Added $_MUX4_, $_MUX8_, and $_MUX16_ cell types

This commit is contained in:
Clifford Wolf 2015-04-05 09:45:14 +02:00
parent c52a4cdeed
commit 706631225e
4 changed files with 131 additions and 2 deletions

View File

@ -95,7 +95,6 @@ struct CellTypes
"$add", "$sub", "$mul", "$div", "$mod", "$pow",
"$logic_and", "$logic_or", "$concat", "$macc"
};
IdString A = "\\A", B = "\\B", S = "\\S", Y = "\\Y";
IdString P = "\\P", G = "\\G", C = "\\C", X = "\\X";
IdString BI = "\\BI", CI = "\\CI", CO = "\\CO", EN = "\\EN";
@ -144,7 +143,13 @@ struct CellTypes
void setup_stdcells()
{
IdString A = "\\A", B = "\\B", C = "\\C", D = "\\D", S = "\\S", Y = "\\Y";
IdString A = "\\A", B = "\\B", C = "\\C", D = "\\D";
IdString E = "\\E", F = "\\F", G = "\\G", H = "\\H";
IdString I = "\\I", J = "\\J", K = "\\K", L = "\\L";
IdString M = "\\I", N = "\\N", O = "\\O", P = "\\P";
IdString S = "\\S", T = "\\T", U = "\\U", V = "\\V";
IdString Y = "\\Y";
setup_type("$_BUF_", {A}, {Y}, true);
setup_type("$_NOT_", {A}, {Y}, true);
setup_type("$_AND_", {A, B}, {Y}, true);
@ -154,6 +159,9 @@ struct CellTypes
setup_type("$_XOR_", {A, B}, {Y}, true);
setup_type("$_XNOR_", {A, B}, {Y}, true);
setup_type("$_MUX_", {A, B, S}, {Y}, true);
setup_type("$_MUX4_", {A, B, C, D, S, T}, {Y}, true);
setup_type("$_MUX8_", {A, B, C, D, E, F, G, H, S, T, U}, {Y}, true);
setup_type("$_MUX16_", {A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V}, {Y}, true);
setup_type("$_AOI3_", {A, B, C}, {Y}, true);
setup_type("$_OAI3_", {A, B, C}, {Y}, true);
setup_type("$_AOI4_", {A, B, C, D}, {Y}, true);

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@ -970,6 +970,10 @@ namespace {
if (cell->type == "$_AOI4_") { check_gate("ABCDY"); return; }
if (cell->type == "$_OAI4_") { check_gate("ABCDY"); return; }
if (cell->type == "$_MUX4_") { check_gate("ABCDSTY"); return; }
if (cell->type == "$_MUX8_") { check_gate("ABCDEFGHSTUY"); return; }
if (cell->type == "$_MUX16_") { check_gate("ABCDEFGHIJKLMNOPSTUVY"); return; }
if (cell->type == "$_SR_NN_") { check_gate("SRQ"); return; }
if (cell->type == "$_SR_NP_") { check_gate("SRQ"); return; }
if (cell->type == "$_SR_PN_") { check_gate("SRQ"); return; }

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@ -90,6 +90,10 @@ struct gate_t
RTLIL::SigBit bit;
};
bool map_mux4;
bool map_mux8;
bool map_mux16;
bool markgroups;
int map_autoidx;
SigMap assign_map;
@ -844,6 +848,12 @@ void abc_module(RTLIL::Design *design, RTLIL::Module *current_module, std::strin
fprintf(f, "GATE AOI4 %d Y=!((A*B)+(C*D)); PIN * INV 1 999 1 0 1 0\n", get_cell_cost("$_AOI4_"));
fprintf(f, "GATE OAI4 %d Y=!((A+B)*(C+D)); PIN * INV 1 999 1 0 1 0\n", get_cell_cost("$_OAI4_"));
fprintf(f, "GATE MUX %d Y=(A*B)+(S*B)+(!S*A); PIN * UNKNOWN 1 999 1 0 1 0\n", get_cell_cost("$_MUX_"));
if (map_mux4)
fprintf(f, "GATE MUX4 %d Y=(!S*!T*A)+(S*!T*B)+(!S*T*C)+(S*T*D); PIN * UNKNOWN 1 999 1 0 1 0\n", 2*get_cell_cost("$_MUX_"));
if (map_mux8)
fprintf(f, "GATE MUX8 %d Y=(!S*!T*!U*A)+(S*!T*!U*B)+(!S*T*!U*C)+(S*T*!U*D)+(!S*!T*U*E)+(S*!T*U*F)+(!S*T*U*G)+(S*T*U*H); PIN * UNKNOWN 1 999 1 0 1 0\n", 4*get_cell_cost("$_MUX_"));
if (map_mux16)
fprintf(f, "GATE MUX16 %d Y=(!S*!T*!U*!V*A)+(S*!T*!U*!V*B)+(!S*T*!U*!V*C)+(S*T*!U*!V*D)+(!S*!T*U*!V*E)+(S*!T*U*!V*F)+(!S*T*U*!V*G)+(S*T*U*!V*H)+(!S*!T*!U*V*I)+(S*!T*!U*V*J)+(!S*T*!U*V*K)+(S*T*!U*V*L)+(!S*!T*U*V*M)+(S*!T*U*V*N)+(!S*T*U*V*O)+(S*T*U*V*P); PIN * UNKNOWN 1 999 1 0 1 0\n", 8*get_cell_cost("$_MUX_"));
fclose(f);
if (lut_mode) {
@ -934,6 +944,64 @@ void abc_module(RTLIL::Design *design, RTLIL::Module *current_module, std::strin
design->select(module, cell);
continue;
}
if (c->type == "\\MUX4") {
RTLIL::Cell *cell = module->addCell(remap_name(c->name), "$_MUX4_");
if (markgroups) cell->attributes["\\abcgroup"] = map_autoidx;
cell->setPort("\\A", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\A").as_wire()->name)]));
cell->setPort("\\B", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\B").as_wire()->name)]));
cell->setPort("\\C", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\C").as_wire()->name)]));
cell->setPort("\\D", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\D").as_wire()->name)]));
cell->setPort("\\S", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\S").as_wire()->name)]));
cell->setPort("\\T", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\T").as_wire()->name)]));
cell->setPort("\\Y", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\Y").as_wire()->name)]));
design->select(module, cell);
continue;
}
if (c->type == "\\MUX8") {
RTLIL::Cell *cell = module->addCell(remap_name(c->name), "$_MUX8_");
if (markgroups) cell->attributes["\\abcgroup"] = map_autoidx;
cell->setPort("\\A", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\A").as_wire()->name)]));
cell->setPort("\\B", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\B").as_wire()->name)]));
cell->setPort("\\C", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\C").as_wire()->name)]));
cell->setPort("\\D", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\D").as_wire()->name)]));
cell->setPort("\\E", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\E").as_wire()->name)]));
cell->setPort("\\F", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\F").as_wire()->name)]));
cell->setPort("\\G", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\G").as_wire()->name)]));
cell->setPort("\\H", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\H").as_wire()->name)]));
cell->setPort("\\S", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\S").as_wire()->name)]));
cell->setPort("\\T", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\T").as_wire()->name)]));
cell->setPort("\\U", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\U").as_wire()->name)]));
cell->setPort("\\Y", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\Y").as_wire()->name)]));
design->select(module, cell);
continue;
}
if (c->type == "\\MUX16") {
RTLIL::Cell *cell = module->addCell(remap_name(c->name), "$_MUX16_");
if (markgroups) cell->attributes["\\abcgroup"] = map_autoidx;
cell->setPort("\\A", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\A").as_wire()->name)]));
cell->setPort("\\B", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\B").as_wire()->name)]));
cell->setPort("\\C", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\C").as_wire()->name)]));
cell->setPort("\\D", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\D").as_wire()->name)]));
cell->setPort("\\E", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\E").as_wire()->name)]));
cell->setPort("\\F", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\F").as_wire()->name)]));
cell->setPort("\\G", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\G").as_wire()->name)]));
cell->setPort("\\H", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\H").as_wire()->name)]));
cell->setPort("\\I", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\I").as_wire()->name)]));
cell->setPort("\\J", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\J").as_wire()->name)]));
cell->setPort("\\K", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\K").as_wire()->name)]));
cell->setPort("\\L", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\L").as_wire()->name)]));
cell->setPort("\\M", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\M").as_wire()->name)]));
cell->setPort("\\N", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\N").as_wire()->name)]));
cell->setPort("\\O", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\O").as_wire()->name)]));
cell->setPort("\\P", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\P").as_wire()->name)]));
cell->setPort("\\S", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\S").as_wire()->name)]));
cell->setPort("\\T", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\T").as_wire()->name)]));
cell->setPort("\\U", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\U").as_wire()->name)]));
cell->setPort("\\V", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\V").as_wire()->name)]));
cell->setPort("\\Y", RTLIL::SigSpec(module->wires_[remap_name(c->getPort("\\Y").as_wire()->name)]));
design->select(module, cell);
continue;
}
if (c->type == "\\AOI3" || c->type == "\\OAI3") {
RTLIL::Cell *cell = module->addCell(remap_name(c->name), "$_" + c->type.substr(1) + "_");
if (markgroups) cell->attributes["\\abcgroup"] = map_autoidx;
@ -1150,6 +1218,10 @@ struct AbcPass : public Pass {
log(" the area cost doubles with each additional input bit. the delay cost\n");
log(" is still constant for all lut widths.\n");
log("\n");
// log(" -mux4, -mux8, -mux16\n");
// log(" try to extract 4-input, 8-input, and/or 16-input muxes\n");
// log(" (ignored when used with -liberty or -lut)\n");
// log("\n");
log(" -dff\n");
log(" also pass $_DFF_?_ and $_DFFE_??_ cells through ABC. modules with many\n");
log(" clock domains are automatically partitioned in clock domains and each\n");
@ -1197,6 +1269,10 @@ struct AbcPass : public Pass {
int lut_mode = 0, lut_mode2 = 0;
markgroups = false;
map_mux4 = false;
map_mux8 = false;
map_mux16 = false;
#ifdef _WIN32
if (!check_file_exists(exe_file + ".exe") && check_file_exists(proc_self_dirname() + "..\\yosys-abc.exe"))
exe_file = proc_self_dirname() + "..\\yosys-abc";
@ -1248,6 +1324,18 @@ struct AbcPass : public Pass {
}
continue;
}
if (arg == "-mux4") {
map_mux4 = true;
continue;
}
if (arg == "-mux8") {
map_mux8 = true;
continue;
}
if (arg == "-mux16") {
map_mux16 = true;
continue;
}
if (arg == "-fast") {
fast_mode = true;
continue;

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@ -79,6 +79,35 @@ output Y;
assign Y = S ? B : A;
endmodule
module \$_MUX4_ (A, B, C, D, S, T, Y);
input A, B, C, D, S, T;
output Y;
assign Y = T ? (S ? D : C) :
(S ? B : A);
endmodule
module \$_MUX8_ (A, B, C, D, E, F, G, H, S, T, U, Y);
input A, B, C, D, E, F, G, H, S, T, U;
output Y;
assign Y = U ? T ? (S ? H : G) :
(S ? F : E) :
T ? (S ? D : C) :
(S ? B : A);
endmodule
module \$_MUX16_ (A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V, Y);
input A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, S, T, U, V;
output Y;
assign Y = V ? U ? T ? (S ? P : O) :
(S ? N : M) :
T ? (S ? L : K) :
(S ? J : I) :
U ? T ? (S ? H : G) :
(S ? F : E) :
T ? (S ? D : C) :
(S ? B : A);
endmodule
module \$_AOI3_ (A, B, C, Y);
input A, B, C;
output Y;