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Merge remote-tracking branch 'origin/eddie/muxpack' into xc7mux

This commit is contained in:
Eddie Hung 2019-06-06 14:06:59 -07:00
parent 935df3569b 0a66720f6f
commit eaee250a6e
23 changed files with 819 additions and 12 deletions
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1
CHANGELOG
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@ -16,6 +16,7 @@ Yosys 0.8 .. Yosys 0.8-dev
- Added "gate2lut.v" techmap rule
- Added "rename -src"
- Added "equiv_opt" pass
- Added "muxpack" pass
- "synth_xilinx" to now infer hard shift registers, using new "shregmap -tech xilinx"

24
frontends/verilog/verilog_parser.y
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@ -1532,27 +1532,31 @@ cell_port_list_rules:
cell_port | cell_port_list_rules ',' cell_port;
cell_port:
/* empty */ {
attr {
AstNode *node = new AstNode(AST_ARGUMENT);
astbuf2->children.push_back(node);
free_attr($1);
} |
expr {
attr expr {
AstNode *node = new AstNode(AST_ARGUMENT);
astbuf2->children.push_back(node);
node->children.push_back($1);
node->children.push_back($2);
free_attr($1);
} |
'.' TOK_ID '(' expr ')' {
attr '.' TOK_ID '(' expr ')' {
AstNode *node = new AstNode(AST_ARGUMENT);
node->str = *$2;
node->str = *$3;
astbuf2->children.push_back(node);
node->children.push_back($4);
delete $2;
node->children.push_back($5);
delete $3;
free_attr($1);
} |
'.' TOK_ID '(' ')' {
attr '.' TOK_ID '(' ')' {
AstNode *node = new AstNode(AST_ARGUMENT);
node->str = *$2;
node->str = *$3;
astbuf2->children.push_back(node);
delete $2;
delete $3;
free_attr($1);
};
always_stmt:

1
passes/opt/Makefile.inc
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@ -14,5 +14,6 @@ OBJS += passes/opt/opt_demorgan.o
OBJS += passes/opt/rmports.o
OBJS += passes/opt/opt_lut.o
OBJS += passes/opt/pmux2shiftx.o
OBJS += passes/opt/muxpack.o
endif

266
passes/opt/muxpack.cc Normal file
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@ -0,0 +1,266 @@
/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
* 2019 Eddie Hung <eddie@fpgeh.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 "kernel/yosys.h"
#include "kernel/sigtools.h"
USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
struct MuxpackWorker
{
Module *module;
SigMap sigmap;
int mux_count, pmux_count;
pool<Cell*> remove_cells;
dict<SigSpec, Cell*> sig_chain_next;
dict<SigSpec, Cell*> sig_chain_prev;
pool<SigBit> sigbit_with_non_chain_users;
pool<Cell*> chain_start_cells;
pool<Cell*> candidate_cells;
void make_sig_chain_next_prev()
{
for (auto wire : module->wires())
{
if (wire->port_output || wire->get_bool_attribute("\\keep")) {
for (auto bit : sigmap(wire))
sigbit_with_non_chain_users.insert(bit);
}
}
for (auto cell : module->cells())
{
if (cell->type.in("$mux", "$pmux") && !cell->get_bool_attribute("\\keep"))
{
SigSpec a_sig = sigmap(cell->getPort("\\A"));
SigSpec b_sig;
if (cell->type == "$mux")
b_sig = sigmap(cell->getPort("\\B"));
SigSpec y_sig = sigmap(cell->getPort("\\Y"));
if (sig_chain_next.count(a_sig))
for (auto a_bit : a_sig.bits())
sigbit_with_non_chain_users.insert(a_bit);
else {
sig_chain_next[a_sig] = cell;
candidate_cells.insert(cell);
}
if (!b_sig.empty()) {
if (sig_chain_next.count(b_sig))
for (auto b_bit : b_sig.bits())
sigbit_with_non_chain_users.insert(b_bit);
else {
sig_chain_next[b_sig] = cell;
candidate_cells.insert(cell);
}
}
sig_chain_prev[y_sig] = cell;
continue;
}
for (auto conn : cell->connections())
if (cell->input(conn.first))
for (auto bit : sigmap(conn.second))
sigbit_with_non_chain_users.insert(bit);
}
}
void find_chain_start_cells()
{
for (auto cell : candidate_cells)
{
log_debug("Considering %s (%s)\n", log_id(cell), log_id(cell->type));
SigSpec next_sig = cell->getPort("\\A");
if (sig_chain_prev.count(next_sig) == 0) {
if (cell->type == "$mux") {
next_sig = cell->getPort("\\B");
if (sig_chain_prev.count(next_sig) == 0)
goto start_cell;
}
else
goto start_cell;
}
{
for (auto bit : next_sig.bits())
if (sigbit_with_non_chain_users.count(bit))
goto start_cell;
Cell *c1 = sig_chain_prev.at(next_sig);
Cell *c2 = cell;
if (c1->getParam("\\WIDTH") != c2->getParam("\\WIDTH"))
goto start_cell;
}
continue;
start_cell:
chain_start_cells.insert(cell);
}
}
vector<Cell*> create_chain(Cell *start_cell)
{
vector<Cell*> chain;
Cell *c = start_cell;
while (c != nullptr)
{
chain.push_back(c);
SigSpec y_sig = sigmap(c->getPort("\\Y"));
if (sig_chain_next.count(y_sig) == 0)
break;
c = sig_chain_next.at(y_sig);
if (chain_start_cells.count(c) != 0)
break;
}
return chain;
}
void process_chain(vector<Cell*> &chain)
{
if (GetSize(chain) < 2)
return;
int cursor = 0;
while (cursor < GetSize(chain))
{
int cases = GetSize(chain) - cursor;
Cell *first_cell = chain[cursor];
dict<int, SigBit> taps_dict;
if (cases < 2) {
cursor++;
continue;
}
Cell *last_cell = chain[cursor+cases-1];
log("Converting %s.%s ... %s.%s to a pmux with %d cases.\n",
log_id(module), log_id(first_cell), log_id(module), log_id(last_cell), cases);
mux_count += cases;
pmux_count += 1;
first_cell->type = "$pmux";
SigSpec b_sig = first_cell->getPort("\\B");
SigSpec s_sig = first_cell->getPort("\\S");
for (int i = 1; i < cases; i++) {
Cell* prev_cell = chain[cursor+i-1];
Cell* cursor_cell = chain[cursor+i];
if (sigmap(prev_cell->getPort("\\Y")) == sigmap(cursor_cell->getPort("\\A"))) {
b_sig.append(cursor_cell->getPort("\\B"));
s_sig.append(cursor_cell->getPort("\\S"));
}
else {
b_sig.append(cursor_cell->getPort("\\A"));
s_sig.append(module->LogicNot(NEW_ID, cursor_cell->getPort("\\S")));
}
remove_cells.insert(cursor_cell);
}
first_cell->setPort("\\B", b_sig);
first_cell->setPort("\\S", s_sig);
first_cell->setParam("\\S_WIDTH", GetSize(s_sig));
first_cell->setPort("\\Y", last_cell->getPort("\\Y"));
cursor += cases;
}
}
void cleanup()
{
for (auto cell : remove_cells)
module->remove(cell);
remove_cells.clear();
sig_chain_next.clear();
sig_chain_prev.clear();
chain_start_cells.clear();
candidate_cells.clear();
}
MuxpackWorker(Module *module) :
module(module), sigmap(module), mux_count(0), pmux_count(0)
{
make_sig_chain_next_prev();
find_chain_start_cells();
for (auto c : chain_start_cells) {
vector<Cell*> chain = create_chain(c);
process_chain(chain);
}
cleanup();
}
};
struct MuxpackPass : public Pass {
MuxpackPass() : Pass("muxpack", "$mux/$pmux cascades to $pmux") { }
void help() YS_OVERRIDE
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" muxpack [selection]\n");
log("\n");
log("This pass converts cascaded chains of $pmux cells (e.g. those create from case\n");
log("constructs) and $mux cells (e.g. those created by if-else constructs) into \n");
log("into $pmux cells.\n");
log("\n");
}
void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
{
log_header(design, "Executing MUXPACK pass ($mux cell cascades to $pmux).\n");
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++)
{
break;
}
extra_args(args, argidx, design);
int mux_count = 0;
int pmux_count = 0;
for (auto module : design->selected_modules()) {
MuxpackWorker worker(module);
mux_count += worker.mux_count;
pmux_count += worker.pmux_count;
}
log("Converted %d (p)mux cells into %d pmux cells.\n", mux_count, pmux_count);
}
} MuxpackPass;
PRIVATE_NAMESPACE_END

4
passes/opt/opt_rmdff.cc
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@ -292,8 +292,8 @@ bool handle_dff(RTLIL::Module *mod, RTLIL::Cell *dff)
sig_q = dff->getPort("\\Q");
sig_c = dff->getPort("\\C");
sig_e = dff->getPort("\\E");
val_cp = RTLIL::Const(dff->type[6] == 'P', 1);
val_ep = RTLIL::Const(dff->type[7] == 'P', 1);
val_cp = RTLIL::Const(dff->type[7] == 'P', 1);
val_ep = RTLIL::Const(dff->type[8] == 'P', 1);
}
else if (dff->type == "$ff") {
sig_d = dff->getPort("\\D");

5
passes/sat/sim.cc
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@ -88,6 +88,8 @@ struct SimInstance
SimInstance(SimShared *shared, Module *module, Cell *instance = nullptr, SimInstance *parent = nullptr) :
shared(shared), module(module), instance(instance), parent(parent), sigmap(module)
{
log_assert(module);
if (parent) {
log_assert(parent->children.count(instance) == 0);
parent->children[instance] = this;
@ -848,6 +850,9 @@ struct SimPass : public Pass {
if (design->full_selection()) {
top_mod = design->top_module();
if (!top_mod)
log_cmd_error("Design has no top module, use the 'hierarchy' command to specify one.\n");
} else {
auto mods = design->selected_whole_modules();
if (GetSize(mods) != 1)

3
passes/techmap/shregmap.cc
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@ -723,6 +723,9 @@ struct ShregmapPass : public Pass {
log(" -tech greenpak4\n");
log(" map to greenpak4 shift registers.\n");
log("\n");
log(" -tech xilinx\n");
log(" map to xilinx dynamic-length shift registers.\n");
log("\n");
}
void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
{

15
techlibs/ecp5/cells_map.v
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@ -47,6 +47,21 @@ module \$__DFFSE_NP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("DISABLED"
module \$__DFFSE_PP0 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("DISABLED"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("RESET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule
module \$__DFFSE_PP1 (input D, C, E, R, output Q); TRELLIS_FF #(.GSR("DISABLED"), .CEMUX("CE"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("LSR_OVER_CE")) _TECHMAP_REPLACE_ (.CLK(C), .CE(E), .LSR(R), .DI(D), .Q(Q)); endmodule
// Diamond I/O buffers
module IB (input I, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule
module IBPU (input I, output O); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule
module IBPD (input I, output O); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(I), .O(O)); endmodule
module OB (input I, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I)); endmodule
module OBZ (input I, T, output O); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule
module OBZPU(input I, T, output O); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule
module OBZPD(input I, T, output O); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(O), .I(I), .T(T)); endmodule
module OBCO (input I, output OT, OC); OLVDS _TECHMAP_REPLACE_ (.A(I), .Z(OT), .ZN(OC)); endmodule
module BB (input I, T, output O, inout B); (* PULLMODE="NONE" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule
module BBPU (input I, T, output O, inout B); (* PULLMODE="UP" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule
module BBPD (input I, T, output O, inout B); (* PULLMODE="DOWN" *) TRELLIS_IO #(.DIR("BIDIR")) _TECHMAP_REPLACE_ (.B(B), .I(I), .O(O), .T(T)); endmodule
module ILVDS(input A, AN, output Z); TRELLIS_IO #(.DIR("INPUT")) _TECHMAP_REPLACE_ (.B(A), .O(Z)); endmodule
module OLVDS(input A, output Z, ZN); TRELLIS_IO #(.DIR("OUTPUT")) _TECHMAP_REPLACE_ (.B(Z), .I(A)); endmodule
// For Diamond compatibility, FIXME: add all Diamond flipflop mappings
module FD1S3BX(input PD, D, CK, output Q); TRELLIS_FF #(.GSR("DISABLED"), .CEMUX("1"), .CLKMUX("CLK"), .LSRMUX("LSR"), .REGSET("SET"), .SRMODE("ASYNC")) _TECHMAP_REPLACE_ (.CLK(CK), .LSR(PD), .DI(D), .Q(Q)); endmodule

21
tests/simple/attrib01_module.v Normal file
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@ -0,0 +1,21 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output reg out;
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= ~inp;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output wire out;
bar bar_instance (clk, rst, inp, out);
endmodule

25
tests/simple/attrib02_port_decl.v Normal file
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@ -0,0 +1,25 @@
module bar(clk, rst, inp, out);
(* this_is_clock = 1 *)
input wire clk;
(* this_is_reset = 1 *)
input wire rst;
input wire inp;
(* an_output_register = 1*)
output reg out;
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= ~inp;
endmodule
module foo(clk, rst, inp, out);
(* this_is_the_master_clock *)
input wire clk;
input wire rst;
input wire inp;
output wire out;
bar bar_instance (clk, rst, inp, out);
endmodule

28
tests/simple/attrib03_parameter.v Normal file
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@ -0,0 +1,28 @@
module bar(clk, rst, inp, out);
(* bus_width *)
parameter WIDTH = 2;
(* an_attribute_on_localparam = 55 *)
localparam INCREMENT = 5;
input wire clk;
input wire rst;
input wire [WIDTH-1:0] inp;
output reg [WIDTH-1:0] out;
always @(posedge clk)
if (rst) out <= 0;
else out <= inp + INCREMENT;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire [7:0] inp;
output wire [7:0] out;
bar # (.WIDTH(8)) bar_instance (clk, rst, inp, out);
endmodule

32
tests/simple/attrib04_net_var.v Normal file
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@ -0,0 +1,32 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output reg out;
(* this_is_a_prescaler *)
reg [7:0] counter;
(* temp_wire *)
wire out_val;
always @(posedge clk)
counter <= counter + 1;
assign out_val = inp ^ counter[4];
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= out_val;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output wire out;
bar bar_instance (clk, rst, inp, out);
endmodule

21
tests/simple/attrib05_port_conn.v.DISABLED Normal file
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@ -0,0 +1,21 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output reg out;
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= ~inp;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output wire out;
bar bar_instance ( (* clock_connected *) clk, rst, (* this_is_the_input *) inp, out);
endmodule

23
tests/simple/attrib06_operator_suffix.v Normal file
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@ -0,0 +1,23 @@
module bar(clk, rst, inp_a, inp_b, out);
input wire clk;
input wire rst;
input wire [7:0] inp_a;
input wire [7:0] inp_b;
output reg [7:0] out;
always @(posedge clk)
if (rst) out <= 0;
else out <= inp_a + (* ripple_adder *) inp_b;
endmodule
module foo(clk, rst, inp_a, inp_b, out);
input wire clk;
input wire rst;
input wire [7:0] inp_a;
input wire [7:0] inp_b;
output wire [7:0] out;
bar bar_instance (clk, rst, inp_a, inp_b, out);
endmodule

21
tests/simple/attrib07_func_call.v.DISABLED Normal file
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@ -0,0 +1,21 @@
function [7:0] do_add;
input [7:0] inp_a;
input [7:0] inp_b;
do_add = inp_a + inp_b;
endfunction
module foo(clk, rst, inp_a, inp_b, out);
input wire clk;
input wire rst;
input wire [7:0] inp_a;
input wire [7:0] inp_b;
output wire [7:0] out;
always @(posedge clk)
if (rst) out <= 0;
else out <= do_add (* combinational_adder *) (inp_a, inp_b);
endmodule

22
tests/simple/attrib08_mod_inst.v Normal file
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@ -0,0 +1,22 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output reg out;
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= ~inp;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output wire out;
(* my_module_instance = 99 *)
bar bar_instance (clk, rst, inp, out);
endmodule

26
tests/simple/attrib09_case.v Normal file
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@ -0,0 +1,26 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire [1:0] inp;
output reg [1:0] out;
always @(inp)
(* full_case, parallel_case *)
case(inp)
2'd0: out <= 2'd3;
2'd1: out <= 2'd2;
2'd2: out <= 2'd1;
2'd3: out <= 2'd0;
endcase
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire [1:0] inp;
output wire [1:0] out;
bar bar_instance (clk, rst, inp, out);
endmodule

21
tests/various/attrib05_port_conn.v Normal file
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@ -0,0 +1,21 @@
module bar(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output reg out;
always @(posedge clk)
if (rst) out <= 1'd0;
else out <= ~inp;
endmodule
module foo(clk, rst, inp, out);
input wire clk;
input wire rst;
input wire inp;
output wire out;
bar bar_instance ( (* clock_connected *) clk, rst, (* this_is_the_input *) inp, out);
endmodule

2
tests/various/attrib05_port_conn.ys Normal file
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@ -0,0 +1,2 @@
# Read and parse Verilog file
read_verilog attrib05_port_conn.v

21
tests/various/attrib07_func_call.v Normal file
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@ -0,0 +1,21 @@
function [7:0] do_add;
input [7:0] inp_a;
input [7:0] inp_b;
do_add = inp_a + inp_b;
endfunction
module foo(clk, rst, inp_a, inp_b, out);
input wire clk;
input wire rst;
input wire [7:0] inp_a;
input wire [7:0] inp_b;
output wire [7:0] out;
always @(posedge clk)
if (rst) out <= 0;
else out <= do_add (* combinational_adder *) (inp_a, inp_b);
endmodule

2
tests/various/attrib07_func_call.ys Normal file
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@ -0,0 +1,2 @@
# Read and parse Verilog file
read_verilog attrib07_func_call.v

112
tests/various/muxpack.v Normal file
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@ -0,0 +1,112 @@
module mux_if_unbal_4_1 #(parameter N=4, parameter W=1) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @*
if (s == 0) o <= i[0*W+:W];
else if (s == 1) o <= i[1*W+:W];
else if (s == 2) o <= i[2*W+:W];
else if (s == 3) o <= i[3*W+:W];
else o <= {W{1'bx}};
endmodule
module mux_if_unbal_5_3 #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
o <= {W{1'bx}};
if (s == 0) o <= i[0*W+:W];
if (s == 1) o <= i[1*W+:W];
if (s == 2) o <= i[2*W+:W];
if (s == 3) o <= i[3*W+:W];
if (s == 4) o <= i[4*W+:W];
end
endmodule
module mux_if_unbal_5_3_invert #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @*
if (s != 0)
if (s != 1)
if (s != 2)
if (s != 3)
if (s != 4) o <= i[4*W+:W];
else o <= i[0*W+:W];
else o <= i[3*W+:W];
else o <= i[2*W+:W];
else o <= i[1*W+:W];
else o <= {W{1'bx}};
endmodule
module mux_if_unbal_5_3_width_mismatch #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
o <= {W{1'bx}};
if (s == 0) o <= i[0*W+:W];
if (s == 1) o <= i[1*W+:W];
if (s == 2) o[W-2:0] <= i[2*W+:W-1];
if (s == 3) o <= i[3*W+:W];
if (s == 4) o <= i[4*W+:W];
end
endmodule
module mux_if_unbal_4_1_missing #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
if (s == 0) o <= i[0*W+:W];
// else if (s == 1) o <= i[1*W+:W];
// else if (s == 2) o <= i[2*W+:W];
else if (s == 3) o <= i[3*W+:W];
else o <= {W{1'bx}};
end
endmodule
module mux_if_unbal_5_3_order #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
o <= {W{1'bx}};
if (s == 3) o <= i[3*W+:W];
if (s == 2) o <= i[2*W+:W];
if (s == 1) o <= i[1*W+:W];
if (s == 4) o <= i[4*W+:W];
if (s == 0) o <= i[0*W+:W];
end
endmodule
module mux_if_unbal_4_1_nonexcl #(parameter N=4, parameter W=1) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @*
if (s == 0) o <= i[0*W+:W];
else if (s == 1) o <= i[1*W+:W];
else if (s == 2) o <= i[2*W+:W];
else if (s == 3) o <= i[3*W+:W];
else if (s == 0) o <= {W{1'b0}};
else o <= {W{1'bx}};
endmodule
module mux_if_unbal_5_3_nonexcl #(parameter N=5, parameter W=3) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
o <= {W{1'bx}};
if (s == 0) o <= i[0*W+:W];
if (s == 1) o <= i[1*W+:W];
if (s == 2) o <= i[2*W+:W];
if (s == 3) o <= i[3*W+:W];
if (s == 4) o <= i[4*W+:W];
if (s == 0) o <= i[2*W+:W];
end
endmodule
module mux_case_unbal_8_7#(parameter N=8, parameter W=7) (input [N*W-1:0] i, input [$clog2(N)-1:0] s, output reg [W-1:0] o);
always @* begin
o <= {W{1'bx}};
case (s)
0: o <= i[0*W+:W];
default:
case (s)
1: o <= i[1*W+:W];
2: o <= i[2*W+:W];
default:
case (s)
3: o <= i[3*W+:W];
4: o <= i[4*W+:W];
5: o <= i[5*W+:W];
default:
case (s)
6: o <= i[6*W+:W];
default: o <= i[7*W+:W];
endcase
endcase
endcase
endcase
end
endmodule

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read_verilog muxpack.v
design -save read
hierarchy -top mux_if_unbal_4_1
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_5_3
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_5_3_invert
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_5_3_width_mismatch
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 2 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_4_1_missing
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_5_3_order
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_4_1_nonexcl
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_if_unbal_5_3_nonexcl
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter
design -load read
hierarchy -top mux_case_unbal_8_7
prep
design -save gold
muxpack
opt
stat
select -assert-count 0 t:$mux
select -assert-count 1 t:$pmux
design -stash gate
design -import gold -as gold
design -import gate -as gate
miter -equiv -flatten -make_assert -make_outputs gold gate miter
sat -verify -prove-asserts -show-ports miter