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dmitryr |
// ========== Copyright Header Begin ==========================================
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//
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// OpenSPARC T1 Processor File: fpu_div_frac_dp.v
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// Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved.
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// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
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//
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// The above named program is free software; you can redistribute it and/or
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// modify it under the terms of the GNU General Public
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// License version 2 as published by the Free Software Foundation.
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//
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// The above named program is distributed in the hope that it will be
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// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// 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
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// License along with this work; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
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//
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// ========== Copyright Header End ============================================
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///////////////////////////////////////////////////////////////////////////////
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//
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// Divide pipeline fraction datapath.
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//
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///////////////////////////////////////////////////////////////////////////////
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module fpu_div_frac_dp (
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inq_in1,
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inq_in2,
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d1stg_step,
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div_norm_frac_in1_dbl_norm,
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div_norm_frac_in1_dbl_dnrm,
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div_norm_frac_in1_sng_norm,
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div_norm_frac_in1_sng_dnrm,
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div_norm_frac_in2_dbl_norm,
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div_norm_frac_in2_dbl_dnrm,
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div_norm_frac_in2_sng_norm,
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div_norm_frac_in2_sng_dnrm,
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div_norm_inf,
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div_norm_qnan,
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d1stg_dblop,
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div_norm_zero,
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d1stg_snan_dbl_in1,
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d1stg_snan_sng_in1,
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d1stg_snan_dbl_in2,
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d1stg_snan_sng_in2,
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d3stg_fdiv,
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d6stg_fdiv,
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d6stg_fdivd,
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d6stg_fdivs,
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div_frac_add_in2_load,
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d6stg_frac_out_shl1,
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d6stg_frac_out_nosh,
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d4stg_fdiv,
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div_frac_add_in1_add,
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div_frac_add_in1_load,
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d5stg_fdivb,
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div_frac_out_add_in1,
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div_frac_out_add,
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div_frac_out_shl1_dbl,
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div_frac_out_shl1_sng,
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div_frac_out_of,
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d7stg_to_0,
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div_frac_out_load,
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fdiv_clken_l,
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rclk,
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div_shl_cnt,
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d6stg_frac_0,
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d6stg_frac_1,
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d6stg_frac_2,
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d6stg_frac_29,
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d6stg_frac_30,
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d6stg_frac_31,
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div_frac_add_in1_neq_0,
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div_frac_add_52_inv,
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div_frac_add_52_inva,
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div_frac_out_54_53,
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div_frac_outa,
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se,
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si,
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so
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);
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input [54:0] inq_in1; // request operand 1 to op pipes
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input [54:0] inq_in2; // request operand 2 to op pipes
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input d1stg_step; // divide pipe load
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input div_norm_frac_in1_dbl_norm; // select line to div_norm
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input div_norm_frac_in1_dbl_dnrm; // select line to div_norm
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input div_norm_frac_in1_sng_norm; // select line to div_norm
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input div_norm_frac_in1_sng_dnrm; // select line to div_norm
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input div_norm_frac_in2_dbl_norm; // select line to div_norm
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input div_norm_frac_in2_dbl_dnrm; // select line to div_norm
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input div_norm_frac_in2_sng_norm; // select line to div_norm
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input div_norm_frac_in2_sng_dnrm; // select line to div_norm
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input div_norm_inf; // select line to div_norm
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input div_norm_qnan; // select line to div_norm
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input d1stg_dblop; // double precision operation- d1 stg
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input div_norm_zero; // select line to div_norm
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input d1stg_snan_dbl_in1; // operand 1 is double signalling NaN
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input d1stg_snan_sng_in1; // operand 1 is single signalling NaN
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input d1stg_snan_dbl_in2; // operand 2 is double signalling NaN
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input d1stg_snan_sng_in2; // operand 2 is single signalling NaN
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input d3stg_fdiv; // divide operation- divide stage 3
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input d6stg_fdiv; // divide operation- divide stage 6
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input d6stg_fdivd; // divide double- divide stage 6
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input d6stg_fdivs; // divide single- divide stage 6
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input div_frac_add_in2_load; // load enable to div_frac_add_in2
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input d6stg_frac_out_shl1; // select line to d6stg_frac
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input d6stg_frac_out_nosh; // select line to d6stg_frac
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input d4stg_fdiv; // divide operation- divide stage 4
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input div_frac_add_in1_add; // select line to div_frac_add_in1
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input div_frac_add_in1_load; // load enable to div_frac_add_in1
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input d5stg_fdivb; // divide operation- divide stage 5
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input div_frac_out_add_in1; // select line to div_frac_out
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input div_frac_out_add; // select line to div_frac_out
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input div_frac_out_shl1_dbl; // select line to div_frac_out
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input div_frac_out_shl1_sng; // select line to div_frac_out
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input div_frac_out_of; // select line to div_frac_out
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input d7stg_to_0; // result to max finite on overflow
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input div_frac_out_load; // load enable to div_frac_out
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input fdiv_clken_l; // div pipe clk enable - asserted low
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input rclk; // global clock
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output [5:0] div_shl_cnt; // divide left shift amount
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output d6stg_frac_0; // divide fraction[0]- intermediate val
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output d6stg_frac_1; // divide fraction[1]- intermediate val
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output d6stg_frac_2; // divide fraction[2]- intermediate val
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output d6stg_frac_29; // divide fraction[29]- intermediate val
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output d6stg_frac_30; // divide fraction[30]- intermediate val
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output d6stg_frac_31; // divide fraction[31]- intermediate val
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output div_frac_add_in1_neq_0; // div_frac_add_in1 != 0
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output div_frac_add_52_inv; // div_frac_add bit[52] inverted
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output div_frac_add_52_inva; // div_frac_add bit[52] inverted copy
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output [1:0] div_frac_out_54_53; // divide fraction output
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output [51:0] div_frac_outa; // divide fraction output- buffered copy
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input se; // scan_enable
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input si; // scan in
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output so; // scan out
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wire [54:0] div_frac_in1;
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wire [54:0] div_frac_in2;
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wire [52:0] div_norm_inv_in;
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wire [52:0] div_norm_inv;
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wire [52:0] div_norm;
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wire [5:0] div_lead0;
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wire [5:0] div_shl_cnt;
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wire [5:0] div_shl_cnta;
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wire [52:0] div_shl_data;
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wire [105:53] div_shl_tmp;
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wire [52:0] div_shl;
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wire [54:0] div_shl_save;
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wire [54:0] div_frac_add_in2_in;
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wire [54:0] div_frac_add_in2;
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wire [53:0] d6stg_frac;
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wire d6stg_frac_0;
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wire d6stg_frac_1;
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wire d6stg_frac_2;
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wire d6stg_frac_29;
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wire d6stg_frac_30;
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wire d6stg_frac_31;
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wire [54:0] div_frac_add_in1_in;
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wire [54:0] div_frac_add_in1;
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wire [54:0] div_frac_add_in1a;
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wire div_frac_add_in1_neq_0;
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wire [54:0] div_frac_add;
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wire div_frac_add_52_inv;
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wire div_frac_add_52_inva;
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wire [54:0] div_frac_out_in;
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wire [1:0] div_frac_out_54_53;
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wire [54:0] div_frac_out;
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wire [51:0] div_frac_outa;
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wire se_l;
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assign se_l = ~se;
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clken_buf ckbuf_div_frac_dp (
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.clk(clk),
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.rclk(rclk),
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.enb_l(fdiv_clken_l),
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.tmb_l(se_l)
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);
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///////////////////////////////////////////////////////////////////////////////
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//
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// Divide fraction inputs.
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//
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///////////////////////////////////////////////////////////////////////////////
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dffe_s #(55) i_div_frac_in1 (
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.din (inq_in1[54:0]),
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.en (d1stg_step),
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.clk (clk),
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.q (div_frac_in1[54:0]),
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.se (se),
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.si (),
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.so ()
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);
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dffe_s #(55) i_div_frac_in2 (
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.din (inq_in2[54:0]),
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.en (d1stg_step),
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.clk (clk),
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.q (div_frac_in2[54:0]),
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.se (se),
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.si (),
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.so ()
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);
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///////////////////////////////////////////////////////////////////////////////
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//
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// Divide normalization and special input injection.
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//
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///////////////////////////////////////////////////////////////////////////////
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assign div_norm_inv_in[52:0]= (~(({53{div_norm_frac_in1_dbl_norm}}
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& {1'b1, (div_frac_in1[51] || d1stg_snan_dbl_in1),
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div_frac_in1[50:0]})
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| ({53{div_norm_frac_in1_dbl_dnrm}}
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& {div_frac_in1[51:0], 1'b0})
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| ({53{div_norm_frac_in1_sng_norm}}
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& {1'b1, (div_frac_in1[54] || d1stg_snan_sng_in1),
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div_frac_in1[53:32], 29'b0})
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| ({53{div_norm_frac_in1_sng_dnrm}}
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& {div_frac_in1[54:32], 30'b0})
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| ({53{div_norm_frac_in2_dbl_norm}}
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& {1'b1, (div_frac_in2[51] || d1stg_snan_dbl_in2),
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div_frac_in2[50:0]})
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| ({53{div_norm_frac_in2_dbl_dnrm}}
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& {div_frac_in2[51:0], 1'b0})
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| ({53{div_norm_frac_in2_sng_norm}}
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& {1'b1, (div_frac_in2[54] || d1stg_snan_sng_in2),
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div_frac_in2[53:32], 29'b0})
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| ({53{div_norm_frac_in2_sng_dnrm}}
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& {div_frac_in2[54:32], 30'b0})
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| ({53{div_norm_inf}}
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& 53'h10000000000000)
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| ({53{div_norm_qnan}}
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& {24'hffffff, {29{d1stg_dblop}}})
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| ({53{div_norm_zero}}
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& 53'h00000000000000)));
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dff_s #(53) i_div_norm_inv (
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.din (div_norm_inv_in[52:0]),
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.clk (clk),
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.q (div_norm_inv[52:0]),
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.se (se),
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.si (),
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.so ()
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);
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assign div_norm[52:0]= (~div_norm_inv);
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///////////////////////////////////////////////////////////////////////////////
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//
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// Divide lead zero count.
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//
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///////////////////////////////////////////////////////////////////////////////
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fpu_cnt_lead0_53b i_div_lead0 (
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.din (div_norm[52:0]),
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.lead0 (div_lead0[5:0])
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);
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dff_s #12 i_dstg_xtra_regs (
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.din ({div_lead0[5:0], div_lead0[5:0]}),
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.clk (clk),
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.q ({div_shl_cnta[5:0], div_shl_cnt[5:0]}),
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.se (se),
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.si (),
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.so ()
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);
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///////////////////////////////////////////////////////////////////////////////
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//
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// Divide left shift.
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//
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///////////////////////////////////////////////////////////////////////////////
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dff_s #(53) i_div_shl_data (
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.din (div_norm[52:0]),
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.clk (clk),
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.q (div_shl_data[52:0]),
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.se (se),
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.si (),
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.so ()
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);
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//assign div_shl_tmp[105:0]= {div_shl_data[52:0], 53'b0} << div_shl_cnta[5:0];
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assign div_shl_tmp[105:53]= div_shl_data[52:0] << div_shl_cnta[5:0];
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assign div_shl[52:0]= div_shl_tmp[105:53];
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dffe_s #(55) i_div_shl_save (
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.din ({2'b0, div_shl[52:0]}),
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.en (d3stg_fdiv),
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.clk (clk),
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.q (div_shl_save[54:0]),
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.se (se),
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.si (),
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325 |
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.so ()
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326 |
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);
|
327 |
|
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|
328 |
|
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assign div_frac_add_in2_in[54:0]= ({55{d4stg_fdiv}}
|
329 |
|
|
& (~{2'b0, div_shl[52:0]}))
|
330 |
|
|
| ({55{d6stg_fdiv}}
|
331 |
|
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& {25'b0, d6stg_fdivs, 28'b0, d6stg_fdivd});
|
332 |
|
|
|
333 |
|
|
dffe_s #(55) i_div_frac_add_in2 (
|
334 |
|
|
.din (div_frac_add_in2_in[54:0]),
|
335 |
|
|
.en (div_frac_add_in2_load),
|
336 |
|
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.clk (clk),
|
337 |
|
|
|
338 |
|
|
.q (div_frac_add_in2[54:0]),
|
339 |
|
|
|
340 |
|
|
.se (se),
|
341 |
|
|
.si (),
|
342 |
|
|
.so ()
|
343 |
|
|
);
|
344 |
|
|
|
345 |
|
|
|
346 |
|
|
///////////////////////////////////////////////////////////////////////////////
|
347 |
|
|
//
|
348 |
|
|
// Divide adder/subtractor 2nd input.
|
349 |
|
|
//
|
350 |
|
|
///////////////////////////////////////////////////////////////////////////////
|
351 |
|
|
|
352 |
|
|
assign d6stg_frac[53:0]= ({54{d6stg_frac_out_shl1}}
|
353 |
|
|
& {div_frac_out[52:0], 1'b0})
|
354 |
|
|
| ({54{d6stg_frac_out_nosh}}
|
355 |
|
|
& div_frac_out[53:0]);
|
356 |
|
|
|
357 |
|
|
assign d6stg_frac_0= d6stg_frac[0];
|
358 |
|
|
assign d6stg_frac_1= d6stg_frac[1];
|
359 |
|
|
assign d6stg_frac_2= d6stg_frac[2];
|
360 |
|
|
assign d6stg_frac_29= d6stg_frac[29];
|
361 |
|
|
assign d6stg_frac_30= d6stg_frac[30];
|
362 |
|
|
assign d6stg_frac_31= d6stg_frac[31];
|
363 |
|
|
|
364 |
|
|
assign div_frac_add_in1_in[54:0]= ({55{d4stg_fdiv}}
|
365 |
|
|
& div_shl_save[54:0])
|
366 |
|
|
| ({55{(div_frac_add_in1_add && (!div_frac_add[54]))}}
|
367 |
|
|
& {div_frac_add[53:0], 1'b0})
|
368 |
|
|
| ({55{(div_frac_add_in1_add && div_frac_add[54])}}
|
369 |
|
|
& {div_frac_add_in1[53:0], 1'b0})
|
370 |
|
|
| ({55{d6stg_fdiv}}
|
371 |
|
|
& {3'b0, d6stg_frac[53:31],
|
372 |
|
|
(d6stg_frac[30:2] & {29{d6stg_fdivd}})});
|
373 |
|
|
|
374 |
|
|
dffe_s #(55) i_div_frac_add_in1 (
|
375 |
|
|
.din (div_frac_add_in1_in[54:0]),
|
376 |
|
|
.en (div_frac_add_in1_load),
|
377 |
|
|
.clk (clk),
|
378 |
|
|
|
379 |
|
|
.q (div_frac_add_in1[54:0]),
|
380 |
|
|
|
381 |
|
|
.se (se),
|
382 |
|
|
.si (),
|
383 |
|
|
.so ()
|
384 |
|
|
);
|
385 |
|
|
|
386 |
|
|
dffe_s #(55) i_div_frac_add_in1a (
|
387 |
|
|
.din (div_frac_add_in1_in[54:0]),
|
388 |
|
|
.en (div_frac_add_in1_load),
|
389 |
|
|
.clk (clk),
|
390 |
|
|
|
391 |
|
|
.q (div_frac_add_in1a[54:0]),
|
392 |
|
|
|
393 |
|
|
.se (se),
|
394 |
|
|
.si (),
|
395 |
|
|
.so ()
|
396 |
|
|
);
|
397 |
|
|
|
398 |
|
|
assign div_frac_add_in1_neq_0= (|div_frac_add_in1[54:0]);
|
399 |
|
|
|
400 |
|
|
|
401 |
|
|
///////////////////////////////////////////////////////////////////////////////
|
402 |
|
|
//
|
403 |
|
|
// Divide adder/subtractor.
|
404 |
|
|
//
|
405 |
|
|
///////////////////////////////////////////////////////////////////////////////
|
406 |
|
|
|
407 |
|
|
assign div_frac_add[54:0]= (div_frac_add_in1a[54:0]
|
408 |
|
|
+ div_frac_add_in2[54:0]
|
409 |
|
|
+ {54'b0, d5stg_fdivb});
|
410 |
|
|
|
411 |
|
|
assign div_frac_add_52_inv= (!div_frac_add[52]);
|
412 |
|
|
assign div_frac_add_52_inva= (!div_frac_add[52]);
|
413 |
|
|
|
414 |
|
|
assign div_frac_out_in[54:0]= ({55{d4stg_fdiv}}
|
415 |
|
|
& 55'b0)
|
416 |
|
|
| ({55{div_frac_out_add_in1}}
|
417 |
|
|
& div_frac_add_in1[54:0])
|
418 |
|
|
| ({55{div_frac_out_add}}
|
419 |
|
|
& div_frac_add[54:0])
|
420 |
|
|
| ({55{div_frac_out_shl1_dbl}}
|
421 |
|
|
& {div_frac_out[53:0], (!div_frac_add[54])})
|
422 |
|
|
| ({55{div_frac_out_shl1_sng}}
|
423 |
|
|
& {div_frac_out[53:29], (!div_frac_add[54]), 29'b0})
|
424 |
|
|
| ({55{div_frac_out_of}}
|
425 |
|
|
& {55{d7stg_to_0}});
|
426 |
|
|
|
427 |
|
|
dffe_s #(55) i_div_frac_out (
|
428 |
|
|
.din (div_frac_out_in[54:0]),
|
429 |
|
|
.en (div_frac_out_load),
|
430 |
|
|
.clk (clk),
|
431 |
|
|
|
432 |
|
|
.q (div_frac_out[54:0]),
|
433 |
|
|
|
434 |
|
|
.se (se),
|
435 |
|
|
.si (),
|
436 |
|
|
.so ()
|
437 |
|
|
);
|
438 |
|
|
|
439 |
|
|
assign div_frac_out_54_53[1:0] = div_frac_out[54:53];
|
440 |
|
|
|
441 |
|
|
assign div_frac_outa[51:0]= div_frac_out[51:0];
|
442 |
|
|
|
443 |
|
|
endmodule
|
444 |
|
|
|
445 |
|
|
|