yosys/tests/opt/opt_mem_feedback.ys

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# Good case: proper feedback port.
read_verilog << EOT
module top(...);
input clk;
input en;
input s;
input [3:0] ra;
output [15:0] rd;
input [3:0] wa;
input [15:0] wd;
reg [15:0] mem[0:15];
assign rd = mem[ra];
always @(posedge clk) begin
if (en) begin
mem[wa] <= {mem[wa][15:8], s ? wd[7:0] : mem[wa][7:0]};
end
end
endmodule
EOT
hierarchy -auto-top
proc
opt_clean
design -save start
memory_map
design -save preopt
design -load start
opt_mem_feedback
select -assert-count 1 t:$memrd
memory_map
design -save postopt
equiv_opt -assert -run prepare: :
design -reset
# Bad case: read port also used for other things.
read_verilog << EOT
module top(...);
input clk;
input en;
input s;
output [15:0] rd;
input [3:0] wa;
input [15:0] wd;
reg [15:0] mem[0:15];
assign rd = mem[wa];
always @(posedge clk) begin
if (en) begin
mem[wa] <= {s ? rd : wd[15:8], s ? wd[7:0] : rd};
end
end
endmodule
EOT
hierarchy -auto-top
proc
opt_clean
design -save start
memory_map
design -save preopt
design -load start
select -assert-count 1 t:$memrd
opt_mem_feedback
select -assert-count 1 t:$memrd
memory_map
design -save postopt
equiv_opt -assert -run prepare: :
design -reset
# Bad case: another user of the mux out.
read_verilog << EOT
module top(...);
input clk;
input en;
input s;
output [15:0] rd;
input [3:0] wa;
input [15:0] wd;
reg [15:0] mem[0:15];
assign rd = s ? wd : mem[wa];
always @(posedge clk) begin
if (en) begin
mem[wa] <= rd;
end
end
endmodule
EOT
hierarchy -auto-top
proc
opt_clean
design -save start
memory_map
design -save preopt
design -load start
select -assert-count 1 t:$memrd
opt_mem_feedback
select -assert-count 1 t:$memrd
memory_map
design -save postopt
equiv_opt -assert -run prepare: :
design -reset
# Tricky case: legit feedback path, but priority needs to be preserved.
read_verilog << EOT
module top(...);
input clk;
input sel;
input [3:0] wa1;
input [3:0] wa2;
input [15:0] wd1;
input [3:0] ra;
output [15:0] rd;
reg [15:0] mem [0:15];
always @(posedge clk) begin
mem[wa1] <= sel ? wd1 : mem[wa1];
mem[wa2] <= mem[wa2];
end
assign rd = mem[ra];
endmodule
EOT
hierarchy -auto-top
proc
opt_clean
design -save start
memory_map
design -save preopt
design -load start
opt_mem_feedback
select -assert-count 1 t:$memrd
memory_map
design -save postopt
equiv_opt -assert -run prepare: :