SummerCart64/fw/rtl/serv/serv_alu.v

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`default_nettype none
module serv_alu
#(
parameter W = 1,
parameter B = W-1
)
(
input wire clk,
//State
input wire i_en,
input wire i_cnt0,
output wire o_cmp,
//Control
input wire i_sub,
input wire [1:0] i_bool_op,
input wire i_cmp_eq,
input wire i_cmp_sig,
input wire [2:0] i_rd_sel,
//Data
input wire [B:0] i_rs1,
input wire [B:0] i_op_b,
input wire [B:0] i_buf,
output wire [B:0] o_rd);
wire [B:0] result_add;
wire [B:0] result_slt;
reg cmp_r;
wire add_cy;
reg [B:0] add_cy_r;
//Sign-extended operands
wire rs1_sx = i_rs1[B] & i_cmp_sig;
wire op_b_sx = i_op_b[B] & i_cmp_sig;
wire [B:0] add_b = i_op_b^{W{i_sub}};
assign {add_cy,result_add} = i_rs1+add_b+add_cy_r;
wire result_lt = rs1_sx + ~op_b_sx + add_cy;
wire result_eq = !(|result_add) & (cmp_r | i_cnt0);
assign o_cmp = i_cmp_eq ? result_eq : result_lt;
/*
The result_bool expression implements the following operations between
i_rs1 and i_op_b depending on the value of i_bool_op
00 xor
01 0
10 or
11 and
i_bool_op will be 01 during shift operations, so by outputting zero under
this condition we can safely or result_bool with i_buf
*/
wire [B:0] result_bool = ((i_rs1 ^ i_op_b) & ~{W{i_bool_op[0]}}) | ({W{i_bool_op[1]}} & i_op_b & i_rs1);
assign result_slt[0] = cmp_r & i_cnt0;
generate
if (W>1) begin : gen_w_gt_1
assign result_slt[B:1] = {B{1'b0}};
end
endgenerate
assign o_rd = i_buf |
({W{i_rd_sel[0]}} & result_add) |
({W{i_rd_sel[1]}} & result_slt) |
({W{i_rd_sel[2]}} & result_bool);
always @(posedge clk) begin
add_cy_r <= {W{1'b0}};
add_cy_r[0] <= i_en ? add_cy : i_sub;
if (i_en)
cmp_r <= o_cmp;
end
endmodule