2d array -> 1d array in module generator

This commit is contained in:
andyfox-rushc 2023-09-10 12:45:36 -07:00
parent 0fa412502c
commit d77fb81507
1 changed files with 63 additions and 59 deletions

View File

@ -1112,7 +1112,6 @@ struct MultPassWorker {
/* /*
Signed Multiplier Signed Multiplier
*/ */
void CreateBoothSMult(RTLIL::Module *module, int x_sz, int y_sz, int z_sz, RTLIL::Wire *X, RTLIL::Wire *Y, RTLIL::Wire *Z) void CreateBoothSMult(RTLIL::Module *module, int x_sz, int y_sz, int z_sz, RTLIL::Wire *X, RTLIL::Wire *Y, RTLIL::Wire *Z)
{ // product { // product
unsigned enc_count = (y_sz / 2) + (((y_sz % 2) != 0) ? 1 : 0); unsigned enc_count = (y_sz / 2) + (((y_sz % 2) != 0) ? 1 : 0);
@ -1171,20 +1170,22 @@ struct MultPassWorker {
cori_n_int[encoder_ix - 1]); cori_n_int[encoder_ix - 1]);
} }
} }
// Decoders and PP generation // Decoders and PP generation
RTLIL::Wire *PPij[enc_count][dec_count]; RTLIL::Wire *PPij[enc_count * dec_count];
RTLIL::Wire *nxj[enc_count][dec_count]; RTLIL::Wire *nxj[enc_count * dec_count];
for (int encoder_ix = 1; encoder_ix <= (int)enc_count; encoder_ix++) { for (int encoder_ix = 1; encoder_ix <= (int)enc_count; encoder_ix++) {
for (int decoder_ix = 1; decoder_ix <= dec_count; decoder_ix++) { for (int decoder_ix = 1; decoder_ix <= dec_count; decoder_ix++) {
std::string ppij_name = "ppij_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_"; std::string ppij_name = "ppij_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_";
PPij[encoder_ix - 1][decoder_ix - 1] = module->addWire(new_id(ppij_name, __LINE__, ""), 1); PPij[((encoder_ix - 1) * dec_count) + decoder_ix - 1] = module->addWire(new_id(ppij_name, __LINE__, ""), 1);
std::string nxj_name; std::string nxj_name;
if (decoder_ix == 1) if (decoder_ix == 1)
nxj_name = "nxj_pre_dec" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_"; nxj_name = "nxj_pre_dec" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_";
else else
nxj_name = "nxj_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_"; nxj_name = "nxj_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_";
nxj[encoder_ix - 1][decoder_ix - 1] = module->addWire(new_id(nxj_name, __LINE__, ""), 1); nxj[((encoder_ix - 1) * dec_count) + decoder_ix - 1] = module->addWire(new_id(nxj_name, __LINE__, ""), 1);
} }
} }
@ -1202,7 +1203,7 @@ struct MultPassWorker {
auto cell = module->addCell(new_id(pre_dec_name, __LINE__, ""), ID($_NOT_)); auto cell = module->addCell(new_id(pre_dec_name, __LINE__, ""), ID($_NOT_));
cell->add_strpool_attribute(ID::src, cell->get_strpool_attribute(ID::src)); cell->add_strpool_attribute(ID::src, cell->get_strpool_attribute(ID::src));
cell->setPort(ID::A, negi_n_int[encoder_ix - 1]); cell->setPort(ID::A, negi_n_int[encoder_ix - 1]);
cell->setPort(ID::Y, nxj[encoder_ix - 1][0]); cell->setPort(ID::Y, nxj[(encoder_ix - 1) * dec_count]);
} }
for (int decoder_ix = 1; decoder_ix < dec_count; decoder_ix++) { for (int decoder_ix = 1; decoder_ix < dec_count; decoder_ix++) {
@ -1214,18 +1215,18 @@ struct MultPassWorker {
std::string dec_name = "dec_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_"; std::string dec_name = "dec_" + std::to_string(encoder_ix) + "_" + std::to_string(decoder_ix) + "_";
BuildBr4d(dec_name, nxj[encoder_ix - 1][decoder_ix - 1], twoi_n_int[encoder_ix - 1], BuildBr4d(dec_name, nxj[((encoder_ix - 1) * dec_count) + decoder_ix - 1], twoi_n_int[encoder_ix - 1],
mk_wireFromSigSpec(SigSpec(X, decoder_ix - 1, 1)), negi_n_int[encoder_ix - 1], onei_n_int[encoder_ix - 1], mk_wireFromSigSpec(SigSpec(X, decoder_ix - 1, 1)), negi_n_int[encoder_ix - 1], onei_n_int[encoder_ix - 1],
PPij[encoder_ix - 1][decoder_ix - 1], nxj[encoder_ix - 1][decoder_ix]); PPij[((encoder_ix - 1) * dec_count) + decoder_ix - 1], nxj[((encoder_ix - 1) * dec_count) + decoder_ix]);
} }
// duplicate end for sign fix // duplicate end for sign fix
// applies to 9th decoder (xsz+1 decoder). // applies to 9th decoder (xsz+1 decoder).
std::string dec_name = "dec_" + std::to_string(encoder_ix) + "_" + std::to_string(x_sz + 1) + "_"; std::string dec_name = "dec_" + std::to_string(encoder_ix) + "_" + std::to_string(x_sz + 1) + "_";
RTLIL::Wire *unused_op = nullptr; RTLIL::Wire *unused_op = nullptr;
BuildBr4d(dec_name, nxj[encoder_ix - 1][dec_count - 1], twoi_n_int[encoder_ix - 1], BuildBr4d(dec_name, nxj[((encoder_ix - 1) * dec_count) + dec_count - 1], twoi_n_int[encoder_ix - 1],
mk_wireFromSigSpec(SigSpec(X, dec_count - 2, 1)), negi_n_int[encoder_ix - 1], onei_n_int[encoder_ix - 1], mk_wireFromSigSpec(SigSpec(X, dec_count - 2, 1)), negi_n_int[encoder_ix - 1], onei_n_int[encoder_ix - 1],
PPij[encoder_ix - 1][dec_count - 1], unused_op); PPij[((encoder_ix - 1) * dec_count) + dec_count - 1], unused_op);
} }
// //
@ -1233,16 +1234,17 @@ struct MultPassWorker {
// //
int fa_el_ix = 0; int fa_el_ix = 0;
int fa_row_ix = 0; int fa_row_ix = 0;
RTLIL::Wire *fa_sum_n[fa_row_count][fa_count]; // use 1 d arrays (2d cannot have variable sized indices)
RTLIL::Wire *fa_carry_n[fa_row_count][fa_count]; RTLIL::Wire *fa_sum_n[fa_row_count * fa_count];
RTLIL::Wire *fa_carry_n[fa_row_count * fa_count];
for (fa_row_ix = 0; fa_row_ix < fa_row_count; fa_row_ix++) { for (fa_row_ix = 0; fa_row_ix < fa_row_count; fa_row_ix++) {
for (fa_el_ix = 0; fa_el_ix < fa_count; fa_el_ix++) { for (fa_el_ix = 0; fa_el_ix < fa_count; fa_el_ix++) {
std::string fa_sum_name = "fa_sum_n_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_"; std::string fa_sum_name = "fa_sum_n_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_";
fa_sum_n[fa_row_ix][fa_el_ix] = module->addWire(new_id(fa_sum_name, __LINE__, ""), 1); fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix] = module->addWire(new_id(fa_sum_name, __LINE__, ""), 1);
std::string fa_carry_name = "fa_carry_n" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_"; std::string fa_carry_name = "fa_carry_n" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_";
fa_carry_n[fa_row_ix][fa_el_ix] = module->addWire(new_id(fa_carry_name, __LINE__, ""), 1); fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix] = module->addWire(new_id(fa_carry_name, __LINE__, ""), 1);
} }
} }
@ -1268,11 +1270,11 @@ struct MultPassWorker {
bfa_name = "bfa_0_step_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L"; bfa_name = "bfa_0_step_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L";
auto cell = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell->setParam(ID::WIDTH, 1); cell->setParam(ID::WIDTH, 1);
cell->setPort(ID::A, PPij[0][fa_el_ix]); cell->setPort(ID::A, PPij[(0 * dec_count) + fa_el_ix]);
cell->setPort(ID::B, PPij[1][fa_el_ix - 2]); cell->setPort(ID::B, PPij[(1 * dec_count) + fa_el_ix - 2]);
cell->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
} }
// end 3 cells: x_sz+1.2.3 // end 3 cells: x_sz+1.2.3
// //
@ -1281,11 +1283,11 @@ struct MultPassWorker {
bfa_name = "bfa_0_se_0" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L"; bfa_name = "bfa_0_se_0" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L";
auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell1->setParam(ID::WIDTH, 1); cell1->setParam(ID::WIDTH, 1);
cell1->setPort(ID::A, PPij[0][x_sz]); cell1->setPort(ID::A, PPij[(0 * dec_count) + x_sz]);
cell1->setPort(ID::B, PPij[1][fa_el_ix - 2]); cell1->setPort(ID::B, PPij[(1 * dec_count) + fa_el_ix - 2]);
cell1->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell1->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell1->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell1->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
// exception:invert ppi // exception:invert ppi
fa_el_ix++; fa_el_ix++;
@ -1295,7 +1297,7 @@ struct MultPassWorker {
RTLIL::Wire *d08_inv = module->addWire(NEW_ID, 1); RTLIL::Wire *d08_inv = module->addWire(NEW_ID, 1);
cellinv1->setPort(ID::A, PPij[0][dec_count - 1]); cellinv1->setPort(ID::A, PPij[(0 * dec_count) + dec_count - 1]);
cellinv1->setPort(ID::Y, d08_inv); cellinv1->setPort(ID::Y, d08_inv);
exc_inv_name = "bfa_0_exc_inv2_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L"; exc_inv_name = "bfa_0_exc_inv2_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L";
@ -1303,7 +1305,7 @@ struct MultPassWorker {
auto cellinv2 = module->addCell(new_id(exc_inv_name, __LINE__, ""), ID($_NOT_)); auto cellinv2 = module->addCell(new_id(exc_inv_name, __LINE__, ""), ID($_NOT_));
cellinv2->add_strpool_attribute(ID::src, cellinv2->get_strpool_attribute(ID::src)); cellinv2->add_strpool_attribute(ID::src, cellinv2->get_strpool_attribute(ID::src));
RTLIL::Wire *d18_inv = module->addWire(NEW_ID, 1); RTLIL::Wire *d18_inv = module->addWire(NEW_ID, 1);
cellinv2->setPort(ID::A, PPij[1][dec_count - 1]); cellinv2->setPort(ID::A, PPij[(1 * dec_count) + dec_count - 1]);
cellinv2->setPort(ID::Y, d18_inv); cellinv2->setPort(ID::Y, d18_inv);
bfa_name = "bfa_0_se_1_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L"; bfa_name = "bfa_0_se_1_" + std::to_string(fa_row_ix) + "_" + std::to_string(fa_el_ix) + "_L";
@ -1312,9 +1314,9 @@ struct MultPassWorker {
cell2->setParam(ID::WIDTH, 1); cell2->setParam(ID::WIDTH, 1);
cell2->setPort(ID::A, d08_inv); cell2->setPort(ID::A, d08_inv);
cell2->setPort(ID::B, d18_inv); cell2->setPort(ID::B, d18_inv);
cell2->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell2->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell2->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell2->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
// sign extension // sign extension
fa_el_ix++; fa_el_ix++;
@ -1323,9 +1325,9 @@ struct MultPassWorker {
cell3->setParam(ID::WIDTH, 1); cell3->setParam(ID::WIDTH, 1);
cell3->setPort(ID::A, State::S0); cell3->setPort(ID::A, State::S0);
cell3->setPort(ID::B, State::S1); cell3->setPort(ID::B, State::S1);
cell3->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell3->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell3->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell3->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell3->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell3->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
} }
} }
@ -1340,22 +1342,23 @@ struct MultPassWorker {
std::to_string(fa_el_ix) + "_L"; std::to_string(fa_el_ix) + "_L";
auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell1->setParam(ID::WIDTH, 1); cell1->setParam(ID::WIDTH, 1);
cell1->setPort(ID::A, fa_sum_n[fa_row_ix - 1][2]); // from prior full adder row cell1->setPort(ID::A, fa_sum_n[(fa_row_ix - 1) * fa_count + 2]); // from prior full adder row
cell1->setPort(ID::B, State::S0); cell1->setPort(ID::B, State::S0);
cell1->setPort(ID::C, cori_n_int[fa_row_ix]); cell1->setPort(ID::C, cori_n_int[fa_row_ix]);
cell1->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell1->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
fa_el_ix++; fa_el_ix++;
bfa_name = "bfa_" + std::to_string(fa_row_ix) + "_base_" + std::to_string(fa_row_ix) + "_" + bfa_name = "bfa_" + std::to_string(fa_row_ix) + "_base_" + std::to_string(fa_row_ix) + "_" +
std::to_string(fa_el_ix) + "_L"; std::to_string(fa_el_ix) + "_L";
auto cell2 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell2 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell2->setParam(ID::WIDTH, 1); cell2->setParam(ID::WIDTH, 1);
cell2->setPort(ID::A, fa_sum_n[fa_row_ix - 1][3]); // from prior full adder row cell2->setPort(ID::A,
fa_sum_n[(fa_row_ix - 1) * fa_count + 3]); // from prior full adder row
cell2->setPort(ID::B, State::S0); cell2->setPort(ID::B, State::S0);
cell2->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell2->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell2->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell2->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
} }
else if (fa_el_ix >= 2 && fa_el_ix <= x_sz + 1) { else if (fa_el_ix >= 2 && fa_el_ix <= x_sz + 1) {
@ -1364,11 +1367,11 @@ struct MultPassWorker {
std::to_string(fa_el_ix) + "_L"; std::to_string(fa_el_ix) + "_L";
auto cell = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell->setParam(ID::WIDTH, 1); cell->setParam(ID::WIDTH, 1);
cell->setPort(ID::A, fa_sum_n[fa_row_ix - 1][fa_el_ix + 2]); cell->setPort(ID::A, fa_sum_n[(fa_row_ix - 1) * fa_count + fa_el_ix + 2]);
cell->setPort(ID::B, PPij[fa_row_ix + 1][fa_el_ix - 2]); cell->setPort(ID::B, PPij[(fa_row_ix + 1) * dec_count + fa_el_ix - 2]);
cell->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
} }
else if (fa_el_ix > x_sz + 1) { else if (fa_el_ix > x_sz + 1) {
@ -1379,18 +1382,18 @@ struct MultPassWorker {
auto cellinv = module->addCell(new_id(se_inv_name, __LINE__, ""), ID($_NOT_)); auto cellinv = module->addCell(new_id(se_inv_name, __LINE__, ""), ID($_NOT_));
cellinv->add_strpool_attribute(ID::src, cellinv->get_strpool_attribute(ID::src)); cellinv->add_strpool_attribute(ID::src, cellinv->get_strpool_attribute(ID::src));
RTLIL::Wire *d_inv = module->addWire(NEW_ID, 1); RTLIL::Wire *d_inv = module->addWire(NEW_ID, 1);
cellinv->setPort(ID::A, PPij[fa_row_ix + 1][dec_count - 1]); cellinv->setPort(ID::A, PPij[((fa_row_ix + 1) * dec_count) + dec_count - 1]);
cellinv->setPort(ID::Y, d_inv); cellinv->setPort(ID::Y, d_inv);
bfa_name = "bfa_" + std::to_string(fa_row_ix) + "_se_" + std::to_string(fa_row_ix) + "_" + bfa_name = "bfa_" + std::to_string(fa_row_ix) + "_se_" + std::to_string(fa_row_ix) + "_" +
std::to_string(fa_el_ix) + "_L"; std::to_string(fa_el_ix) + "_L";
auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa)); auto cell1 = module->addCell(new_id(bfa_name, __LINE__, ""), ID($fa));
cell1->setParam(ID::WIDTH, 1); cell1->setParam(ID::WIDTH, 1);
cell1->setPort(ID::A, fa_carry_n[fa_row_ix - 1][fa_count - 1]); cell1->setPort(ID::A, fa_carry_n[((fa_row_ix - 1) * fa_count) + fa_count - 1]);
cell1->setPort(ID::B, d_inv); cell1->setPort(ID::B, d_inv);
cell1->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell1->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell1->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell1->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell1->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
fa_el_ix++; fa_el_ix++;
// sign extension // sign extension
@ -1400,9 +1403,9 @@ struct MultPassWorker {
cell2->setParam(ID::WIDTH, 1); cell2->setParam(ID::WIDTH, 1);
cell2->setPort(ID::A, State::S0); cell2->setPort(ID::A, State::S0);
cell2->setPort(ID::B, State::S1); cell2->setPort(ID::B, State::S1);
cell2->setPort(ID::C, fa_carry_n[fa_row_ix][fa_el_ix - 1]); cell2->setPort(ID::C, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix - 1]);
cell2->setPort(ID::X, fa_carry_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::X, fa_carry_n[(fa_row_ix * fa_count) + fa_el_ix]);
cell2->setPort(ID::Y, fa_sum_n[fa_row_ix][fa_el_ix]); cell2->setPort(ID::Y, fa_sum_n[(fa_row_ix * fa_count) + fa_el_ix]);
} }
} }
} }
@ -1428,7 +1431,7 @@ struct MultPassWorker {
std::string buf_name = std::string buf_name =
"pp_buf_" + std::to_string(cpa_ix) + "_" + "driven_by_fa_row_" + std::to_string(fa_row_ix) + "_"; "pp_buf_" + std::to_string(cpa_ix) + "_" + "driven_by_fa_row_" + std::to_string(fa_row_ix) + "_";
auto buf = module->addCell(new_id(buf_name, __LINE__, ""), ID($pos)); auto buf = module->addCell(new_id(buf_name, __LINE__, ""), ID($pos));
buf->setPort(ID::A, fa_sum_n[fa_row_ix][0]); buf->setPort(ID::A, fa_sum_n[(fa_row_ix * fa_count) + 0]);
buf->setParam(ID::A_WIDTH, 1); buf->setParam(ID::A_WIDTH, 1);
buf->setParam(ID::Y_WIDTH, 1); buf->setParam(ID::Y_WIDTH, 1);
buf->setParam(ID::A_SIGNED, true); buf->setParam(ID::A_SIGNED, true);
@ -1437,7 +1440,7 @@ struct MultPassWorker {
cpa_ix++; cpa_ix++;
buf_name = "pp_buf_" + std::to_string(cpa_ix) + "_" + "driven_by_fa_row_" + std::to_string(fa_row_ix) + "_"; buf_name = "pp_buf_" + std::to_string(cpa_ix) + "_" + "driven_by_fa_row_" + std::to_string(fa_row_ix) + "_";
buf = module->addCell(new_id(buf_name, __LINE__, ""), ID($pos)); buf = module->addCell(new_id(buf_name, __LINE__, ""), ID($pos));
buf->setPort(ID::A, fa_sum_n[fa_row_ix][1]); buf->setPort(ID::A, fa_sum_n[(fa_row_ix * fa_count) + 1]);
buf->setParam(ID::A_WIDTH, 1); buf->setParam(ID::A_WIDTH, 1);
buf->setParam(ID::Y_WIDTH, 1); buf->setParam(ID::Y_WIDTH, 1);
buf->setParam(ID::A_SIGNED, true); buf->setParam(ID::A_SIGNED, true);
@ -1454,7 +1457,8 @@ struct MultPassWorker {
ci_wire = cpa_carry[cpa_ix - offset - 1]; ci_wire = cpa_carry[cpa_ix - offset - 1];
RTLIL::Wire *op_wire = module->addWire(NEW_ID, 1); RTLIL::Wire *op_wire = module->addWire(NEW_ID, 1);
BuildHa(cpa_name, fa_sum_n[fa_row_count - 1][cpa_ix - offset + 2], ci_wire, op_wire, cpa_carry[cpa_ix - offset]); BuildHa(cpa_name, fa_sum_n[(fa_row_count - 1) * fa_count + cpa_ix - offset + 2], ci_wire, op_wire,
cpa_carry[cpa_ix - offset]);
module->connect(op_wire, SigSpec(Z, cpa_ix, 1)); module->connect(op_wire, SigSpec(Z, cpa_ix, 1));
} }
} }
@ -1481,10 +1485,10 @@ struct MultPassWorker {
nxj_o_int, cor_o_int, pp0_o_int, pp1_o_int); nxj_o_int, cor_o_int, pp0_o_int, pp1_o_int);
join_wires_with_buffer(pp0_o_int, fa_sum_n[0][0]); join_wires_with_buffer(pp0_o_int, fa_sum_n[(0 * fa_count) + 0]);
join_wires_with_buffer(pp1_o_int, fa_sum_n[0][1]); join_wires_with_buffer(pp1_o_int, fa_sum_n[(0 * fa_count) + 1]);
join_wires_with_buffer(cor_o_int, fa_carry_n[0][1]); join_wires_with_buffer(cor_o_int, fa_carry_n[(0 * fa_count) + 1]);
join_wires_with_buffer(nxj_o_int, nxj[0][2]); join_wires_with_buffer(nxj_o_int, nxj[(0 * dec_count) + 2]);
} }
}; };