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// ========== Copyright Header Begin ==========================================
// 
// OpenSPARC T1 Processor File: fpu_add_exp_dp.v
// Copyright (c) 2006 Sun Microsystems, Inc.  All Rights Reserved.
// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.
// 
// The above named program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public
// License version 2 as published by the Free Software Foundation.
// 
// The above named program 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 work; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
// 
// ========== Copyright Header End ============================================
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipeline exponent datapath.
//
///////////////////////////////////////////////////////////////////////////////
 
 
module fpu_add_exp_dp (
        inq_in1,
        inq_in2,
        inq_op,
        inq_op_7,
        a1stg_step,
        a1stg_faddsubd,
        a1stg_faddsubs,
        a1stg_fsdtoix,
        a6stg_step,
        a1stg_fstod,
        a1stg_fdtos,
        a1stg_fstoi,
        a1stg_fstox,
        a1stg_fdtoi,
        a1stg_fdtox,
        a2stg_fsdtoix_fdtos,
        a2stg_faddsubop,
        a2stg_fitos,
        a2stg_fitod,
        a2stg_fxtos,
        a2stg_fxtod,
        a3stg_exp_7ff,
        a3stg_exp_ff,
        a3stg_exp_add,
        a3stg_inc_exp_inv,
        a3stg_same_exp_inv,
        a3stg_dec_exp_inv,
        a3stg_faddsubop,
        a3stg_fdtos_inv,
        a4stg_fixtos_fxtod_inv,
        a4stg_shl_cnt,
        a4stg_denorm_inv,
        a4stg_rndadd_cout,
        add_exp_out_expinc,
        add_exp_out_exp,
        add_exp_out_exp1,
        a4stg_in_of,
        add_exp_out_expadd,
        a4stg_dblop,
        a4stg_to_0_inv,
        fadd_clken_l,
        rclk,
 
        a1stg_expadd3_11,
        a1stg_expadd1_11_0,
        a1stg_expadd4_inv,
        a1stg_expadd2_5_0,
        a2stg_exp,
        a2stg_expadd,
        a3stg_exp_10_0,
        a4stg_exp_11_0,
        add_exp_out,
 
        se,
        si,
        so
);
 
 
input [62:52]   inq_in1;                // request operand 1 to op pipes
input [62:52]   inq_in2;                // request operand 2 to op pipes
input [1:0]      inq_op;                 // request opcode[1:0]
input           inq_op_7;               // request opcode[7]
input           a1stg_step;             // add pipe load
input           a1stg_faddsubd;         // add/subtract double- add 1 stg
input           a1stg_faddsubs;         // add/subtract single- add 1 stg
input           a1stg_fsdtoix;          // float to integer convert- add 1 stg
input           a6stg_step;             // advance the add pipe
input           a1stg_fstod;            // fstod- add 1 stage
input           a1stg_fdtos;            // fdtos- add 1 stage
input           a1stg_fstoi;            // fstoi- add 1 stage
input           a1stg_fstox;            // fstox- add 1 stage
input           a1stg_fdtoi;            // fdtoi- add 1 stage
input           a1stg_fdtox;            // fdtox- add 1 stage
input           a2stg_fsdtoix_fdtos;    // float to integer convert- add 2 stg
input           a2stg_faddsubop;        // float add or subtract- add 2 stage
input           a2stg_fitos;            // fitos- add 2 stage
input           a2stg_fitod;            // fitod- add 2 stage
input           a2stg_fxtos;            // fxtos- add 2 stage
input           a2stg_fxtod;            // fxtod- add 2 stage
input           a3stg_exp_7ff;          // select line to a3stg_exp
input           a3stg_exp_ff;           // select line to a3stg_exp
input           a3stg_exp_add;          // select line to a3stg_exp
input           a3stg_inc_exp_inv;      // increment the exponent- add 3 stg
input           a3stg_same_exp_inv;     // keep the exponent- add 3 stg
input           a3stg_dec_exp_inv;      // decrement the exponent- add 3 stg
input           a3stg_faddsubop;        // add/subtract- add 3 stage
input           a3stg_fdtos_inv;        // double to single convert- add 3 stg
input           a4stg_fixtos_fxtod_inv; // int to single/double cvt- add 4 stg
input [5:0]      a4stg_shl_cnt;          // postnorm shift left count- add 4 stg
input           a4stg_denorm_inv;       // 0 the exponent
input           a4stg_rndadd_cout;      // fraction rounding adder carry out
input           add_exp_out_expinc;     // select line to add_exp_out
input           add_exp_out_exp;        // select line to add_exp_out
input           add_exp_out_exp1;       // select line to add_exp_out
input           a4stg_in_of;            // add overflow- select exp out
input           add_exp_out_expadd;     // select line to add_exp_out
input           a4stg_dblop;            // double precision operation- add 4 stg
input           a4stg_to_0_inv;         // result to infinity on overflow
input           fadd_clken_l;           // add pipe clk enable - asserted low
input           rclk;           // global clock
 
output          a1stg_expadd3_11;       // exponent adder 3 output- add 1 stage
output [11:0]    a1stg_expadd1_11_0;     // exponent adder 1 output- add 1 stage
output [10:0]    a1stg_expadd4_inv;      // exponent adder 4 output- add 1 stage
output [5:0]     a1stg_expadd2_5_0;      // exponent adder 2 output- add 1 stage
output [11:0]    a2stg_exp;              // exponent- add 2 stage
output [12:0]    a2stg_expadd;           // exponent adder- add 2 stage
output [10:0]    a3stg_exp_10_0;         // exponent adder- add 3 stage
output [11:0]    a4stg_exp_11_0;         // exponent adder- add 4 stage
output [10:0]    add_exp_out;            // add exponent output
 
input           se;                     // scan_enable
input           si;                     // scan in
output          so;                     // scan out
 
 
wire [62:52]    a1stg_in1;
wire [62:52]    a1stg_in1a;
wire [62:52]    a1stg_in2;
wire [62:52]    a1stg_in2a;
wire [12:0]      a1stg_dp_sngop;
wire [12:0]      a1stg_dp_sngopa;
wire [12:0]      a1stg_dp_dblop;
wire [12:0]      a1stg_dp_dblopa;
wire [9:7]      a1stg_op_7;
wire            a1stg_op_7_0;
wire [10:0]      a1stg_expadd3_in1;
wire [10:0]      a1stg_expadd3_in2_in;
wire [10:0]      a1stg_expadd3_in2;
wire [12:0]      a1stg_expadd3;
wire            a1stg_expadd3_11;
wire [12:0]      a1stg_expadd1_in1;
wire [12:0]      a1stg_expadd1_in2;
wire [12:0]      a1stg_expadd1;
wire [11:0]     a1stg_expadd1_11_0;
wire [12:0]      a1stg_expadd4_in1;
wire [12:0]      a1stg_expadd4_in2;
wire [12:0]      a1stg_expadd4;
wire [10:0]      a1stg_expadd4_inv;
wire [12:0]      a1stg_expadd2_in1;
wire [12:0]      a1stg_expadd2;
wire [5:0]      a1stg_expadd2_5_0;
wire [12:0]      a2stg_exp_in;
wire [11:0]      a2stg_exp;
wire [12:0]      a2stg_expa;
wire [12:0]      a2stg_expadd_in2_in;
wire [12:0]      a2stg_expadd_in2;
wire [12:0]      a2stg_expadd;
wire [12:0]      a3stg_exp_in;
wire [12:0]      a3stg_exp;
wire [10:0]     a3stg_exp_10_0;
wire [12:0]      a3stg_exp_plus1;
wire [12:0]      a3stg_exp_minus1;
wire [12:0]      a4stg_exp_pre1_in;
wire [12:0]      a4stg_exp_pre1;
wire [12:0]      a4stg_exp_pre3_in;
wire [12:0]      a4stg_exp_pre3;
wire [12:0]      a4stg_exp_pre2_in;
wire [12:0]      a4stg_exp_pre2;
wire [12:0]      a4stg_exp_pre4_in;
wire [12:0]      a4stg_exp_pre4;
wire [12:0]      a4stg_exp;
wire [11:0]      a4stg_exp_11_0;
wire [12:0]      a4stg_exp2;
wire [12:0]      a4stg_expinc;
wire [12:0]      a4stg_expadd_in2;
wire [12:0]      a4stg_expadd;
wire [12:0]      a4stg_expshl;
wire [10:0]      add_exp_out_in1;
wire [10:0]      add_exp_out1;
wire [10:0]      add_exp_out_in2;
wire [10:0]      add_exp_out2;
wire [10:0]      add_exp_out_in3;
wire [10:0]      add_exp_out3;
wire [10:0]      add_exp_out4;
wire [10:0]      add_exp_out;
 
 
// 6/23/03: Removed tm_l input port. Using locally generated se_l instead for cken_buf 
wire se_l;
 
assign se_l = ~se;
 
clken_buf  ckbuf_add_exp_dp (
  .clk(clk),
  .rclk(rclk),
  .enb_l(fadd_clken_l),
  .tmb_l(se_l)
  );
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add exponent inputs.
//
//      Add input stage.
//
///////////////////////////////////////////////////////////////////////////////
 
dffe_s #(11) i_a1stg_in1 (
        .din    (inq_in1[62:52]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_in1[62:52]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(11) i_a1stg_in1a (
        .din    (inq_in1[62:52]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_in1a[62:52]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(11) i_a1stg_in2 (
        .din    (inq_in2[62:52]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_in2[62:52]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(11) i_a1stg_in2a (
        .din    (inq_in2[62:52]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_in2a[62:52]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a1stg_dp_sngop (
        .din    ({13{inq_op[0]}}),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_dp_sngop[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a1stg_dp_sngopa (
        .din    ({13{inq_op[0]}}),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_dp_sngopa[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a1stg_dp_dblop (
        .din    ({13{inq_op[1]}}),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_dp_dblop[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a1stg_dp_dblopa (
        .din    ({13{inq_op[1]}}),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_dp_dblopa[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(4) i_a1stg_op_7 (
        .din    ({4{inq_op_7}}),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      ({a1stg_op_7[9:7], a1stg_op_7_0}),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(11) i_a1stg_expadd3_in1 (
        .din    (inq_in1[62:52]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_expadd3_in1[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign a1stg_expadd3_in2_in[10:0]= (~(inq_in2[62:52]
                & {8'hff, {3{inq_op[1]}}}));
 
dffe_s #(11) i_a1stg_expadd3_in2 (
        .din    (a1stg_expadd3_in2_in[10:0]),
        .en     (a1stg_step),
        .clk    (clk),
 
        .q      (a1stg_expadd3_in2[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent comparison.
//
//      Add stage 1.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a1stg_expadd3[12:0]= ({2'b00, a1stg_expadd3_in1[10:0]}
                        + {2'b11, a1stg_expadd3_in2[10:0]}
                        + 13'h0001);
assign a1stg_expadd3_11 = a1stg_expadd3[11];
 
 
assign a1stg_expadd1_in1[12:0]= (a1stg_dp_dblopa
                            & {2'b0, a1stg_in1[62:52]})
                | (a1stg_dp_sngopa
                            & {5'b0, a1stg_in1[62:55]})
                | {3'b0, a1stg_op_7[9:7], 6'b0, a1stg_op_7_0};
 
assign a1stg_expadd1_in2[12:0]= (~((a1stg_dp_dblop
                            & {2'b0, a1stg_in2[62:52]})
                | (a1stg_dp_sngop
                            & {5'b0, a1stg_in2[62:55]})));
 
assign a1stg_expadd1[12:0]= (a1stg_expadd1_in1[12:0]
                        + a1stg_expadd1_in2[12:0]
                        + 13'h0001);
assign a1stg_expadd1_11_0[11:0] = a1stg_expadd1[11:0];
 
assign a1stg_expadd4_in1[12:0]= (a1stg_dp_dblopa
                            & {2'b0, a1stg_in2a[62:52]})
                | (a1stg_dp_sngopa
                            & {5'b0, a1stg_in2a[62:55]});
 
assign a1stg_expadd4_in2[12:0]= (~((a1stg_dp_dblop
                            & {2'b0, a1stg_in1a[62:52]})
                | (a1stg_dp_sngop
                            & {5'b0, a1stg_in1a[62:55]})));
 
assign a1stg_expadd4[12:0]= (a1stg_expadd4_in1[12:0]
                        + a1stg_expadd4_in2[12:0]
                        + 13'h0001);
assign a1stg_expadd4_inv[10:0]= (~a1stg_expadd4[10:0]);
 
assign a1stg_expadd2_in1[12:0]= (a1stg_dp_dblopa
                            & {2'b0, a1stg_in2a[62:52]})
                | (a1stg_dp_sngopa
                            & {5'b0, a1stg_in2a[62:55]});
 
assign a1stg_expadd2[12:0]= (a1stg_expadd2_in1[12:0]
                        + 13'h0001);
assign a1stg_expadd2_5_0[5:0] = a1stg_expadd2[5:0];
 
assign a2stg_exp_in[12:0]= ({13{(a1stg_faddsubd && (!a1stg_expadd1[12]))}}
                            & {2'b0, a1stg_in1a[62:52]})
                | ({13{(a1stg_faddsubs && (!a1stg_expadd1[12]))}}
                            & {5'b0, a1stg_in1a[62:55]})
                | ({13{(a1stg_faddsubd && a1stg_expadd1[12])}}
                            & {2'b0, a1stg_in2[62:52]})
                | ({13{a1stg_fdtos}}
                            & {2'b0, a1stg_in2[62:52]})
                | ({13{(a1stg_faddsubs && a1stg_expadd1[12])}}
                            & {5'b0, a1stg_in2[62:55]})
                | ({13{a1stg_fstod}}
                            & {5'b0, a1stg_in2[62:55]})
                | ({13{a1stg_fsdtoix}}
                            & a1stg_expadd2[12:0]);
 
dffe_s #(12) i_a2stg_exp (
        .din    (a2stg_exp_in[11:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (a2stg_exp[11:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a2stg_expa (
        .din    (a2stg_exp_in[12:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (a2stg_expa[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent adjustment.
//
//      Add stage 1.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a2stg_expadd_in2_in[12:0]= ({13{a1stg_fstod}}
                            & 13'h0380)
                | ({13{a1stg_fdtos}}
                            & (~13'h0380))
                | ({13{a1stg_fstoi}}
                            & (~13'h009f))
                | ({13{a1stg_fstox}}
                            & (~13'h00bf))
                | ({13{a1stg_fdtoi}}
                            & (~13'h041f))
                | ({13{a1stg_fdtox}}
                            & (~13'h043f));
 
dffe_s #(13) i_a2stg_expadd2_in2 (
        .din    (a2stg_expadd_in2_in[12:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (a2stg_expadd_in2[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent adjustment.
//
//      Add stage 2.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a2stg_expadd[12:0]= (a2stg_expa[12:0]
                        + a2stg_expadd_in2[12:0]
                        + {12'b0, a2stg_fsdtoix_fdtos});
 
assign a3stg_exp_in[12:0]= ({13{a2stg_faddsubop}}
                            & a2stg_expa[12:0])
                | ({13{a2stg_fitos}}
                            & 13'h009e)
                | ({13{a2stg_fitod}}
                            & 13'h041e)
                | ({13{a2stg_fxtos}}
                            & 13'h00be)
                | ({13{a2stg_fxtod}}
                            & 13'h043e)
                | ({13{a3stg_exp_7ff}}
                            & 13'h07ff)
                | ({13{a3stg_exp_ff}}
                            & 13'h00ff)
                | ({13{a3stg_exp_add}}
                            & (a2stg_expadd[12:0] & {13{(!a2stg_expadd[11])}}));
 
dffe_s #(13) i_a3stg_exp (
        .din    (a3stg_exp_in[12:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (a3stg_exp[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign a3stg_exp_10_0[10:0] = a3stg_exp[10:0];
 
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent increment/decrement adjustment.
//
//      Add stage 3.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a3stg_exp_plus1[12:0]= a3stg_exp[12:0] + 13'h0001;
 
assign a3stg_exp_minus1[12:0]= a3stg_exp[12:0] - 13'h0001;
 
assign a4stg_exp_pre1_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step
                                        && (!a3stg_inc_exp_inv))}}
                            & a3stg_exp_plus1[12:0]);
 
dff_s #(13) i_a4stg_exp_pre1 (
        .din    (a4stg_exp_pre1_in[12:0]),
        .clk    (clk),
 
        .q      (a4stg_exp_pre1[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign a4stg_exp_pre3_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step
                                        && (!a3stg_dec_exp_inv))}}
                            & a3stg_exp_minus1[12:0]);
 
dff_s #(13) i_a4stg_exp_pre3 (
        .din    (a4stg_exp_pre3_in[12:0]),
        .clk    (clk),
 
        .q      (a4stg_exp_pre3[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign a4stg_exp_pre2_in[12:0]= ({13{((!a3stg_fdtos_inv) && a6stg_step)}}
                            & a3stg_exp[12:0])
                | ({13{((!a4stg_fixtos_fxtod_inv) && a6stg_step)}}
                            & a4stg_expshl[12:0])
                | ({13{(!a6stg_step)}}
                            & a4stg_exp[12:0]);
 
dff_s #(13) i_a4stg_exp_pre2 (
        .din    (a4stg_exp_pre2_in[12:0]),
        .clk    (clk),
 
        .q      (a4stg_exp_pre2[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign a4stg_exp_pre4_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step
                                        && (!a3stg_same_exp_inv))}}
                            & a3stg_exp[12:0]);
 
dff_s #(13) i_a4stg_exp_pre4 (
        .din    (a4stg_exp_pre4_in[12:0]),
        .clk    (clk),
 
        .q      (a4stg_exp_pre4[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(13) i_a4stg_exp2 (
        .din    (a3stg_exp[12:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (a4stg_exp2[12:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent rounding increment.
//
//      Add stage 4.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a4stg_exp[12:0]= (a4stg_exp_pre1[12:0]
                | a4stg_exp_pre2[12:0]
                | a4stg_exp_pre3[12:0]
                | a4stg_exp_pre4[12:0]);
 
assign a4stg_exp_11_0[11:0] = a4stg_exp[11:0];
 
assign a4stg_expinc[12:0]= a4stg_exp[12:0] + 13'h0001;
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent adjustment for post normalization left shift.
//
//      Add stage 4.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a4stg_expadd_in2[12:0]= (~{7'b0, a4stg_shl_cnt[5:0]});
 
assign a4stg_expadd[12:0]= (a4stg_exp2[12:0]
                        + a4stg_expadd_in2[12:0]
                        + 13'h0001);
 
 
///////////////////////////////////////////////////////////////////////////////
//
//      Add pipe exponent output.
//
//      Add stage 4.
//
///////////////////////////////////////////////////////////////////////////////
 
assign a4stg_expshl[12:0]= (a4stg_expadd[12:0] & {13{a4stg_denorm_inv}});
 
assign add_exp_out_in1[10:0]= (~(({11{add_exp_out_exp1}}
                            & a4stg_exp[10:0])
                | ({11{a4stg_in_of}}
                            & {{3{a4stg_dblop}}, 7'h7f, a4stg_to_0_inv})
                | ({11{add_exp_out_expadd}}
                            & a4stg_expshl[10:0])));
 
dffe_s #(11) i_add_exp_out1 (
        .din    (add_exp_out_in1[10:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (add_exp_out1[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign add_exp_out_in2[10:0]= (~({11{(add_exp_out_expinc
                                        && a4stg_rndadd_cout)}}
                            & a4stg_expinc[10:0]));
 
dffe_s #(11) i_add_exp_out2 (
        .din    (add_exp_out_in2[10:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (add_exp_out2[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign add_exp_out_in3[10:0]= (~({11{add_exp_out_exp}}
                            & a4stg_exp[10:0]));
 
dffe_s #(11) i_add_exp_out3 (
        .din    (add_exp_out_in3[10:0]),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (add_exp_out3[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
dffe_s #(11) i_add_exp_out4 (
        .din    ({11{a4stg_rndadd_cout}}),
        .en     (a6stg_step),
        .clk    (clk),
 
        .q      (add_exp_out4[10:0]),
 
        .se     (se),
        .si     (),
        .so     ()
);
 
assign add_exp_out[10:0]= (~(add_exp_out1[10:0]
                & add_exp_out2[10:0]
                & (add_exp_out3[10:0] | add_exp_out4[10:0])));
 
 
endmodule
 
 

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[/] [sparc64soc/] [trunk/] [T1-FPU/] [fpu_add_exp_dp.v] - Blame information for rev 2

Line No.	Rev	Author	Line
1	2	dmitryr	`// ========== Copyright Header Begin ==========================================`
2			`//`
3			`// OpenSPARC T1 Processor File: fpu_add_exp_dp.v`
4			`// Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved.`
5			`// DO NOT ALTER OR REMOVE COPYRIGHT NOTICES.`
6			`//`
7			`// The above named program is free software; you can redistribute it and/or`
8			`// modify it under the terms of the GNU General Public`
9			`// License version 2 as published by the Free Software Foundation.`
10			`//`
11			`// The above named program is distributed in the hope that it will be`
12			`// useful, but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
14			`// General Public License for more details.`
15			`//`
16			`// You should have received a copy of the GNU General Public`
17			`// License along with this work; if not, write to the Free Software`
18			`// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.`
19			`//`
20			`// ========== Copyright Header End ============================================`
21			`///////////////////////////////////////////////////////////////////////////////`
22			`//`
23			`// Add pipeline exponent datapath.`
24			`//`
25			`///////////////////////////////////////////////////////////////////////////////`
26
27
28			`module fpu_add_exp_dp (`
29			`inq_in1,`
30			`inq_in2,`
31			`inq_op,`
32			`inq_op_7,`
33			`a1stg_step,`
34			`a1stg_faddsubd,`
35			`a1stg_faddsubs,`
36			`a1stg_fsdtoix,`
37			`a6stg_step,`
38			`a1stg_fstod,`
39			`a1stg_fdtos,`
40			`a1stg_fstoi,`
41			`a1stg_fstox,`
42			`a1stg_fdtoi,`
43			`a1stg_fdtox,`
44			`a2stg_fsdtoix_fdtos,`
45			`a2stg_faddsubop,`
46			`a2stg_fitos,`
47			`a2stg_fitod,`
48			`a2stg_fxtos,`
49			`a2stg_fxtod,`
50			`a3stg_exp_7ff,`
51			`a3stg_exp_ff,`
52			`a3stg_exp_add,`
53			`a3stg_inc_exp_inv,`
54			`a3stg_same_exp_inv,`
55			`a3stg_dec_exp_inv,`
56			`a3stg_faddsubop,`
57			`a3stg_fdtos_inv,`
58			`a4stg_fixtos_fxtod_inv,`
59			`a4stg_shl_cnt,`
60			`a4stg_denorm_inv,`
61			`a4stg_rndadd_cout,`
62			`add_exp_out_expinc,`
63			`add_exp_out_exp,`
64			`add_exp_out_exp1,`
65			`a4stg_in_of,`
66			`add_exp_out_expadd,`
67			`a4stg_dblop,`
68			`a4stg_to_0_inv,`
69			`fadd_clken_l,`
70			`rclk,`
71
72			`a1stg_expadd3_11,`
73			`a1stg_expadd1_11_0,`
74			`a1stg_expadd4_inv,`
75			`a1stg_expadd2_5_0,`
76			`a2stg_exp,`
77			`a2stg_expadd,`
78			`a3stg_exp_10_0,`
79			`a4stg_exp_11_0,`
80			`add_exp_out,`
81
82			`se,`
83			`si,`
84			`so`
85			`);`
86
87
88			`input [62:52] inq_in1; // request operand 1 to op pipes`
89			`input [62:52] inq_in2; // request operand 2 to op pipes`
90			`input [1:0] inq_op; // request opcode[1:0]`
91			`input inq_op_7; // request opcode[7]`
92			`input a1stg_step; // add pipe load`
93			`input a1stg_faddsubd; // add/subtract double- add 1 stg`
94			`input a1stg_faddsubs; // add/subtract single- add 1 stg`
95			`input a1stg_fsdtoix; // float to integer convert- add 1 stg`
96			`input a6stg_step; // advance the add pipe`
97			`input a1stg_fstod; // fstod- add 1 stage`
98			`input a1stg_fdtos; // fdtos- add 1 stage`
99			`input a1stg_fstoi; // fstoi- add 1 stage`
100			`input a1stg_fstox; // fstox- add 1 stage`
101			`input a1stg_fdtoi; // fdtoi- add 1 stage`
102			`input a1stg_fdtox; // fdtox- add 1 stage`
103			`input a2stg_fsdtoix_fdtos; // float to integer convert- add 2 stg`
104			`input a2stg_faddsubop; // float add or subtract- add 2 stage`
105			`input a2stg_fitos; // fitos- add 2 stage`
106			`input a2stg_fitod; // fitod- add 2 stage`
107			`input a2stg_fxtos; // fxtos- add 2 stage`
108			`input a2stg_fxtod; // fxtod- add 2 stage`
109			`input a3stg_exp_7ff; // select line to a3stg_exp`
110			`input a3stg_exp_ff; // select line to a3stg_exp`
111			`input a3stg_exp_add; // select line to a3stg_exp`
112			`input a3stg_inc_exp_inv; // increment the exponent- add 3 stg`
113			`input a3stg_same_exp_inv; // keep the exponent- add 3 stg`
114			`input a3stg_dec_exp_inv; // decrement the exponent- add 3 stg`
115			`input a3stg_faddsubop; // add/subtract- add 3 stage`
116			`input a3stg_fdtos_inv; // double to single convert- add 3 stg`
117			`input a4stg_fixtos_fxtod_inv; // int to single/double cvt- add 4 stg`
118			`input [5:0] a4stg_shl_cnt; // postnorm shift left count- add 4 stg`
119			`input a4stg_denorm_inv; // 0 the exponent`
120			`input a4stg_rndadd_cout; // fraction rounding adder carry out`
121			`input add_exp_out_expinc; // select line to add_exp_out`
122			`input add_exp_out_exp; // select line to add_exp_out`
123			`input add_exp_out_exp1; // select line to add_exp_out`
124			`input a4stg_in_of; // add overflow- select exp out`
125			`input add_exp_out_expadd; // select line to add_exp_out`
126			`input a4stg_dblop; // double precision operation- add 4 stg`
127			`input a4stg_to_0_inv; // result to infinity on overflow`
128			`input fadd_clken_l; // add pipe clk enable - asserted low`
129			`input rclk; // global clock`
130
131			`output a1stg_expadd3_11; // exponent adder 3 output- add 1 stage`
132			`output [11:0] a1stg_expadd1_11_0; // exponent adder 1 output- add 1 stage`
133			`output [10:0] a1stg_expadd4_inv; // exponent adder 4 output- add 1 stage`
134			`output [5:0] a1stg_expadd2_5_0; // exponent adder 2 output- add 1 stage`
135			`output [11:0] a2stg_exp; // exponent- add 2 stage`
136			`output [12:0] a2stg_expadd; // exponent adder- add 2 stage`
137			`output [10:0] a3stg_exp_10_0; // exponent adder- add 3 stage`
138			`output [11:0] a4stg_exp_11_0; // exponent adder- add 4 stage`
139			`output [10:0] add_exp_out; // add exponent output`
140
141			`input se; // scan_enable`
142			`input si; // scan in`
143			`output so; // scan out`
144
145
146			`wire [62:52] a1stg_in1;`
147			`wire [62:52] a1stg_in1a;`
148			`wire [62:52] a1stg_in2;`
149			`wire [62:52] a1stg_in2a;`
150			`wire [12:0] a1stg_dp_sngop;`
151			`wire [12:0] a1stg_dp_sngopa;`
152			`wire [12:0] a1stg_dp_dblop;`
153			`wire [12:0] a1stg_dp_dblopa;`
154			`wire [9:7] a1stg_op_7;`
155			`wire a1stg_op_7_0;`
156			`wire [10:0] a1stg_expadd3_in1;`
157			`wire [10:0] a1stg_expadd3_in2_in;`
158			`wire [10:0] a1stg_expadd3_in2;`
159			`wire [12:0] a1stg_expadd3;`
160			`wire a1stg_expadd3_11;`
161			`wire [12:0] a1stg_expadd1_in1;`
162			`wire [12:0] a1stg_expadd1_in2;`
163			`wire [12:0] a1stg_expadd1;`
164			`wire [11:0] a1stg_expadd1_11_0;`
165			`wire [12:0] a1stg_expadd4_in1;`
166			`wire [12:0] a1stg_expadd4_in2;`
167			`wire [12:0] a1stg_expadd4;`
168			`wire [10:0] a1stg_expadd4_inv;`
169			`wire [12:0] a1stg_expadd2_in1;`
170			`wire [12:0] a1stg_expadd2;`
171			`wire [5:0] a1stg_expadd2_5_0;`
172			`wire [12:0] a2stg_exp_in;`
173			`wire [11:0] a2stg_exp;`
174			`wire [12:0] a2stg_expa;`
175			`wire [12:0] a2stg_expadd_in2_in;`
176			`wire [12:0] a2stg_expadd_in2;`
177			`wire [12:0] a2stg_expadd;`
178			`wire [12:0] a3stg_exp_in;`
179			`wire [12:0] a3stg_exp;`
180			`wire [10:0] a3stg_exp_10_0;`
181			`wire [12:0] a3stg_exp_plus1;`
182			`wire [12:0] a3stg_exp_minus1;`
183			`wire [12:0] a4stg_exp_pre1_in;`
184			`wire [12:0] a4stg_exp_pre1;`
185			`wire [12:0] a4stg_exp_pre3_in;`
186			`wire [12:0] a4stg_exp_pre3;`
187			`wire [12:0] a4stg_exp_pre2_in;`
188			`wire [12:0] a4stg_exp_pre2;`
189			`wire [12:0] a4stg_exp_pre4_in;`
190			`wire [12:0] a4stg_exp_pre4;`
191			`wire [12:0] a4stg_exp;`
192			`wire [11:0] a4stg_exp_11_0;`
193			`wire [12:0] a4stg_exp2;`
194			`wire [12:0] a4stg_expinc;`
195			`wire [12:0] a4stg_expadd_in2;`
196			`wire [12:0] a4stg_expadd;`
197			`wire [12:0] a4stg_expshl;`
198			`wire [10:0] add_exp_out_in1;`
199			`wire [10:0] add_exp_out1;`
200			`wire [10:0] add_exp_out_in2;`
201			`wire [10:0] add_exp_out2;`
202			`wire [10:0] add_exp_out_in3;`
203			`wire [10:0] add_exp_out3;`
204			`wire [10:0] add_exp_out4;`
205			`wire [10:0] add_exp_out;`
206
207
208			`// 6/23/03: Removed tm_l input port. Using locally generated se_l instead for cken_buf`
209			`wire se_l;`
210
211			`assign se_l = ~se;`
212
213			`clken_buf ckbuf_add_exp_dp (`
214			`.clk(clk),`
215			`.rclk(rclk),`
216			`.enb_l(fadd_clken_l),`
217			`.tmb_l(se_l)`
218			`);`
219
220			`///////////////////////////////////////////////////////////////////////////////`
221			`//`
222			`// Add exponent inputs.`
223			`//`
224			`// Add input stage.`
225			`//`
226			`///////////////////////////////////////////////////////////////////////////////`
227
228			`dffe_s #(11) i_a1stg_in1 (`
229			`.din (inq_in1[62:52]),`
230			`.en (a1stg_step),`
231			`.clk (clk),`
232
233			`.q (a1stg_in1[62:52]),`
234
235			`.se (se),`
236			`.si (),`
237			`.so ()`
238			`);`
239
240			`dffe_s #(11) i_a1stg_in1a (`
241			`.din (inq_in1[62:52]),`
242			`.en (a1stg_step),`
243			`.clk (clk),`
244
245			`.q (a1stg_in1a[62:52]),`
246
247			`.se (se),`
248			`.si (),`
249			`.so ()`
250			`);`
251
252			`dffe_s #(11) i_a1stg_in2 (`
253			`.din (inq_in2[62:52]),`
254			`.en (a1stg_step),`
255			`.clk (clk),`
256
257			`.q (a1stg_in2[62:52]),`
258
259			`.se (se),`
260			`.si (),`
261			`.so ()`
262			`);`
263
264			`dffe_s #(11) i_a1stg_in2a (`
265			`.din (inq_in2[62:52]),`
266			`.en (a1stg_step),`
267			`.clk (clk),`
268
269			`.q (a1stg_in2a[62:52]),`
270
271			`.se (se),`
272			`.si (),`
273			`.so ()`
274			`);`
275
276			`dffe_s #(13) i_a1stg_dp_sngop (`
277			`.din ({13{inq_op[0]}}),`
278			`.en (a1stg_step),`
279			`.clk (clk),`
280
281			`.q (a1stg_dp_sngop[12:0]),`
282
283			`.se (se),`
284			`.si (),`
285			`.so ()`
286			`);`
287
288			`dffe_s #(13) i_a1stg_dp_sngopa (`
289			`.din ({13{inq_op[0]}}),`
290			`.en (a1stg_step),`
291			`.clk (clk),`
292
293			`.q (a1stg_dp_sngopa[12:0]),`
294
295			`.se (se),`
296			`.si (),`
297			`.so ()`
298			`);`
299
300			`dffe_s #(13) i_a1stg_dp_dblop (`
301			`.din ({13{inq_op[1]}}),`
302			`.en (a1stg_step),`
303			`.clk (clk),`
304
305			`.q (a1stg_dp_dblop[12:0]),`
306
307			`.se (se),`
308			`.si (),`
309			`.so ()`
310			`);`
311
312			`dffe_s #(13) i_a1stg_dp_dblopa (`
313			`.din ({13{inq_op[1]}}),`
314			`.en (a1stg_step),`
315			`.clk (clk),`
316
317			`.q (a1stg_dp_dblopa[12:0]),`
318
319			`.se (se),`
320			`.si (),`
321			`.so ()`
322			`);`
323
324			`dffe_s #(4) i_a1stg_op_7 (`
325			`.din ({4{inq_op_7}}),`
326			`.en (a1stg_step),`
327			`.clk (clk),`
328
329			`.q ({a1stg_op_7[9:7], a1stg_op_7_0}),`
330
331			`.se (se),`
332			`.si (),`
333			`.so ()`
334			`);`
335
336			`dffe_s #(11) i_a1stg_expadd3_in1 (`
337			`.din (inq_in1[62:52]),`
338			`.en (a1stg_step),`
339			`.clk (clk),`
340
341			`.q (a1stg_expadd3_in1[10:0]),`
342
343			`.se (se),`
344			`.si (),`
345			`.so ()`
346			`);`
347
348			`assign a1stg_expadd3_in2_in[10:0]= (~(inq_in2[62:52]`
349			`& {8'hff, {3{inq_op[1]}}}));`
350
351			`dffe_s #(11) i_a1stg_expadd3_in2 (`
352			`.din (a1stg_expadd3_in2_in[10:0]),`
353			`.en (a1stg_step),`
354			`.clk (clk),`
355
356			`.q (a1stg_expadd3_in2[10:0]),`
357
358			`.se (se),`
359			`.si (),`
360			`.so ()`
361			`);`
362
363
364			`///////////////////////////////////////////////////////////////////////////////`
365			`//`
366			`// Add pipe exponent comparison.`
367			`//`
368			`// Add stage 1.`
369			`//`
370			`///////////////////////////////////////////////////////////////////////////////`
371
372			`assign a1stg_expadd3[12:0]= ({2'b00, a1stg_expadd3_in1[10:0]}`
373			`+ {2'b11, a1stg_expadd3_in2[10:0]}`
374			`+ 13'h0001);`
375			`assign a1stg_expadd3_11 = a1stg_expadd3[11];`
376
377
378			`assign a1stg_expadd1_in1[12:0]= (a1stg_dp_dblopa`
379			`& {2'b0, a1stg_in1[62:52]})`
380			`\| (a1stg_dp_sngopa`
381			`& {5'b0, a1stg_in1[62:55]})`
382			`\| {3'b0, a1stg_op_7[9:7], 6'b0, a1stg_op_7_0};`
383
384			`assign a1stg_expadd1_in2[12:0]= (~((a1stg_dp_dblop`
385			`& {2'b0, a1stg_in2[62:52]})`
386			`\| (a1stg_dp_sngop`
387			`& {5'b0, a1stg_in2[62:55]})));`
388
389			`assign a1stg_expadd1[12:0]= (a1stg_expadd1_in1[12:0]`
390			`+ a1stg_expadd1_in2[12:0]`
391			`+ 13'h0001);`
392			`assign a1stg_expadd1_11_0[11:0] = a1stg_expadd1[11:0];`
393
394			`assign a1stg_expadd4_in1[12:0]= (a1stg_dp_dblopa`
395			`& {2'b0, a1stg_in2a[62:52]})`
396			`\| (a1stg_dp_sngopa`
397			`& {5'b0, a1stg_in2a[62:55]});`
398
399			`assign a1stg_expadd4_in2[12:0]= (~((a1stg_dp_dblop`
400			`& {2'b0, a1stg_in1a[62:52]})`
401			`\| (a1stg_dp_sngop`
402			`& {5'b0, a1stg_in1a[62:55]})));`
403
404			`assign a1stg_expadd4[12:0]= (a1stg_expadd4_in1[12:0]`
405			`+ a1stg_expadd4_in2[12:0]`
406			`+ 13'h0001);`
407			`assign a1stg_expadd4_inv[10:0]= (~a1stg_expadd4[10:0]);`
408
409			`assign a1stg_expadd2_in1[12:0]= (a1stg_dp_dblopa`
410			`& {2'b0, a1stg_in2a[62:52]})`
411			`\| (a1stg_dp_sngopa`
412			`& {5'b0, a1stg_in2a[62:55]});`
413
414			`assign a1stg_expadd2[12:0]= (a1stg_expadd2_in1[12:0]`
415			`+ 13'h0001);`
416			`assign a1stg_expadd2_5_0[5:0] = a1stg_expadd2[5:0];`
417
418			`assign a2stg_exp_in[12:0]= ({13{(a1stg_faddsubd && (!a1stg_expadd1[12]))}}`
419			`& {2'b0, a1stg_in1a[62:52]})`
420			`\| ({13{(a1stg_faddsubs && (!a1stg_expadd1[12]))}}`
421			`& {5'b0, a1stg_in1a[62:55]})`
422			`\| ({13{(a1stg_faddsubd && a1stg_expadd1[12])}}`
423			`& {2'b0, a1stg_in2[62:52]})`
424			`\| ({13{a1stg_fdtos}}`
425			`& {2'b0, a1stg_in2[62:52]})`
426			`\| ({13{(a1stg_faddsubs && a1stg_expadd1[12])}}`
427			`& {5'b0, a1stg_in2[62:55]})`
428			`\| ({13{a1stg_fstod}}`
429			`& {5'b0, a1stg_in2[62:55]})`
430			`\| ({13{a1stg_fsdtoix}}`
431			`& a1stg_expadd2[12:0]);`
432
433			`dffe_s #(12) i_a2stg_exp (`
434			`.din (a2stg_exp_in[11:0]),`
435			`.en (a6stg_step),`
436			`.clk (clk),`
437
438			`.q (a2stg_exp[11:0]),`
439
440			`.se (se),`
441			`.si (),`
442			`.so ()`
443			`);`
444
445			`dffe_s #(13) i_a2stg_expa (`
446			`.din (a2stg_exp_in[12:0]),`
447			`.en (a6stg_step),`
448			`.clk (clk),`
449
450			`.q (a2stg_expa[12:0]),`
451
452			`.se (se),`
453			`.si (),`
454			`.so ()`
455			`);`
456
457
458			`///////////////////////////////////////////////////////////////////////////////`
459			`//`
460			`// Add pipe exponent adjustment.`
461			`//`
462			`// Add stage 1.`
463			`//`
464			`///////////////////////////////////////////////////////////////////////////////`
465
466			`assign a2stg_expadd_in2_in[12:0]= ({13{a1stg_fstod}}`
467			`& 13'h0380)`
468			`\| ({13{a1stg_fdtos}}`
469			`& (~13'h0380))`
470			`\| ({13{a1stg_fstoi}}`
471			`& (~13'h009f))`
472			`\| ({13{a1stg_fstox}}`
473			`& (~13'h00bf))`
474			`\| ({13{a1stg_fdtoi}}`
475			`& (~13'h041f))`
476			`\| ({13{a1stg_fdtox}}`
477			`& (~13'h043f));`
478
479			`dffe_s #(13) i_a2stg_expadd2_in2 (`
480			`.din (a2stg_expadd_in2_in[12:0]),`
481			`.en (a6stg_step),`
482			`.clk (clk),`
483
484			`.q (a2stg_expadd_in2[12:0]),`
485
486			`.se (se),`
487			`.si (),`
488			`.so ()`
489			`);`
490
491
492			`///////////////////////////////////////////////////////////////////////////////`
493			`//`
494			`// Add pipe exponent adjustment.`
495			`//`
496			`// Add stage 2.`
497			`//`
498			`///////////////////////////////////////////////////////////////////////////////`
499
500			`assign a2stg_expadd[12:0]= (a2stg_expa[12:0]`
501			`+ a2stg_expadd_in2[12:0]`
502			`+ {12'b0, a2stg_fsdtoix_fdtos});`
503
504			`assign a3stg_exp_in[12:0]= ({13{a2stg_faddsubop}}`
505			`& a2stg_expa[12:0])`
506			`\| ({13{a2stg_fitos}}`
507			`& 13'h009e)`
508			`\| ({13{a2stg_fitod}}`
509			`& 13'h041e)`
510			`\| ({13{a2stg_fxtos}}`
511			`& 13'h00be)`
512			`\| ({13{a2stg_fxtod}}`
513			`& 13'h043e)`
514			`\| ({13{a3stg_exp_7ff}}`
515			`& 13'h07ff)`
516			`\| ({13{a3stg_exp_ff}}`
517			`& 13'h00ff)`
518			`\| ({13{a3stg_exp_add}}`
519			`& (a2stg_expadd[12:0] & {13{(!a2stg_expadd[11])}}));`
520
521			`dffe_s #(13) i_a3stg_exp (`
522			`.din (a3stg_exp_in[12:0]),`
523			`.en (a6stg_step),`
524			`.clk (clk),`
525
526			`.q (a3stg_exp[12:0]),`
527
528			`.se (se),`
529			`.si (),`
530			`.so ()`
531			`);`
532
533			`assign a3stg_exp_10_0[10:0] = a3stg_exp[10:0];`
534
535
536
537			`///////////////////////////////////////////////////////////////////////////////`
538			`//`
539			`// Add pipe exponent increment/decrement adjustment.`
540			`//`
541			`// Add stage 3.`
542			`//`
543			`///////////////////////////////////////////////////////////////////////////////`
544
545			`assign a3stg_exp_plus1[12:0]= a3stg_exp[12:0] + 13'h0001;`
546
547			`assign a3stg_exp_minus1[12:0]= a3stg_exp[12:0] - 13'h0001;`
548
549			`assign a4stg_exp_pre1_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step`
550			`&& (!a3stg_inc_exp_inv))}}`
551			`& a3stg_exp_plus1[12:0]);`
552
553			`dff_s #(13) i_a4stg_exp_pre1 (`
554			`.din (a4stg_exp_pre1_in[12:0]),`
555			`.clk (clk),`
556
557			`.q (a4stg_exp_pre1[12:0]),`
558
559			`.se (se),`
560			`.si (),`
561			`.so ()`
562			`);`
563
564			`assign a4stg_exp_pre3_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step`
565			`&& (!a3stg_dec_exp_inv))}}`
566			`& a3stg_exp_minus1[12:0]);`
567
568			`dff_s #(13) i_a4stg_exp_pre3 (`
569			`.din (a4stg_exp_pre3_in[12:0]),`
570			`.clk (clk),`
571
572			`.q (a4stg_exp_pre3[12:0]),`
573
574			`.se (se),`
575			`.si (),`
576			`.so ()`
577			`);`
578
579			`assign a4stg_exp_pre2_in[12:0]= ({13{((!a3stg_fdtos_inv) && a6stg_step)}}`
580			`& a3stg_exp[12:0])`
581			`\| ({13{((!a4stg_fixtos_fxtod_inv) && a6stg_step)}}`
582			`& a4stg_expshl[12:0])`
583			`\| ({13{(!a6stg_step)}}`
584			`& a4stg_exp[12:0]);`
585
586			`dff_s #(13) i_a4stg_exp_pre2 (`
587			`.din (a4stg_exp_pre2_in[12:0]),`
588			`.clk (clk),`
589
590			`.q (a4stg_exp_pre2[12:0]),`
591
592			`.se (se),`
593			`.si (),`
594			`.so ()`
595			`);`
596
597			`assign a4stg_exp_pre4_in[12:0]= ({13{(a3stg_faddsubop && a6stg_step`
598			`&& (!a3stg_same_exp_inv))}}`
599			`& a3stg_exp[12:0]);`
600
601			`dff_s #(13) i_a4stg_exp_pre4 (`
602			`.din (a4stg_exp_pre4_in[12:0]),`
603			`.clk (clk),`
604
605			`.q (a4stg_exp_pre4[12:0]),`
606
607			`.se (se),`
608			`.si (),`
609			`.so ()`
610			`);`
611
612			`dffe_s #(13) i_a4stg_exp2 (`
613			`.din (a3stg_exp[12:0]),`
614			`.en (a6stg_step),`
615			`.clk (clk),`
616
617			`.q (a4stg_exp2[12:0]),`
618
619			`.se (se),`
620			`.si (),`
621			`.so ()`
622			`);`
623
624
625			`///////////////////////////////////////////////////////////////////////////////`
626			`//`
627			`// Add pipe exponent rounding increment.`
628			`//`
629			`// Add stage 4.`
630			`//`
631			`///////////////////////////////////////////////////////////////////////////////`
632
633			`assign a4stg_exp[12:0]= (a4stg_exp_pre1[12:0]`
634			`\| a4stg_exp_pre2[12:0]`
635			`\| a4stg_exp_pre3[12:0]`
636			`\| a4stg_exp_pre4[12:0]);`
637
638			`assign a4stg_exp_11_0[11:0] = a4stg_exp[11:0];`
639
640			`assign a4stg_expinc[12:0]= a4stg_exp[12:0] + 13'h0001;`
641
642
643			`///////////////////////////////////////////////////////////////////////////////`
644			`//`
645			`// Add pipe exponent adjustment for post normalization left shift.`
646			`//`
647			`// Add stage 4.`
648			`//`
649			`///////////////////////////////////////////////////////////////////////////////`
650
651			`assign a4stg_expadd_in2[12:0]= (~{7'b0, a4stg_shl_cnt[5:0]});`
652
653			`assign a4stg_expadd[12:0]= (a4stg_exp2[12:0]`
654			`+ a4stg_expadd_in2[12:0]`
655			`+ 13'h0001);`
656
657
658			`///////////////////////////////////////////////////////////////////////////////`
659			`//`
660			`// Add pipe exponent output.`
661			`//`
662			`// Add stage 4.`
663			`//`
664			`///////////////////////////////////////////////////////////////////////////////`
665
666			`assign a4stg_expshl[12:0]= (a4stg_expadd[12:0] & {13{a4stg_denorm_inv}});`
667
668			`assign add_exp_out_in1[10:0]= (~(({11{add_exp_out_exp1}}`
669			`& a4stg_exp[10:0])`
670			`\| ({11{a4stg_in_of}}`
671			`& {{3{a4stg_dblop}}, 7'h7f, a4stg_to_0_inv})`
672			`\| ({11{add_exp_out_expadd}}`
673			`& a4stg_expshl[10:0])));`
674
675			`dffe_s #(11) i_add_exp_out1 (`
676			`.din (add_exp_out_in1[10:0]),`
677			`.en (a6stg_step),`
678			`.clk (clk),`
679
680			`.q (add_exp_out1[10:0]),`
681
682			`.se (se),`
683			`.si (),`
684			`.so ()`
685			`);`
686
687			`assign add_exp_out_in2[10:0]= (~({11{(add_exp_out_expinc`
688			`&& a4stg_rndadd_cout)}}`
689			`& a4stg_expinc[10:0]));`
690
691			`dffe_s #(11) i_add_exp_out2 (`
692			`.din (add_exp_out_in2[10:0]),`
693			`.en (a6stg_step),`
694			`.clk (clk),`
695
696			`.q (add_exp_out2[10:0]),`
697
698			`.se (se),`
699			`.si (),`
700			`.so ()`
701			`);`
702
703			`assign add_exp_out_in3[10:0]= (~({11{add_exp_out_exp}}`
704			`& a4stg_exp[10:0]));`
705
706			`dffe_s #(11) i_add_exp_out3 (`
707			`.din (add_exp_out_in3[10:0]),`
708			`.en (a6stg_step),`
709			`.clk (clk),`
710
711			`.q (add_exp_out3[10:0]),`
712
713			`.se (se),`
714			`.si (),`
715			`.so ()`
716			`);`
717
718			`dffe_s #(11) i_add_exp_out4 (`
719			`.din ({11{a4stg_rndadd_cout}}),`
720			`.en (a6stg_step),`
721			`.clk (clk),`
722
723			`.q (add_exp_out4[10:0]),`
724
725			`.se (se),`
726			`.si (),`
727			`.so ()`
728			`);`
729
730			`assign add_exp_out[10:0]= (~(add_exp_out1[10:0]`
731			`& add_exp_out2[10:0]`
732			`& (add_exp_out3[10:0] \| add_exp_out4[10:0])));`
733
734
735			`endmodule`
736
737