if (global_cen->second > global_clock->second && prom_cens < 4 &&
                   global_cen->second > enable_fanout_thresh) {
            NetInfo *cennet = ctx->nets[global_cen->first].get();
            insert_global(ctx, cennet, false, true, false);
            ++prom_globals;
            ++prom_cens;
            clock_count.erase(cennet->name);
            reset_count.erase(cennet->name);
            cen_count.erase(cennet->name);
            logic_count.erase(cennet->name);
        } else if (global_clock->second != 0) {
            NetInfo *clknet = ctx->nets[global_clock->first].get();
            insert_global(ctx, clknet, false, false, false);
            ++prom_globals;
            clock_count.erase(clknet->name);
            reset_count.erase(clknet->name);
            cen_count.erase(clknet->name);
            logic_count.erase(clknet->name);
        } else {
            break;
        }
    }
}

// spliceLUT adds a pass-through LUT LC between the given cell's output port
// and either all users or only non_LUT users.
static std::unique_ptr<CellInfo> spliceLUT(Context *ctx, CellInfo *ci, IdString portId, bool onlyNonLUTs)
{
    auto port = ci->ports[portId];

    NPNR_ASSERT(port.net != nullptr);

    // Create pass-through LUT.
    std::unique_ptr<CellInfo> pt =
            create_xc7_cell(ctx, ctx->id("XC7_LC"), ci->name.str(ctx) + "$nextpnr_" + portId.str(ctx) + "_lut_through");
    pt->params[ctx->id("INIT")] = "65280"; // output is always I3

    // Create LUT output net.
    std::unique_ptr<NetInfo> out_net = std::unique_ptr<NetInfo>(new NetInfo);
    out_net->name = ctx->id(ci->name.str(ctx) + "$nextnr_" + portId.str(ctx) + "_lut_through_net");
    out_net->driver.cell = pt.get();
    out_net->driver.port = ctx->id("O");
    pt->ports.at(ctx->id("O")).net = out_net.get();

    // New users of the original cell's port
    std::vector<PortRef> new_users;
    for (const auto &user : port.net->users) {
        if (onlyNonLUTs && user.cell->type == ctx->id("XC7_LC")) {
            new_users.push_back(user);
            continue;
        }
        // Rewrite pointer into net in user.
        user.cell->ports[user.port].net = out_net.get();
        // Add user to net.
        PortRef pr;
        pr.cell = user.cell;
        pr.port = user.port;
        out_net->users.push_back(pr);
    }

    // Add LUT to new users.
    PortRef pr;
    pr.cell = pt.get();
    pr.port = ctx->id("I3");
    new_users.push_back(pr);
    pt->ports.at(ctx->id("I3")).net = port.net;

    // Replace users of the original net.
    port.net->users = new_users;

    ctx->nets[out_net->name] = std::move(out_net);
    return pt;
}

// Pack special functions
static void pack_special(Context *ctx)
{
    log_info("Packing special functions..\n");

    std::unordered_set<IdString> packed_cells;
    std::vector<std::unique_ptr<CellInfo>> new_cells;

    for (auto cell : sorted(ctx->cells)) {
        CellInfo *ci = cell.second;
        if (ci->type == id_BUFGCTRL) {
            ci->params.emplace(ctx->id("PRESELECT_I0"), "FALSE");
            ci->params.emplace(ctx->id("CE0INV"), "CE0");
            ci->params.emplace(ctx->id("S0INV"), "S0");
            ci->params.emplace(ctx->id("IGNORE0INV"), "IGNORE0");
            ci->params.emplace(ctx->id("CE1INV"), "CE1");
            ci->params.emplace(ctx->id("S1INV"), "S1");
            ci->params.emplace(ctx->id("IGNORE1INV"), "IGNORE1");
        } else if (ci->type == id_MMCME2_ADV) {
            ci->params.emplace(ctx->id("BANDWIDTH"), "OPTIMIZED");
            ci->params.emplace(ctx->id("CLKBURST_ENABLE"), "FALSE");
            ci->params.emplace(ctx->id("CLKBURST_REPEAT"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBIN_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBIN_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKFBOUT_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBOUT_EN"), "TRUE");
            ci->params.emplace(ctx->id("CLKFBOUT_FRAC_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBOUT_FRAC_WF_FALL"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBOUT_FRAC_WF_RISE"), "FALSE");
            ci->params.emplace(ctx->id("CLKFBOUT_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKFBOUT_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKINSELINV"), "CLKINSEL");
            ci->params.emplace(ctx->id("CLKOUT0_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT0_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT0_FRAC_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT0_FRAC_WF_FALL"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT0_FRAC_WF_RISE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT0_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT0_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT1_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT1_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT1_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT1_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT2_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT2_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT2_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT2_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT3_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT3_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT3_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT3_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT4_CASCADE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT4_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT4_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT4_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT4_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT5_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT5_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT5_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT5_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT6_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT6_EN"), "FALSE");
            ci->params.emplace(ctx->id("CLKOUT6_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("CLKOUT6_USE_FINE_PS"), "FALSE");
            ci->params.emplace(ctx->id("COMPENSATION"), "INTERNAL");
            ci->params.emplace(ctx->id("DIRECT_PATH_CNTRL"), "FALSE");
            ci->params.emplace(ctx->id("DIVCLK_EDGE"), "FALSE");
            ci->params.emplace(ctx->id("DIVCLK_NOCOUNT"), "TRUE");
            ci->params.emplace(ctx->id("EN_VCO_DIV1"), "FALSE");
            ci->params.emplace(ctx->id("EN_VCO_DIV6"), "FALSE");
            ci->params.emplace(ctx->id("GTS_WAIT"), "FALSE");
            ci->params.emplace(ctx->id("HVLF_CNT_TEST_EN"), "FALSE");
            ci->params.emplace(ctx->id("INTERP_TEST"), "FALSE");
            ci->params.emplace(ctx->id("IN_DLY_EN"), "TRUE");
            ci->params.emplace(ctx->id("LF_LOW_SEL"), "FALSE");
            ci->params.emplace(ctx->id("MMCM_EN"), "TRUE");
            ci->params.emplace(ctx->id("PERF0_USE_CLK"), "FALSE");
            ci->params.emplace(ctx->id("PERF1_USE_CLK"), "FALSE");
            ci->params.emplace(ctx->id("PERF2_USE_CLK"), "FALSE");
            ci->params.emplace(ctx->id("PERF3_USE_CLK"), "FALSE");
            ci->params.emplace(ctx->id("PSENINV"), "PSEN");
            ci->params.emplace(ctx->id("PSINCDECINV"), "PSINCDEC");
            ci->params.emplace(ctx->id("PWRDWNINV"), "PWRDWN");
            ci->params.emplace(ctx->id("RSTINV"), "RST");
            ci->params.emplace(ctx->id("SEL_HV_NMOS"), "FALSE");
            ci->params.emplace(ctx->id("SEL_LV_NMOS"), "FALSE");
            ci->params.emplace(ctx->id("SEL_SLIPD"), "FALSE");
            ci->params.emplace(ctx->id("SS_EN"), "FALSE");
            ci->params.emplace(ctx->id("SS_MODE"), "CENTER_HIGH");
            ci->params.emplace(ctx->id("STARTUP_WAIT"), "FALSE");
            ci->params.emplace(ctx->id("SUP_SEL_AREG"), "FALSE");
            ci->params.emplace(ctx->id("SUP_SEL_DREG"), "FALSE");
            ci->params.emplace(ctx->id("TMUX_MUX_SEL"), "00");
            ci->params.emplace(ctx->id("VLF_HIGH_DIS_B"), "TRUE");
            ci->params.emplace(ctx->id("VLF_HIGH_PWDN_B"), "TRUE");
            // ci->params.emplace(ctx->id("MMCME2_ADV:mmcm_adv_inst:");
            ci->params.emplace(ctx->id("ANALOG_MISC"), "0000");
            ci->params.emplace(ctx->id("AVDD_COMP_SET"), "011");
            ci->params.emplace(ctx->id("AVDD_VBG_PD"), "110");
            ci->params.emplace(ctx->id("AVDD_VBG_SEL"), "1001");
            ci->params.emplace(ctx->id("CLKBURST_CNT"), "1");
            ci->params.emplace(ctx->id("CLKFBIN_HT"), "1");
            ci->params.emplace(ctx->id("CLKFBIN_LT"), "1");
            ci->params.emplace(ctx->id("CLKFBIN_MULT"), "1");
            ci->params.emplace(ctx->id("CLKFBOUT_DT"), "0");
            ci->params.emplace(ctx->id("CLKFBOUT_FRAC"), "0");
            ci->params.emplace(ctx->id("CLKFBOUT_HT"), "1");
            ci->params.emplace(ctx->id("CLKFBOUT_LT"), "1");
            ci->params.emplace(ctx->id("CLKFBOUT_MULT_F"), "40.5");
            ci->params.emplace(ctx->id("CLKFBOUT_MX"), "00");
            ci->params.emplace(ctx->id("CLKFBOUT_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKFBOUT_PM_FALL"), "000");
            ci->params.emplace(ctx->id("CLKFBOUT_PM_RISE"), "000");
            ci->params.emplace(ctx->id("CLKFB_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("CLKIN1_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("CLKIN1_PERIOD"), "8");
            ci->params.emplace(ctx->id("CLKIN2_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("CLKIN2_PERIOD"), "0");
            ci->params.emplace(ctx->id("CLKOUT0_DIVIDE_F"), "16.875");
            ci->params.emplace(ctx->id("CLKOUT0_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT0_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT0_FRAC"), "0");
            ci->params.emplace(ctx->id("CLKOUT0_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT0_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT0_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT0_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT0_PM_FALL"), "000");
            ci->params.emplace(ctx->id("CLKOUT0_PM_RISE"), "000");
            ci->params.emplace(ctx->id("CLKOUT1_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT1_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT1_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT1_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT1_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT1_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT1_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT1_PM"), "000");
            ci->params.emplace(ctx->id("CLKOUT2_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT2_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT2_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT2_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT2_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT2_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT2_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT2_PM"), "000");
            ci->params.emplace(ctx->id("CLKOUT3_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT3_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT3_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT3_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT3_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT3_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT3_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT3_PM"), "000");
            ci->params.emplace(ctx->id("CLKOUT4_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT4_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT4_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT4_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT4_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT4_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT4_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT4_PM"), "000");
            ci->params.emplace(ctx->id("CLKOUT5_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT5_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT5_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT5_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT5_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT5_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT5_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT5_PM"), "000");
            ci->params.emplace(ctx->id("CLKOUT6_DIVIDE"), "1");
            ci->params.emplace(ctx->id("CLKOUT6_DT"), "0");
            ci->params.emplace(ctx->id("CLKOUT6_DUTY_CYCLE"), "0.5");
            ci->params.emplace(ctx->id("CLKOUT6_HT"), "1");
            ci->params.emplace(ctx->id("CLKOUT6_LT"), "1");
            ci->params.emplace(ctx->id("CLKOUT6_MX"), "00");
            ci->params.emplace(ctx->id("CLKOUT6_PHASE"), "0.0");
            ci->params.emplace(ctx->id("CLKOUT6_PM"), "000");
            ci->params.emplace(ctx->id("CONTROL_0"), "1111001101111100");
            ci->params.emplace(ctx->id("CONTROL_1"), "0111110101001101");
            ci->params.emplace(ctx->id("CONTROL_2"), "0101000001000010");
            ci->params.emplace(ctx->id("CONTROL_3"), "1110101111001000");
            ci->params.emplace(ctx->id("CONTROL_4"), "1101010011011111");
            ci->params.emplace(ctx->id("CONTROL_5"), "1010110111111011");
            ci->params.emplace(ctx->id("CONTROL_6"), "1011001011000011");
            ci->params.emplace(ctx->id("CONTROL_7"), "0100110000101110");
            ci->params.emplace(ctx->id("CP"), "0000");
            ci->params.emplace(ctx->id("CP_BIAS_TRIP_SET"), "0");
            ci->params.emplace(ctx->id("CP_RES"), "01");
            ci->params.emplace(ctx->id("DIVCLK_DIVIDE"), "5");
            ci->params.emplace(ctx->id("DIVCLK_HT"), "1");
            ci->params.emplace(ctx->id("DIVCLK_LT"), "1");
            ci->params.emplace(ctx->id("DVDD_COMP_SET"), "011");
            ci->params.emplace(ctx->id("DVDD_VBG_PD"), "110");
            ci->params.emplace(ctx->id("DVDD_VBG_SEL"), "1001");
            ci->params.emplace(ctx->id("EN_CURR_SINK"), "11");
            ci->params.emplace(ctx->id("FINE_PS_FRAC"), "0");
            ci->params.emplace(ctx->id("FREQ_BB_USE_CLK0"), "0");
            ci->params.emplace(ctx->id("FREQ_BB_USE_CLK1"), "0");
            ci->params.emplace(ctx->id("FREQ_BB_USE_CLK2"), "0");
            ci->params.emplace(ctx->id("FREQ_BB_USE_CLK3"), "0");
            ci->params.emplace(ctx->id("FREQ_COMP"), "01");
            ci->params.emplace(ctx->id("HROW_DLY_SET"), "0");
            ci->params.emplace(ctx->id("HVLF_CNT_TEST"), "0");
            ci->params.emplace(ctx->id("INTERP_EN"), "00010000");
            ci->params.emplace(ctx->id("IN_DLY_MX_CVDD"), "011000");
            ci->params.emplace(ctx->id("IN_DLY_MX_DVDD"), "000001");
            ci->params.emplace(ctx->id("IN_DLY_SET"), "38");
            ci->params.emplace(ctx->id("LFHF"), "11");
            ci->params.emplace(ctx->id("LF_NEN"), "10");
            ci->params.emplace(ctx->id("LF_PEN"), "00");
            ci->params.emplace(ctx->id("LOCK_CNT"), "128");
            ci->params.emplace(ctx->id("LOCK_FB_DLY"), "3");
            ci->params.emplace(ctx->id("LOCK_REF_DLY"), "3");
            ci->params.emplace(ctx->id("LOCK_SAT_HIGH"), "160");
            ci->params.emplace(ctx->id("MAN_LF"), "000");
            ci->params.emplace(ctx->id("MVDD_SEL"), "11");
            ci->params.emplace(ctx->id("PERF0_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("PERF1_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("PERF2_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("PERF3_MUX_SEL"), "000");
            ci->params.emplace(ctx->id("PFD"), "0100001");
            ci->params.emplace(ctx->id("REF_JITTER1"), "0.01");
            ci->params.emplace(ctx->id("REF_JITTER2"), "0.01");
            ci->params.emplace(ctx->id("RES"), "0000");
            ci->params.emplace(ctx->id("SKEW_FLOP_INV"), "0000");
            ci->params.emplace(ctx->id("SPARE_ANALOG"), "00000");
            ci->params.emplace(ctx->id("SPARE_DIGITAL"), "00000");
            ci->params.emplace(ctx->id("SS_MOD_PERIOD"), "10000");
            ci->params.emplace(ctx->id("SS_STEPS"), "011");
            ci->params.emplace(ctx->id("SS_STEPS_INIT"), "010");
            ci->params.emplace(ctx->id("SYNTH_CLK_DIV"), "11");
            ci->params.emplace(ctx->id("UNLOCK_CNT"), "64");
            ci->params.emplace(ctx->id("VREF_START"), "01");

            ci->params[ctx->id("COMPENSATION")] = "INTERNAL";
        }
    }

    for (auto pcell : packed_cells) {
        ctx->cells.erase(pcell);
    }
    for (auto &ncell : new_cells) {
        ctx->cells[ncell->name] = std::move(ncell);
    }
}

// Main pack function
bool Arch::pack()
{
    Context *ctx = getCtx();
    try {
        log_break();
        pack_constants(ctx);
        // TODO
        // promote_globals(ctx);
        pack_io(ctx);
        pack_lut_lutffs(ctx);
        pack_nonlut_ffs(ctx);
        pack_carries(ctx);
        pack_ram(ctx);
        pack_special(ctx);
        ctx->assignArchInfo();
        constrain_chains(ctx);
        ctx->assignArchInfo();
        log_info("Checksum: 0x%08x\n", ctx->checksum());
        return true;
    } catch (log_execution_error_exception) {
        return false;
    }
}

NEXTPNR_NAMESPACE_END