// -*- verilog -*- // // USRP - Universal Software Radio Peripheral // // Copyright (C) 2003 Matt Ettus // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program 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, write to the Free Software // Foundation, Inc., 51 Franklin Street, Boston, MA 02110-1301 USA // module cordic(clock, reset, enable, xi, yi, zi, xo, yo, zo ); parameter bitwidth = 16; parameter zwidth = 16; input clock; input reset; input enable; input [bitwidth-1:0] xi, yi; output [bitwidth-1:0] xo, yo; input [zwidth-1:0] zi; output [zwidth-1:0] zo; reg [bitwidth+1:0] x0,y0; reg [zwidth-2:0] z0; wire [bitwidth+1:0] x1,x2,x3,x4,x5,x6,x7,x8,x9,x10,x11,x12; wire [bitwidth+1:0] y1,y2,y3,y4,y5,y6,y7,y8,y9,y10,y11,y12; wire [zwidth-2:0] z1,z2,z3,z4,z5,z6,z7,z8,z9,z10,z11,z12; wire [bitwidth+1:0] xi_ext = {{2{xi[bitwidth-1]}},xi}; wire [bitwidth+1:0] yi_ext = {{2{yi[bitwidth-1]}},yi}; // Compute consts. Would be easier if vlog had atan... // see gen_cordic_consts.py `define c00 16'd8192 `define c01 16'd4836 `define c02 16'd2555 `define c03 16'd1297 `define c04 16'd651 `define c05 16'd326 `define c06 16'd163 `define c07 16'd81 `define c08 16'd41 `define c09 16'd20 `define c10 16'd10 `define c11 16'd5 `define c12 16'd3 `define c13 16'd1 `define c14 16'd1 `define c15 16'd0 `define c16 16'd0 always @(posedge clock) if(reset) begin x0 <= #1 0; y0 <= #1 0; z0 <= #1 0; end else if(enable) begin z0 <= #1 zi[zwidth-2:0]; case (zi[zwidth-1:zwidth-2]) 2'b00, 2'b11 : begin x0 <= #1 xi_ext; y0 <= #1 yi_ext; end 2'b01, 2'b10 : begin x0 <= #1 -xi_ext; y0 <= #1 -yi_ext; end endcase // case(zi[zwidth-1:zwidth-2]) end // else: !if(reset) // FIXME need to handle variable number of stages // FIXME should be able to narrow zwidth but quartus makes it bigger... // This would be easier if arrays worked better in vlog... cordic_stage #(bitwidth+2,zwidth-1,0) cordic_stage0 (clock,reset,enable,x0,y0,z0,`c00,x1,y1,z1); cordic_stage #(bitwidth+2,zwidth-1,1) cordic_stage1 (clock,reset,enable,x1,y1,z1,`c01,x2,y2,z2); cordic_stage #(bitwidth+2,zwidth-1,2) cordic_stage2 (clock,reset,enable,x2,y2,z2,`c02,x3,y3,z3); cordic_stage #(bitwidth+2,zwidth-1,3) cordic_stage3 (clock,reset,enable,x3,y3,z3,`c03,x4,y4,z4); cordic_stage #(bitwidth+2,zwidth-1,4) cordic_stage4 (clock,reset,enable,x4,y4,z4,`c04,x5,y5,z5); cordic_stage #(bitwidth+2,zwidth-1,5) cordic_stage5 (clock,reset,enable,x5,y5,z5,`c05,x6,y6,z6); cordic_stage #(bitwidth+2,zwidth-1,6) cordic_stage6 (clock,reset,enable,x6,y6,z6,`c06,x7,y7,z7); cordic_stage #(bitwidth+2,zwidth-1,7) cordic_stage7 (clock,reset,enable,x7,y7,z7,`c07,x8,y8,z8); cordic_stage #(bitwidth+2,zwidth-1,8) cordic_stage8 (clock,reset,enable,x8,y8,z8,`c08,x9,y9,z9); cordic_stage #(bitwidth+2,zwidth-1,9) cordic_stage9 (clock,reset,enable,x9,y9,z9,`c09,x10,y10,z10); cordic_stage #(bitwidth+2,zwidth-1,10) cordic_stage10 (clock,reset,enable,x10,y10,z10,`c10,x11,y11,z11); cordic_stage #(bitwidth+2,zwidth-1,11) cordic_stage11 (clock,reset,enable,x11,y11,z11,`c11,x12,y12,z12); assign xo = x12[bitwidth:1]; assign yo = y12[bitwidth:1]; //assign xo = x12[bitwidth+1:2]; // CORDIC gain is ~1.6, plus gain from rotating vectors //assign yo = y12[bitwidth+1:2]; assign zo = z12; endmodule // cordic