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yosys/techlibs/rapidflex/alkaidC/arith_map.v

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// Arithmetic units: adder
// Adapt from: https://github.com/chipsalliance/yosys-f4pga-plugins/blob/0ad1af26a29243a9e76379943d735e119dcd0cc6/ql-qlf-plugin/qlf_k6n10/cells_sim.v
// Many thanks to F4PGA for their contribution
(* techmap_celltype = "$alu" *)
module _80_quicklogic_alu (A, B, CI, BI, X, Y, CO);
parameter A_SIGNED = 0;
parameter B_SIGNED = 0;
parameter A_WIDTH = 1;
parameter B_WIDTH = 1;
parameter Y_WIDTH = 1;
input [A_WIDTH-1:0] A;
input [B_WIDTH-1:0] B;
output [Y_WIDTH-1:0] X, Y;
input CI, BI;
output [Y_WIDTH-1:0] CO;
// The max. number of adders we can support in AlkaidS is (12x2-1)x4x16 = 1472
// Fail when resource limit exceeds
// Also fail when a low utilization rate is detected
// Originally prefer to defer carry mapping when < 2-bit adder is detected
// Due to a bug found in scalable seq detector, the bound is increased to 4-bit adder
wire _TECHMAP_FAIL_ = Y_WIDTH > 1472 || Y_WIDTH < 4;
generate
if ((A_WIDTH == 0 || B_WIDTH == 0) && Y_WIDTH > 0) begin
wire _TECHMAP_FAIL_ = 1;
end
endgenerate
wire [1024:0] _TECHMAP_DO_ = "splitnets CARRY; clean";
localparam Y_COL_WIDTH = 96 - 3;
localparam Y_MAX_WIDTH = 12 - 3;
(* force_downto *)
wire [Y_WIDTH-1:0] A_buf, B_buf;
\$pos #(.A_SIGNED(A_SIGNED), .A_WIDTH(A_WIDTH), .Y_WIDTH(Y_WIDTH)) A_conv (.A(A), .Y(A_buf));
\$pos #(.A_SIGNED(B_SIGNED), .A_WIDTH(B_WIDTH), .Y_WIDTH(Y_WIDTH)) B_conv (.A(B), .Y(B_buf));
(* force_downto *)
wire [Y_WIDTH-1:0] AA = A_buf;
(* force_downto *)
wire [Y_WIDTH-1:0] BB = BI ? ~B_buf : B_buf;
wire [Y_WIDTH: 0] CARRY;
assign CO[Y_WIDTH-1:0] = CARRY[Y_WIDTH:1];
genvar i;
generate if (Y_WIDTH < Y_COL_WIDTH) begin
wire CARRY_end_buf;
wire [1024:0] _TECHMAP_DO_ = "insbuf CARRY[Y_WIDTH] CARRY_end_buf";
_fpga_adder intermediate_adder (
.cin ( ),
.cout (CARRY[0]),
.a (CI ),
.b (CI ),
.sumout ( )
);
_fpga_adder first_adder (
.cin (CARRY[0]),
.cout (CARRY[1]),
.a (AA[0] ),
.b (BB[0] ),
.sumout (Y[0] )
);
_fpga_adder pretaill_adder (
.cin (CARRY[Y_WIDTH-1] ),
.cout (CARRY_end_buf),
.a (AA[Y_WIDTH-1] ),
.b (BB[Y_WIDTH-1] ),
.sumout (Y[Y_WIDTH-1] )
);
_fpga_adder tail_adder (
.cin (CARRY_end_buf),
.cout (),
.a (1'b0),
.b (1'b0),
.sumout (CARRY[Y_WIDTH])
);
generate for (i = 1; i < Y_WIDTH-1 ; i = i+1) begin:gen3
_fpga_adder my_adder (
.cin (CARRY[i] ),
.cout (CARRY[i+1]),
.a (AA[i] ),
.b (BB[i] ),
.sumout (Y[i] )
);
end endgenerate
end else begin
generate for (i = 0; i < Y_WIDTH ; i = i+1) begin:gen4
// Due to VPR limitations regarding IO connexion to carry chain,
// we generate the carry chain input signal using an intermediate adder
// since we can connect a & b from io pads, but not cin & cout
if (i == 0) begin
_fpga_adder intermediate_adder (
.cin ( ),
.cout (CARRY[0]),
.a (CI ),
.b (CI ),
.sumout ( )
);
_fpga_adder first_adder (
.cin (CARRY[0]),
.cout (CARRY[1]),
.a (AA[0] ),
.b (BB[0] ),
.sumout (Y[0] )
);
end else if (i % (Y_MAX_WIDTH + 1) == 0) begin
wire CARRY_end_buf;
wire CARRY_start_buf;
wire [1024:0] _TECHMAP_DO_ = "insbuf CARRY[i+1] CARRY_end_buf; insbuf CARRY_end_buf CARRY_start_buf";
_fpga_adder tail_adder (
.cin (CARRY[i]),
.cout (),
.a (1'b0),
.b (1'b0),
.sumout (CARRY_end_buf)
);
_fpga_adder intermediate_adder (
.cin ( ),
.cout (CARRY_start_buf),
.a (CARRY_end_buf),
.b (1'b1),
.sumout ( )
);
_fpga_adder first_adder (
.cin (CARRY_start_buf),
.cout (CARRY[i+1]),
.a (AA[i] ),
.b (BB[i] ),
.sumout (Y[i] )
);
end else begin
_fpga_adder my_adder (
.cin (CARRY[i] ),
.cout (CARRY[i+1]),
.a (AA[i] ),
.b (BB[i] ),
.sumout (Y[i] )
);
end
end endgenerate
end endgenerate
assign X = AA ^ BB;
endmodule
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