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[/] [ft816float/] [trunk/] [rtl/] [verilog/] [FloatToInt.v] - Rev 6
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// ============================================================================ // __ // \\__/ o\ (C) 2006-2016 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/>. // // FloatToInt // - convert floating point to integer // - Can convert a number on every clock cycle, with a latency of one cycle. // - parameterized width // - IEEE 754 representation // // The WID parameter should be either 32 or 64 // ============================================================================ // module FloatToInt(clk, ce, i, o, overflow); parameter WID = 32; input clk; input ce; input [WID-1:0] i; output [WID-1:0] o; output overflow; localparam MSB = WID-1; localparam EMSB = WID==80 ? 14 : WID==64 ? 10 : WID==52 ? 10 : WID==48 ? 10 : WID==44 ? 10 : WID==42 ? 10 : WID==40 ? 9 : WID==32 ? 7 : WID==24 ? 6 : 4; localparam FMSB = WID==80 ? 63 : WID==64 ? 51 : WID==52 ? 39 : WID==48 ? 35 : WID==44 ? 31 : WID==42 ? 29 : WID==40 ? 28 : WID==32 ? 22 : WID==24 ? 15 : 9; wire [MSB:0] maxInt = {MSB{1'b1}}; // maximum unsigned integer value wire [EMSB:0] zeroXp = {EMSB{1'b1}}; // simple constant - value of exp for zero // Decompose fp value reg sgn; // sign always @(posedge clk) if (ce) sgn = i[MSB]; wire [EMSB:0] exp = i[MSB-1:FMSB+1]; // exponent wire [FMSB+1:0] man = {exp!=0,i[FMSB:0]}; // mantissa including recreate hidden bit wire iz = i[MSB-1:0]==0; // zero value (special) assign overflow = exp - zeroXp > MSB; // lots of numbers are too big - don't forget one less bit is available due to signed values wire underflow = exp < zeroXp - 1; // value less than 1/2 wire [6:0] shamt = MSB - (exp - zeroXp); // exp - zeroXp will be <= MSB wire [MSB+1:0] o1 = {man,{EMSB+1{1'b0}},1'b0} >> shamt; // keep an extra bit for rounding wire [MSB:0] o2 = o1[MSB+1:1] + o1[0]; // round up reg [MSB:0] o3; always @(posedge clk) if (ce) begin if (underflow|iz) o3 <= 0; else if (overflow) o3 <= maxInt; // value between 1/2 and 1 - round up else if (exp==zeroXp-1) o3 <= 1; // value > 1 else o3 <= o2; end assign o = sgn ? -o3 : o3; // adjust output for correct signed value endmodule module FloatToInt_tb(); wire ov1,ov2,ov3,ov4,ov5,ov6; wire [31:0] io1,io2,io3,io4,io5,io6; reg clk; initial begin clk = 0; end always #10 clk = ~clk; FloatToInt #(32) u1 (.clk(clk), .ce(1'b1), .i(32'h3F800000), .o(io1), .overflow(ov1) ); // 1 FloatToInt #(32) u2 (.clk(clk), .ce(1'b1), .i(32'h00000000), .o(io2), .overflow(ov2) ); // zero should result in zero FloatToInt #(32) u3 (.clk(clk), .ce(1'b1), .i(32'h4b3c614e), .o(io3), .overflow(ov3) ); // 12345678 endmodule
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