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[/] [ft816float/] [trunk/] [rtl/] [verilog2/] [fpSqrt.sv] - Blame information for rev 89

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1 48 robfinch
// ============================================================================
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//        __
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//   \\__/ o\    (C) 2018-2020  Robert Finch, Waterloo
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//    \  __ /    All rights reserved.
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//     \/_//     robfinch@finitron.ca
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//       ||
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//
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//      fpSqrt.v
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//    - floating point square root
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//    - parameterized width
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//    - IEEE 754 representation
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//
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//
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// This source file is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published
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// by the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This source file is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program.  If not, see .
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//
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//      Floating Point Multiplier / Divider
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//
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// ============================================================================
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import fp::*;
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module fpSqrt(rst, clk, ce, ld, a, o, done, sqrinf, sqrneg);
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localparam pShiftAmt =
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        FPWID==80 ? 48 :
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        FPWID==64 ? 36 :
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        FPWID==32 ? 7 : (FMSB+1-16);
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input rst;
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input clk;
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input ce;
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input ld;
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input [MSB:0] a;
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output reg [EX:0] o;
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output done;
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output sqrinf;
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output sqrneg;
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// registered outputs
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reg sign_exe;
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reg inf;
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reg     overflow;
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reg     underflow;
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wire so;
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wire [EMSB:0] xo;
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wire [FX:0] mo;
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// constants
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wire [EMSB:0] infXp = {EMSB+1{1'b1}};   // infinite / NaN - all ones
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// The following is the value for an exponent of zero, with the offset
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// eg. 8'h7f for eight bit exponent, 11'h7ff for eleven bit exponent, etc.
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wire [EMSB:0] bias = {1'b0,{EMSB{1'b1}}};       //2^0 exponent
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// The following is a template for a quiet nan. (MSB=1)
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wire [FMSB:0] qNaN  = {1'b1,{FMSB{1'b0}}};
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// variables
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wire [EMSB+2:0] ex1;    // sum of exponents
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wire [FX:0] sqrto;
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// Operands
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wire sa;                        // sign bit
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wire [EMSB:0] xa;       // exponent bits
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wire [FMSB+1:0] fracta;
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wire a_dn;                      // a/b is denormalized
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wire az;
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wire aInf;
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wire aNan;
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wire done1;
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wire [7:0] lzcnt;
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wire [MSB:0] aa;
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// -----------------------------------------------------------
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// - decode the input operand
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// - derive basic information
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// - calculate exponent
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// - calculate fraction
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// -----------------------------------------------------------
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fpDecompReg u1
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(
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        .clk(clk),
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        .ce(ce),
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        .i(a),
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        .o(aa),
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        .sgn(sa),
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        .exp(xa),
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        .fract(fracta),
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        .xz(a_dn),
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        .vz(az),
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        .inf(aInf),
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        .nan(aNan)
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);
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assign ex1 = xa + 8'd1;
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assign so = 1'b0;                               // square root of positive numbers only
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assign xo = (ex1 >> 1) + (bias >> 1);   // divide by 2 cuts the bias in half, so 1/2 of it is added back in.
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assign mo = aNan ? {1'b1,aa[FMSB:0],{FMSB+1{1'b0}}} : (sqrto << pShiftAmt);
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assign sqrinf = aInf;
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assign sqrneg = !az & so;
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wire [FMSB+2:0] fracta1 = ex1[0] ? {1'b0,fracta} << 1 : {2'b0,fracta};
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wire ldd;
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delay1 #(1) u3 (.clk(clk), .ce(ce), .i(ld), .o(ldd));
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isqrt #(FX+1) u2
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(
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        .rst(rst),
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        .clk(clk),
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        .ce(ce),
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        .ld(ldd),
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        .a({1'b0,fracta1,{FMSB+1{1'b0}}}),
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        .o(sqrto),
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        .done(done)
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);
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always @*
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casez({aNan,sqrinf,sqrneg})
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3'b1??: o <= {sa,xa,mo};
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3'b01?: o <= {sa,1'b1,qNaN|`QSQRTINF,{FMSB+1{1'b0}}};
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3'b001: o <= {sa,1'b1,qNaN|`QSQRTNEG,{FMSB+1{1'b0}}};
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default:        o <= {so,xo,mo};
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endcase
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endmodule
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module fpSqrtnr(rst, clk, ce, ld, a, o, rm, done, inf, sqrinf, sqrneg);
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input rst;
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input clk;
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input ce;
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input ld;
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input  [MSB:0] a;
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output [MSB:0] o;
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input [2:0] rm;
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output done;
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output inf;
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output sqrinf;
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output sqrneg;
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wire [EX:0] o1;
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wire inf1;
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wire [MSB+3:0] fpn0;
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wire done1;
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fpSqrt      #(FPWID) u1 (rst, clk, ce, ld, a, o1, done1, sqrinf, sqrneg);
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fpNormalize #(FPWID) u2(.clk(clk), .ce(ce), .under_i(1'b0), .i(o1), .o(fpn0) );
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fpRound  #(FPWID) u3(.clk(clk), .ce(ce), .rm(rm), .i(fpn0), .o(o) );
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delay2      #(1)   u5(.clk(clk), .ce(ce), .i(inf1), .o(inf));
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delay2          #(1)   u8(.clk(clk), .ce(ce), .i(done1), .o(done));
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endmodule
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