Using the following script, I am synthesising to a standard cell library for which I have a lib file, my_library.lib
:
read_liberty -lib my_library.lib
script yosys_readfiles.ys
proc; opt; memory; opt; fsm -norecode; opt
techmap; opt
dfflibmap -liberty my_library.lib
abc -liberty my_library.lib
hilomap -hicell LIB_TIEHI Y -locell LIB_TIELO Y
clean
write_verilog -noattr -noexpr output.v
stat
While this generally works, I found that some of the logic isn't mapped efficiently. For example, I have the following Verilog model of a 4-way multiplexer:
module mux4(
input i0,
input i1,
input i2,
input i3,
input s0,
input s1,
output z
);
reg zint;
parameter tdelay = `default_gate_delay;
always @(i0 or i1 or i2 or i3 or s0 or s1) begin
case ({s1, s0})
2'b00: zint <= i0;
2'b01: zint <= i1;
2'b10: zint <= i2;
2'b11: zint <= i3;
default: zint <= i3;
endcase
end
assign z = zint;
endmodule
Yosys synthesised this to the following gate-level netlist:
/* Generated by Yosys 0.5+ (git sha1 f13e387, gcc 5.3.1-8ubuntu2 -O2 -fstack-protector-strong -fPIC -Os) */
module mux4(i0, i1, i2, i3, s0, s1, z);
wire _00_;
wire _01_;
wire _02_;
wire _03_;
wire _04_;
wire _05_;
input i0;
input i1;
input i2;
input i3;
input s0;
input s1;
output z;
wire zint;
NAND3 _06_ (
.A(s1),
.B(s0),
.C(i3),
.Y(_04_)
);
INV _07_ (
.A(s1),
.Y(_05_)
);
NAND3 _08_ (
.A(_05_),
.B(s0),
.C(i1),
.Y(_00_)
);
INV _09_ (
.A(s0),
.Y(_01_)
);
NAND3 _10_ (
.A(_05_),
.B(_01_),
.C(i0),
.Y(_02_)
);
NAND3B _11_ (
.AN(s0),
.B(s1),
.C(i2),
.Y(_03_)
);
NAND4 _12_ (
.A(_02_),
.B(_00_),
.C(_03_),
.D(_04_),
.Y(z)
);
assign zint = z;
endmodule
Since the library I am using already has a MXI4
cell, I would have expected something similar to the following instead:
module mux4(i0, i1, i2, i3, s0, s1, z);
input i0;
input i1;
input i2;
input i3;
input s0;
input s1;
output z;
MXI4 _12_ (
.A(i0),
.B(i1),
.C(i2),
.D(i3),
.S0(s0),
.S1(s1),
.Y(z)
);
endmodule
I am wondering how I can direct Yosys to use the MXI4
cell instead of the cascaded NAND instances above as this would result in a significant reduction in area.
While for this specific cell, I could use the same technique as described in this answer to manually map to the MXI4
cell, but I am concerned that there may be other (more complex) areas of my design where such a manual mapping is either not as obvious and/or infeasible.
One thing I tried was to add the following option to the abc
command in my synthesis script, which I found on Reddit:
-script +strash;scorr;ifraig;retime,{D};strash;dch,-f;map,-M,1,{D}
But it didn't solve the problem either. (Also I couldn't find any documentation on some of these ABC commands, any help there would be appreciated as well.)
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