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julius |
//////////////////////////////////////////////////////////////////////
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//// ////
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//// or1200_fpu_mul ////
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//// ////
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//// This file is part of the OpenRISC 1200 project ////
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//// http://opencores.org/project,or1k ////
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//// ////
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//// Description ////
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//// Serial multiplication entity for the multiplication unit ////
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//// ////
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//// To Do: ////
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//// ////
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//// ////
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//// Author(s): ////
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//// - Original design (FPU100) - ////
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//// Jidan Al-eryani, jidan@gmx.net ////
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//// - Conv. to Verilog and inclusion in OR1200 - ////
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//// Julius Baxter, julius@opencores.org ////
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//// ////
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//////////////////////////////////////////////////////////////////////
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//
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// Copyright (C) 2006, 2010
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//
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// This source file may be used and distributed without
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// restriction provided that this copyright statement is not
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// removed from the file and that any derivative work contains
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// the original copyright notice and the associated disclaimer.
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//
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// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY
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// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
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// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR
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// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
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// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
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// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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// POSSIBILITY OF SUCH DAMAGE.
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//
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module or1200_fpu_mul
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(
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clk_i,
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fracta_i,
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fractb_i,
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signa_i,
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signb_i,
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start_i,
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fract_o,
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sign_o,
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ready_o
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);
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parameter FP_WIDTH = 32;
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parameter MUL_SERIAL = 0; // 0 for parallel multiplier, 1 for serial
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parameter MUL_COUNT = 11; //11 for parallel multiplier, 34 for serial
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parameter FRAC_WIDTH = 23;
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parameter EXP_WIDTH = 8;
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parameter ZERO_VECTOR = 31'd0;
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parameter INF = 31'b1111111100000000000000000000000;
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parameter QNAN = 31'b1111111110000000000000000000000;
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parameter SNAN = 31'b1111111100000000000000000000001;
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input clk_i;
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input [FRAC_WIDTH:0] fracta_i;
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input [FRAC_WIDTH:0] fractb_i;
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input signa_i;
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input signb_i;
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input start_i;
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output reg [2*FRAC_WIDTH+1:0] fract_o;
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output reg sign_o;
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output reg ready_o;
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parameter t_state_waiting = 1'b0,
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t_state_busy = 1'b1;
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reg [47:0] s_fract_o;
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reg [23:0] s_fracta_i;
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reg [23:0] s_fractb_i;
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reg s_signa_i, s_signb_i;
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wire s_sign_o;
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reg s_start_i;
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reg s_ready_o;
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reg s_state;
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reg [4:0] s_count;
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wire [23:0] s_tem_prod;
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// Input Register
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always @(posedge clk_i)
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begin
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s_fracta_i <= fracta_i;
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s_fractb_i <= fractb_i;
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s_signa_i<= signa_i;
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s_signb_i<= signb_i;
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s_start_i <= start_i;
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end
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// Output Register
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always @(posedge clk_i)
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begin
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fract_o <= s_fract_o;
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sign_o <= s_sign_o;
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ready_o <= s_ready_o;
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end
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assign s_sign_o = signa_i ^ signb_i;
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// FSM
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always @(posedge clk_i)
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if (s_start_i)
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begin
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s_state <= t_state_busy;
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s_count <= 0;
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end
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else if (s_count==23)
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begin
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s_state <= t_state_waiting;
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s_ready_o <= 1;
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s_count <=0;
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end
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else if (s_state==t_state_busy)
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s_count <= s_count + 1;
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else
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begin
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s_state <= t_state_waiting;
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s_ready_o <= 0;
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end
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assign s_tem_prod[0] = s_fracta_i[0] & s_fractb_i[s_count];
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assign s_tem_prod[1] = s_fracta_i[1] & s_fractb_i[s_count];
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assign s_tem_prod[2] = s_fracta_i[2] & s_fractb_i[s_count];
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assign s_tem_prod[3] = s_fracta_i[3] & s_fractb_i[s_count];
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assign s_tem_prod[4] = s_fracta_i[4] & s_fractb_i[s_count];
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assign s_tem_prod[5] = s_fracta_i[5] & s_fractb_i[s_count];
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assign s_tem_prod[6] = s_fracta_i[6] & s_fractb_i[s_count];
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assign s_tem_prod[7] = s_fracta_i[7] & s_fractb_i[s_count];
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assign s_tem_prod[8] = s_fracta_i[8] & s_fractb_i[s_count];
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assign s_tem_prod[9] = s_fracta_i[9] & s_fractb_i[s_count];
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assign s_tem_prod[10] = s_fracta_i[10] & s_fractb_i[s_count];
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assign s_tem_prod[11] = s_fracta_i[11] & s_fractb_i[s_count];
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assign s_tem_prod[12] = s_fracta_i[12] & s_fractb_i[s_count];
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assign s_tem_prod[13] = s_fracta_i[13] & s_fractb_i[s_count];
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assign s_tem_prod[14] = s_fracta_i[14] & s_fractb_i[s_count];
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assign s_tem_prod[15] = s_fracta_i[15] & s_fractb_i[s_count];
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assign s_tem_prod[16] = s_fracta_i[16] & s_fractb_i[s_count];
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assign s_tem_prod[17] = s_fracta_i[17] & s_fractb_i[s_count];
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assign s_tem_prod[18] = s_fracta_i[18] & s_fractb_i[s_count];
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assign s_tem_prod[19] = s_fracta_i[19] & s_fractb_i[s_count];
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assign s_tem_prod[20] = s_fracta_i[20] & s_fractb_i[s_count];
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assign s_tem_prod[21] = s_fracta_i[21] & s_fractb_i[s_count];
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assign s_tem_prod[22] = s_fracta_i[22] & s_fractb_i[s_count];
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assign s_tem_prod[23] = s_fracta_i[23] & s_fractb_i[s_count];
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wire [47:0] v_prod_shl;
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assign v_prod_shl = {24'd0,s_tem_prod} << s_count[4:0];
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always @(posedge clk_i)
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if (s_state==t_state_busy)
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begin
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if (|s_count)
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s_fract_o <= v_prod_shl + s_fract_o;
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else
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s_fract_o <= v_prod_shl;
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end
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endmodule // or1200_fpu_mul
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