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[/] [thor/] [trunk/] [rtl/] [verilog/] [fpUnit/] [i2f.v] - Blame information for rev 35

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1 6 robfinch
/* ===============================================================
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        (C) 2006  Robert Finch
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        All rights reserved.
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        rob@birdcomputer.ca
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        i2f.v
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                - convert integer to floating point
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                - parameterized width
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                - IEEE 754 representation
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        This source code is free for use and modification for
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        non-commercial or evaluation purposes, provided this
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        copyright statement and disclaimer remains present in
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        the file.
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        If the code is modified, please state the origin and
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        note that the code has been modified.
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        NO WARRANTY.
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        THIS Work, IS PROVIDEDED "AS IS" WITH NO WARRANTIES OF
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        ANY KIND, WHETHER EXPRESS OR IMPLIED. The user must assume
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        the entire risk of using the Work.
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        IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
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        ANY INCIDENTAL, CONSEQUENTIAL, OR PUNITIVE DAMAGES
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        WHATSOEVER RELATING TO THE USE OF THIS WORK, OR YOUR
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        RELATIONSHIP WITH THE AUTHOR.
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        IN ADDITION, IN NO EVENT DOES THE AUTHOR AUTHORIZE YOU
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        TO USE THE WORK IN APPLICATIONS OR SYSTEMS WHERE THE
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        WORK'S FAILURE TO PERFORM CAN REASONABLY BE EXPECTED
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        TO RESULT IN A SIGNIFICANT PHYSICAL INJURY, OR IN LOSS
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        OF LIFE. ANY SUCH USE BY YOU IS ENTIRELY AT YOUR OWN RISK,
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        AND YOU AGREE TO HOLD THE AUTHOR AND CONTRIBUTORS HARMLESS
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        FROM ANY CLAIMS OR LOSSES RELATING TO SUCH UNAUTHORIZED
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        USE.
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        - pipelinable
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        - single stage latency
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        Ref: Spartan3-4
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        267 LUTs / 167 slices / 20? ns  (32 bits)
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=============================================================== */
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module i2f
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#(      parameter WID = 32)
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(
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        input clk,
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        input ce,
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        input [1:0] rm,                  // rounding mode
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        input [WID-1:0] i,               // integer input
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        output [WID-1:0] o               // float output
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);
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localparam MSB = WID-1;
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localparam EMSB = WID==80 ? 14 :
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                  WID==64 ? 10 :
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                                  WID==52 ? 10 :
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                                  WID==48 ? 10 :
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                                  WID==44 ? 10 :
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                                  WID==42 ? 10 :
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                                  WID==40 ?  9 :
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                                  WID==32 ?  7 :
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                                  WID==24 ?  6 : 4;
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localparam FMSB = WID==80 ? 63 :
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                  WID==64 ? 51 :
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                                  WID==52 ? 39 :
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                                  WID==48 ? 35 :
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                                  WID==44 ? 31 :
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                                  WID==42 ? 29 :
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                                  WID==40 ? 28 :
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                                  WID==32 ? 22 :
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                                  WID==24 ? 15 : 9;
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wire [EMSB:0] zeroXp = {EMSB{1'b1}};
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wire iz;                        // zero input ?
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wire [MSB:0] imag;       // get magnitude of i
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wire [MSB:0] imag1 = i[MSB] ? -i : i;
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wire [6:0] lz;           // count the leading zeros in the number
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wire [EMSB:0] wd;        // compute number of whole digits
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wire so;                        // copy the sign of the input (easy)
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wire [1:0] rmd;
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delay1 #(2)   u0 (.clk(clk), .ce(ce), .i(rm),     .o(rmd) );
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delay1 #(1)   u1 (.clk(clk), .ce(ce), .i(i==0),   .o(iz) );
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delay1 #(WID) u2 (.clk(clk), .ce(ce), .i(imag1),  .o(imag) );
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delay1 #(1)   u3 (.clk(clk), .ce(ce), .i(i[MSB]), .o(so) );
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generate
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if (WID==64) begin
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cntlz64Reg    u4 (.clk(clk), .ce(ce), .i(imag1), .o(lz) );
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end else begin
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cntlz32Reg    u4 (.clk(clk), .ce(ce), .i(imag1), .o(lz) );
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assign lz[6]=1'b0;
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end
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endgenerate
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assign wd = zeroXp - 1 + WID - lz;      // constant except for lz
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wire [EMSB:0] xo = iz ? 0 : wd;
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wire [MSB:0] simag = imag << lz;         // left align number
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wire g =  simag[EMSB+2];        // guard bit (lsb)
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wire r =  simag[EMSB+1];        // rounding bit
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wire s = |simag[EMSB:0]; // "sticky" bit
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reg rnd;
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// Compute the round bit
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always @(rmd,g,r,s,so)
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        case (rmd)
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        2'd0:   rnd = (g & r) | (r & s);        // round to nearest even
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        2'd1:   rnd = 0;                                 // round to zero (truncate)
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        2'd2:   rnd = (r | s) & !so;            // round towards +infinity
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        2'd3:   rnd = (r | s) & so;                     // round towards -infinity
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        endcase
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// "hide" the leading one bit = MSB-1
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// round the result
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wire [FMSB:0] mo = simag[MSB-1:EMSB+1]+rnd;
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assign o = {so,xo,mo};
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endmodule
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module i2f_tb();
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reg clk;
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reg [7:0] cnt;
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wire [31:0] fo;
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reg [31:0] i;
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initial begin
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clk = 1'b0;
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cnt = 0;
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end
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always #10 clk=!clk;
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always @(posedge clk)
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        cnt = cnt + 1;
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always @(cnt)
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case(cnt)
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8'd0:   i <= 32'd0;
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8'd1:   i <= 32'd16777226;
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endcase
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i2f #(32) u1 (.clk(clk), .ce(1), .rm(2'd0), .i(i), .o(fo) );
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endmodule

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