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[/] [thor/] [trunk/] [rtl/] [verilog/] [Thor_multiplier.v] - Rev 63
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// ============================================================================ // __ // \\__/ o\ (C) 2013-2016 Robert Finch, Stratford // \ __ / All rights reserved. // \/_// robfinch<remove>@finitron.ca // || // // This source file is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published // by the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This source file is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see <http://www.gnu.org/licenses/>. // // // Thor Superscaler // Thor_multiplier.v // - 64 bit multiplier // // ============================================================================ // module Thor_multiplier(rst, clk, ld, abort, sgn, isMuli, a, b, imm, o, done, idle); parameter WID=64; parameter SGNADJO=3'd2; parameter MULT=3'd3; parameter IDLE=3'd4; parameter DONE=3'd5; input clk; input rst; input ld; input abort; input sgn; input isMuli; input [WID-1:0] a; input [WID-1:0] b; input [WID-1:0] imm; output [WID*2-1:0] o; reg [WID*2-1:0] o; output done; output idle; reg [WID-1:0] aa,bb; reg so; reg [2:0] state; reg [7:0] cnt; wire cnt_done = cnt==8'd0; assign done = state==DONE || (state==IDLE && !ld); // State == DONE assign idle = state==IDLE; reg [WID*2-1:0] prod; //wire [64:0] p1 = aa[0] ? prod[127:64] + b : prod[127:64]; //wire [65:0] p2 = aa[1] ? p1 + {b,1'b0} : p1; wire [WID+WID/4-1:0] p1 = bb * aa[WID/4-1:0] + prod[WID*2-1:WID]; initial begin prod = 64'd0; o = 64'd0; end always @(posedge clk) if (rst) begin aa <= {WID{1'b0}}; bb <= {WID{1'b0}}; prod <= {WID*2{1'b0}}; o <= {WID*2{1'b0}}; state <= IDLE; end else begin if (abort) cnt <= 8'd00; else if (!cnt_done) cnt <= cnt - 8'd1; case(state) IDLE: if (ld) begin if (sgn) begin aa <= a[WID-1] ? -a : a; bb <= isMuli ? (imm[WID-1] ? -imm : imm) :(b[WID-1] ? -b : b); so <= isMuli ? a[WID-1] ^ imm[WID-1] : a[WID-1] ^ b[WID-1]; end else begin aa <= a; bb <= isMuli ? imm : b; so <= 1'b0; end prod <= {WID*2{1'b0}}; cnt <= 8'd4; state <= MULT; end MULT: if (!cnt_done) begin aa <= {16'b0,aa[WID-1:WID/4]}; prod <= {16'b0,prod[WID*2-1:WID/4]}; prod[WID*2-1:WID*3/4] <= p1; end else begin if (sgn) begin if (so) o <= -prod; else o <= prod; end else o <= prod; state <= DONE; end default: state <= IDLE; endcase end endmodule module Thor_multiplier_tb(); reg rst; reg clk; reg ld; wire [127:0] o; initial begin clk = 1; rst = 0; #100 rst = 1; #100 rst = 0; #100 ld = 1; #150 ld = 0; end always #10 clk = ~clk; // 50 MHz Thor_multiplier u1 ( .rst(rst), .clk(clk), .ld(ld), .sgn(1'b0), .isMuli(1'b1), .a(64'd56), .b(64'd0), .imm(64'd27), .o(o) ); endmodule
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