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Verilog

2 years ago
// © IBM Corp. 2020
// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
// the terms below; you may not use the files in this repository except in
// compliance with the License as modified.
// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
//
// Modified Terms:
//
// 1) For the purpose of the patent license granted to you in Section 3 of the
// License, the "Work" hereby includes implementations of the work of authorship
// in physical form.
//
// 2) Notwithstanding any terms to the contrary in the License, any licenses
// necessary for implementation of the Work that are available from OpenPOWER
// via the Power ISA End User License Agreement (EULA) are explicitly excluded
// hereunder, and may be obtained from OpenPOWER under the terms and conditions
// of the EULA.
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//
// Unless required by applicable law or agreed to in writing, the reference design
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
// for the specific language governing permissions and limitations under the License.
//
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// Additional rights, including the ability to physically implement a softcore that
// is compliant with the required sections of the Power ISA Specification, are
// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
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`timescale 1 ns / 1 ns
`include "tri_a2o.vh"
module fu_lze(
vdd,
gnd,
clk,
rst,
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clkoff_b,
act_dis,
flush,
delay_lclkr,
mpw1_b,
mpw2_b,
sg_1,
thold_1,
fpu_enable,
f_lze_si,
f_lze_so,
ex2_act_b,
f_eie_ex3_lzo_expo,
f_eie_ex3_b_expo,
f_eie_ex3_use_bexp,
f_pic_ex3_lzo_dis_prod,
f_pic_ex3_sp_lzo,
f_pic_ex3_est_recip,
f_pic_ex3_est_rsqrt,
f_fmt_ex3_pass_msb_dp,
f_pic_ex3_frsp_ue1,
f_alg_ex3_byp_nonflip,
f_pic_ex3_b_valid,
f_alg_ex3_sel_byp,
f_pic_ex3_to_integer,
f_pic_ex3_prenorm,
f_lze_ex3_lzo_din,
f_lze_ex4_sh_rgt_amt,
f_lze_ex4_sh_rgt_en
);
inout vdd;
inout gnd;
input clk;
input rst;
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input clkoff_b; // tiup
input act_dis; // ??tidn??
input flush; // ??tidn??
input [2:3] delay_lclkr; // tidn,
input [2:3] mpw1_b; // tidn,
input [0:0] mpw2_b; // tidn,
input sg_1;
input thold_1;
input fpu_enable; //dc_act
input f_lze_si; //perv
output f_lze_so; //perv
input ex2_act_b; //act
input [1:13] f_eie_ex3_lzo_expo;
input [1:13] f_eie_ex3_b_expo;
input f_eie_ex3_use_bexp;
input f_pic_ex3_lzo_dis_prod;
input f_pic_ex3_sp_lzo;
input f_pic_ex3_est_recip;
input f_pic_ex3_est_rsqrt;
input f_fmt_ex3_pass_msb_dp;
input f_pic_ex3_frsp_ue1;
input f_alg_ex3_byp_nonflip;
input f_pic_ex3_b_valid;
input f_alg_ex3_sel_byp;
input f_pic_ex3_to_integer;
input f_pic_ex3_prenorm;
output [0:162] f_lze_ex3_lzo_din;
output [0:7] f_lze_ex4_sh_rgt_amt;
output f_lze_ex4_sh_rgt_en;
// ENTITY
parameter tiup = 1'b1;
parameter tidn = 1'b0;
wire thold_0_b;
wire thold_0;
wire force_t;
wire sg_0;
wire ex2_act;
wire ex3_act;
(* analysis_not_referenced="TRUE" *) // spare_unused
wire [0:3] spare_unused;
wire ex3_dp_001_by;
wire ex3_sp_001_by;
wire ex3_addr_dp_by;
wire ex3_addr_sp_by;
wire ex3_en_addr_dp_by;
wire ex3_en_addr_sp_by;
wire ex3_lzo_en;
wire ex3_lzo_en_rapsp;
wire ex3_lzo_en_by;
wire ex3_expo_neg_dp_by;
wire ex3_expo_neg_sp_by;
wire ex3_expo_6_adj_by;
wire ex3_addr_dp;
wire ex3_addr_sp;
wire ex3_addr_sp_rap;
wire ex3_en_addr_dp;
wire ex3_en_addr_sp;
wire ex3_en_addr_sp_rap;
wire ex3_lzo_cont;
wire ex3_lzo_cont_dp;
wire ex3_lzo_cont_sp;
wire ex3_expo_neg_dp;
wire ex3_expo_neg_sp;
wire ex3_expo_6_adj;
wire ex3_ins_est;
wire ex3_sh_rgt_en_by;
wire ex3_sh_rgt_en_p;
wire ex3_sh_rgt_en;
wire ex3_lzo_forbyp_0;
wire ex3_lzo_nonbyp_0;
wire ex4_sh_rgt_en;
wire [1:13] ex3_expo_by;
wire [0:0] ex3_lzo_dcd_hi_by;
wire [0:0] ex3_lzo_dcd_lo_by;
wire [1:13] ex3_expo;
wire [0:10] ex3_lzo_dcd_hi;
wire [0:15] ex3_lzo_dcd_lo;
wire [8:13] ex3_expo_p_sim_p;
wire [9:13] ex3_expo_p_sim_g;
wire [8:13] ex3_expo_p_sim;
wire [8:13] ex3_expo_sim_p;
wire [9:13] ex3_expo_sim_g;
wire [8:13] ex3_expo_sim;
wire [0:7] ex3_sh_rgt_amt;
wire [0:8] ex4_shr_so;
wire [0:8] ex4_shr_si;
wire [0:4] act_so;
wire [0:4] act_si;
wire [0:7] ex4_sh_rgt_amt;
wire ex3_lzo_dcd_0;
wire [0:162] ex3_lzo_dcd_b;
(* analysis_not_referenced="TRUE" *) // unused
wire unused;
wire f_alg_ex3_sel_byp_b;
wire ex3_lzo_nonbyp_0_b;
wire ex3_lzo_forbyp_0_b;
//-=###############################################################
//-= map block attributes
//-=###############################################################
assign unused = ex3_lzo_dcd_b[0];
//-=###############################################################
//-= pervasive
//-=###############################################################
tri_plat thold_reg_0(
.vd(vdd),
.gd(gnd),
.clk(clk),
.rst(rst),
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.flush(flush),
.din(thold_1),
.q(thold_0)
);
tri_plat sg_reg_0(
.vd(vdd),
.gd(gnd),
.clk(clk),
.rst(rst),
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.flush(flush),
.din(sg_1),
.q(sg_0)
);
tri_lcbor lcbor_0(
.clkoff_b(clkoff_b),
.thold(thold_0),
.sg(sg_0),
.act_dis(act_dis),
.force_t(force_t),
.thold_b(thold_0_b)
);
//-=###############################################################
//-= act
//-=###############################################################
assign ex2_act = (~ex2_act_b);
tri_rlmreg_p #(.WIDTH(5), .NEEDS_SRESET(0)) act_lat(
.force_t(force_t), // tidn,
.d_mode(tiup),
.delay_lclkr(delay_lclkr[2]), // tidn,
.mpw1_b(mpw1_b[2]), // tidn,
.mpw2_b(mpw2_b[0]), // tidn,
.vd(vdd),
.gd(gnd),
.clk(clk),
.rst(rst),
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.act(fpu_enable),
.thold_b(thold_0_b),
.sg(sg_0),
.scout(act_so),
.scin(act_si),
//-----------------
.din({ spare_unused[0],
spare_unused[1],
ex2_act,
spare_unused[2],
spare_unused[3]}),
//-----------------
.dout({ spare_unused[0],
spare_unused[1],
ex3_act,
spare_unused[2],
spare_unused[3]})
);
//-=###############################################################
//-= ex3 logic
//-=###############################################################
assign ex3_dp_001_by = (~ex3_expo_by[1]) & (~ex3_expo_by[2]) & (~ex3_expo_by[3]) & (~ex3_expo_by[4]) & (~ex3_expo_by[5]) & (~ex3_expo_by[6]) & (~ex3_expo_by[7]) & (~ex3_expo_by[8]) & (~ex3_expo_by[9]) & (~ex3_expo_by[10]) & (~ex3_expo_by[11]) & (~ex3_expo_by[12]) & ex3_expo_by[13]; //x001
assign ex3_sp_001_by = (~ex3_expo_by[1]) & (~ex3_expo_by[2]) & (~ex3_expo_by[3]) & ex3_expo_by[4] & ex3_expo_by[5] & ex3_expo_by[6] & (~ex3_expo_by[7]) & (~ex3_expo_by[8]) & (~ex3_expo_by[9]) & (~ex3_expo_by[10]) & (~ex3_expo_by[11]) & (~ex3_expo_by[12]) & ex3_expo_by[13]; //x381
//----------------------------------------------------------------
// lzo dcd when B = denorm.
// sp denorm in dp_format may need to denormalize.
// sp is bypassed at [26] so there is room to do this on the left
//----------------------------------------------------------------
// if B is normalized when bypassed, then no need for denorm because it will not shift left ?
// for EffSub, b MSB can move right 1 position ... only if BFrac = 0000111111,can't if bypass norm
// If B==0 then should NOT bypass ... except for Move instructions.
assign ex3_expo_by[1:13] = f_eie_ex3_b_expo[1:13];
//=#------------------------------------------------
//=#-- LZO Decode
//=#------------------------------------------------
// the product exponent points at [0] in the dataflow.
// the lzo puts a marker (false edge) at the point where shifting must stop
// so the lza will not create a denormal exponent. (001/897) dp/sp.
// if p_expo==1 then maker @ 0
// if p_expo==2 then maker @ 1
// if p_expo==3 then maker @ 2
//
// false edges are also used to control shifting for to-integer, aligner-bypass
assign ex3_addr_dp_by = (~ex3_expo_by[1]) & (~ex3_expo_by[2]) & (~ex3_expo_by[3]) & (~ex3_expo_by[4]) & (~ex3_expo_by[5]); // x001 (1) in bits above decode 256
assign ex3_addr_sp_by = (~ex3_expo_by[1]) & (~ex3_expo_by[2]) & (~ex3_expo_by[3]) & ex3_expo_by[4] & ex3_expo_by[5]; // x381 (897) in bits above decode 256
assign ex3_en_addr_dp_by = ex3_addr_dp_by & ex3_lzo_cont_dp;
assign ex3_en_addr_sp_by = ex3_addr_sp_by & ex3_lzo_cont_sp;
// want to avoid shift right for sp op with shOv of sp_den in dp format
// sp is bypassed 26 positions to the left , mark with LZO to create the denorm.
assign ex3_lzo_en_by = (ex3_en_addr_dp_by | ex3_en_addr_sp_by) & ex3_lzo_cont;
//decode 0
assign ex3_expo_neg_dp_by = (ex3_lzo_en_by & ex3_lzo_dcd_hi_by[0] & ex3_lzo_dcd_lo_by[0]) | (ex3_expo_by[1]); //negative exponent
// dp denorm starts at 0, but sp denorm starts at 896 (x380)
// sp addr 0_0011_xxxx_xxxx covers 0768-1023 <and with decode bits>
// 0_000x_xxxx_xxxx covers 0000,0001
// 0_00x0_xxxx_xxxx covers 0000,0010
assign ex3_expo_neg_sp_by = (ex3_expo_by[1]) | ((~ex3_expo_by[2]) & (~ex3_expo_by[3]) & (~ex3_expo_by[4])) | ((~ex3_expo_by[2]) & (~ex3_expo_by[3]) & (~ex3_expo_by[5])) | ((~ex3_expo_by[2]) & (~ex3_expo_by[3]) & (~ex3_expo_by[6])) | ((~ex3_expo_by[2]) & (~ex3_expo_by[3]) & ex3_expo_by[4] & ex3_expo_by[5] & ex3_expo_by[6] & (~(ex3_expo_by[7] | ex3_expo_by[8] | ex3_expo_by[9] | ex3_expo_by[10] | ex3_expo_by[11] | ex3_expo_by[12] | ex3_expo_by[13]))); // negative
assign ex3_expo_6_adj_by = ((~ex3_expo_by[6]) & f_pic_ex3_sp_lzo) | (ex3_expo_by[6] & (~f_pic_ex3_sp_lzo));
assign ex3_lzo_dcd_0 = ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[1];
assign ex3_lzo_dcd_hi_by[0] = (~ex3_expo_6_adj_by) & (~ex3_expo_by[7]) & (~ex3_expo_by[8]) & (~ex3_expo_by[9]) & ex3_lzo_en_by;
assign ex3_lzo_dcd_lo_by[0] = (~ex3_expo_by[10]) & (~ex3_expo_by[11]) & (~ex3_expo_by[12]) & (~ex3_expo_by[13]);
//=#------------------------------------------------
//=#-- LZO Decode
//=#------------------------------------------------
// the product exponent points at [0] in the dataflow.
// the lzo puts a marker (false edge) at the point where shifting must stop
// so the lza will not create a denormal exponent. (001/897) dp/sp.
// if p_expo==1 then maker @ 0
// if p_expo==2 then maker @ 1
// if p_expo==3 then maker @ 2
//
// false edges are also used to control shifting for to-integer, aligner-bypass
assign ex3_expo[1:13] = f_eie_ex3_lzo_expo[1:13];
assign ex3_addr_dp = (~ex3_expo[1]) & (~ex3_expo[2]) & (~ex3_expo[3]) & (~ex3_expo[4]) & (~ex3_expo[5]); // x001 (1) in bits above decode 256
assign ex3_addr_sp = (~ex3_expo[1]) & (~ex3_expo[2]) & (~ex3_expo[3]) & ex3_expo[4] & ex3_expo[5]; // x381 (897) in bits above decode 256
assign ex3_addr_sp_rap = (~ex3_expo[1]) & (~ex3_expo[2]) & ex3_expo[3] & (~ex3_expo[4]) & (~ex3_expo[5]); // x381 (897) in bits above decode 256
assign ex3_en_addr_dp = ex3_addr_dp & ex3_lzo_cont_dp;
assign ex3_en_addr_sp = ex3_addr_sp & ex3_lzo_cont_sp;
assign ex3_en_addr_sp_rap = ex3_addr_sp_rap & ex3_lzo_cont_sp;
assign ex3_lzo_cont = (~f_pic_ex3_lzo_dis_prod);
assign ex3_lzo_cont_dp = (~f_pic_ex3_lzo_dis_prod) & (~f_pic_ex3_sp_lzo);
assign ex3_lzo_cont_sp = (~f_pic_ex3_lzo_dis_prod) & f_pic_ex3_sp_lzo;
// want to avoid shift right for sp op with shOv of sp_den in dp format
// sp is bypassed 26 positions to the left , mark with LZO to create the denorm.
assign ex3_lzo_en = (ex3_en_addr_dp | ex3_en_addr_sp) & ex3_lzo_cont;
assign ex3_lzo_en_rapsp = (ex3_en_addr_dp | ex3_en_addr_sp_rap) & ex3_lzo_cont;
//decode 0
assign ex3_expo_neg_dp = (ex3_lzo_en & ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[0]) | (ex3_expo[1]); //negative exponent
// dp denorm starts at 0, but sp denorm starts at 896 (x380)
// sp addr 0_0011_xxxx_xxxx covers 0768-1023 <and with decode bits>
// 0_000x_xxxx_xxxx covers 0000,0001
// 0_00x0_xxxx_xxxx covers 0000,0010
assign ex3_expo_neg_sp = (ex3_expo[1]) | ((~ex3_expo[2]) & (~ex3_expo[3]) & (~ex3_expo[4])) | ((~ex3_expo[2]) & (~ex3_expo[3]) & (~ex3_expo[5])) | ((~ex3_expo[2]) & (~ex3_expo[3]) & (~ex3_expo[6])) | ((~ex3_expo[2]) & (~ex3_expo[3]) & ex3_expo[4] & ex3_expo[5] & ex3_expo[6] & (~(ex3_expo[7] | ex3_expo[8] | ex3_expo[9] | ex3_expo[10] | ex3_expo[11] | ex3_expo[12] | ex3_expo[13]))); // negative
assign ex3_expo_6_adj = ((~ex3_expo[6]) & f_pic_ex3_sp_lzo) | (ex3_expo[6] & (~f_pic_ex3_sp_lzo));
assign ex3_lzo_dcd_hi[0] = (~ex3_expo_6_adj) & (~ex3_expo[7]) & (~ex3_expo[8]) & (~ex3_expo[9]) & ex3_lzo_en;
assign ex3_lzo_dcd_hi[1] = (~ex3_expo_6_adj) & (~ex3_expo[7]) & (~ex3_expo[8]) & ex3_expo[9] & ex3_lzo_en;
assign ex3_lzo_dcd_hi[2] = (~ex3_expo_6_adj) & (~ex3_expo[7]) & ex3_expo[8] & (~ex3_expo[9]) & ex3_lzo_en;
assign ex3_lzo_dcd_hi[3] = (~ex3_expo_6_adj) & (~ex3_expo[7]) & ex3_expo[8] & ex3_expo[9] & ex3_lzo_en;
assign ex3_lzo_dcd_hi[4] = (~ex3_expo_6_adj) & ex3_expo[7] & (~ex3_expo[8]) & (~ex3_expo[9]) & ex3_lzo_en;
assign ex3_lzo_dcd_hi[5] = (~ex3_expo_6_adj) & ex3_expo[7] & (~ex3_expo[8]) & ex3_expo[9] & ex3_lzo_en;
assign ex3_lzo_dcd_hi[6] = (~ex3_expo_6_adj) & ex3_expo[7] & ex3_expo[8] & (~ex3_expo[9]) & ex3_lzo_en;
assign ex3_lzo_dcd_hi[7] = (~ex3_expo_6_adj) & ex3_expo[7] & ex3_expo[8] & ex3_expo[9] & ex3_lzo_en;
assign ex3_lzo_dcd_hi[8] = ex3_expo_6_adj & (~ex3_expo[7]) & (~ex3_expo[8]) & (~ex3_expo[9]) & ex3_lzo_en_rapsp;
assign ex3_lzo_dcd_hi[9] = ex3_expo_6_adj & (~ex3_expo[7]) & (~ex3_expo[8]) & ex3_expo[9] & ex3_lzo_en_rapsp;
assign ex3_lzo_dcd_hi[10] = ex3_expo_6_adj & (~ex3_expo[7]) & ex3_expo[8] & (~ex3_expo[9]) & ex3_lzo_en_rapsp;
assign ex3_lzo_dcd_lo[0] = (~ex3_expo[10]) & (~ex3_expo[11]) & (~ex3_expo[12]) & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[1] = (~ex3_expo[10]) & (~ex3_expo[11]) & (~ex3_expo[12]) & ex3_expo[13];
assign ex3_lzo_dcd_lo[2] = (~ex3_expo[10]) & (~ex3_expo[11]) & ex3_expo[12] & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[3] = (~ex3_expo[10]) & (~ex3_expo[11]) & ex3_expo[12] & ex3_expo[13];
assign ex3_lzo_dcd_lo[4] = (~ex3_expo[10]) & ex3_expo[11] & (~ex3_expo[12]) & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[5] = (~ex3_expo[10]) & ex3_expo[11] & (~ex3_expo[12]) & ex3_expo[13];
assign ex3_lzo_dcd_lo[6] = (~ex3_expo[10]) & ex3_expo[11] & ex3_expo[12] & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[7] = (~ex3_expo[10]) & ex3_expo[11] & ex3_expo[12] & ex3_expo[13];
assign ex3_lzo_dcd_lo[8] = ex3_expo[10] & (~ex3_expo[11]) & (~ex3_expo[12]) & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[9] = ex3_expo[10] & (~ex3_expo[11]) & (~ex3_expo[12]) & ex3_expo[13];
assign ex3_lzo_dcd_lo[10] = ex3_expo[10] & (~ex3_expo[11]) & ex3_expo[12] & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[11] = ex3_expo[10] & (~ex3_expo[11]) & ex3_expo[12] & ex3_expo[13];
assign ex3_lzo_dcd_lo[12] = ex3_expo[10] & ex3_expo[11] & (~ex3_expo[12]) & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[13] = ex3_expo[10] & ex3_expo[11] & (~ex3_expo[12]) & ex3_expo[13];
assign ex3_lzo_dcd_lo[14] = ex3_expo[10] & ex3_expo[11] & ex3_expo[12] & (~ex3_expo[13]);
assign ex3_lzo_dcd_lo[15] = ex3_expo[10] & ex3_expo[11] & ex3_expo[12] & ex3_expo[13];
assign ex3_lzo_dcd_b[0] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[1] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[2] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[3] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[4] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[5] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[6] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[7] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[8] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[9] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[10] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[11] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[12] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[13] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[14] = (~(ex3_lzo_dcd_hi[0] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[15] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[16] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[17] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[18] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[19] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[20] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[21] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[22] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[23] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[24] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[25] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[26] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[27] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[28] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[29] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[30] = (~(ex3_lzo_dcd_hi[1] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[31] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[32] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[33] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[34] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[35] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[36] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[37] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[38] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[39] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[40] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[41] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[42] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[43] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[44] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[45] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[46] = (~(ex3_lzo_dcd_hi[2] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[47] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[48] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[49] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[50] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[51] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[52] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[53] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[54] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[55] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[56] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[57] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[58] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[59] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[60] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[61] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[62] = (~(ex3_lzo_dcd_hi[3] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[63] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[64] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[65] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[66] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[67] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[68] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[69] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[70] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[71] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[72] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[73] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[74] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[75] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[76] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[77] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[78] = (~(ex3_lzo_dcd_hi[4] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[79] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[80] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[81] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[82] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[83] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[84] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[85] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[86] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[87] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[88] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[89] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[90] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[91] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[92] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[93] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[94] = (~(ex3_lzo_dcd_hi[5] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[95] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[96] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[97] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[98] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[99] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[100] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[101] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[102] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[103] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[104] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[105] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[106] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[107] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[108] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[109] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[110] = (~(ex3_lzo_dcd_hi[6] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[111] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[112] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[113] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[114] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[115] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[116] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[117] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[118] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[119] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[120] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[121] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[122] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[123] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[124] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[125] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[126] = (~(ex3_lzo_dcd_hi[7] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[127] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[128] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[129] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[130] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[131] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[132] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[133] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[134] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[135] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[136] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[137] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[138] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[139] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[140] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[141] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[142] = (~(ex3_lzo_dcd_hi[8] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[143] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[144] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[145] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[146] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[3]));
assign ex3_lzo_dcd_b[147] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[4]));
assign ex3_lzo_dcd_b[148] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[5]));
assign ex3_lzo_dcd_b[149] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[6]));
assign ex3_lzo_dcd_b[150] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[7]));
assign ex3_lzo_dcd_b[151] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[8]));
assign ex3_lzo_dcd_b[152] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[9]));
assign ex3_lzo_dcd_b[153] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[10]));
assign ex3_lzo_dcd_b[154] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[11]));
assign ex3_lzo_dcd_b[155] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[12]));
assign ex3_lzo_dcd_b[156] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[13]));
assign ex3_lzo_dcd_b[157] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[14]));
assign ex3_lzo_dcd_b[158] = (~(ex3_lzo_dcd_hi[9] & ex3_lzo_dcd_lo[15]));
assign ex3_lzo_dcd_b[159] = (~(ex3_lzo_dcd_hi[10] & ex3_lzo_dcd_lo[0]));
assign ex3_lzo_dcd_b[160] = (~(ex3_lzo_dcd_hi[10] & ex3_lzo_dcd_lo[1]));
assign ex3_lzo_dcd_b[161] = (~(ex3_lzo_dcd_hi[10] & ex3_lzo_dcd_lo[2]));
assign ex3_lzo_dcd_b[162] = (~(ex3_lzo_dcd_hi[10] & ex3_lzo_dcd_lo[3]));
//-----------------------------------------
assign f_alg_ex3_sel_byp_b = (~(f_alg_ex3_sel_byp));
assign ex3_lzo_nonbyp_0_b = (~(ex3_lzo_nonbyp_0));
assign ex3_lzo_forbyp_0_b = (~(ex3_lzo_forbyp_0));
assign f_lze_ex3_lzo_din[0] = (~((f_alg_ex3_sel_byp | ex3_lzo_nonbyp_0_b) & (f_alg_ex3_sel_byp_b | ex3_lzo_forbyp_0_b))); // neg input and/or
assign f_lze_ex3_lzo_din[1] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[1])); // neg input and --
assign f_lze_ex3_lzo_din[2] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[2])); // neg input and --
assign f_lze_ex3_lzo_din[3] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[3])); // neg input and --
assign f_lze_ex3_lzo_din[4] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[4])); // neg input and --
assign f_lze_ex3_lzo_din[5] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[5])); // neg input and --
assign f_lze_ex3_lzo_din[6] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[6])); // neg input and --
assign f_lze_ex3_lzo_din[7] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[7])); // neg input and --
assign f_lze_ex3_lzo_din[8] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[8])); // neg input and --
assign f_lze_ex3_lzo_din[9] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[9])); // neg input and --
assign f_lze_ex3_lzo_din[10] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[10])); // neg input and --
assign f_lze_ex3_lzo_din[11] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[11])); // neg input and --
assign f_lze_ex3_lzo_din[12] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[12])); // neg input and --
assign f_lze_ex3_lzo_din[13] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[13])); // neg input and --
assign f_lze_ex3_lzo_din[14] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[14])); // neg input and --
assign f_lze_ex3_lzo_din[15] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[15])); // neg input and --
assign f_lze_ex3_lzo_din[16] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[16])); // neg input and --
assign f_lze_ex3_lzo_din[17] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[17])); // neg input and --
assign f_lze_ex3_lzo_din[18] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[18])); // neg input and --
assign f_lze_ex3_lzo_din[19] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[19])); // neg input and --
assign f_lze_ex3_lzo_din[20] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[20])); // neg input and --
assign f_lze_ex3_lzo_din[21] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[21])); // neg input and --
assign f_lze_ex3_lzo_din[22] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[22])); // neg input and --
assign f_lze_ex3_lzo_din[23] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[23])); // neg input and --
assign f_lze_ex3_lzo_din[24] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[24])); // neg input and --
assign f_lze_ex3_lzo_din[25] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[25])); // neg input and --
assign f_lze_ex3_lzo_din[26] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[26])); // neg input and --
assign f_lze_ex3_lzo_din[27] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[27])); // neg input and --
assign f_lze_ex3_lzo_din[28] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[28])); // neg input and --
assign f_lze_ex3_lzo_din[29] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[29])); // neg input and --
assign f_lze_ex3_lzo_din[30] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[30])); // neg input and --
assign f_lze_ex3_lzo_din[31] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[31])); // neg input and --
assign f_lze_ex3_lzo_din[32] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[32])); // neg input and --
assign f_lze_ex3_lzo_din[33] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[33])); // neg input and --
assign f_lze_ex3_lzo_din[34] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[34])); // neg input and --
assign f_lze_ex3_lzo_din[35] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[35])); // neg input and --
assign f_lze_ex3_lzo_din[36] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[36])); // neg input and --
assign f_lze_ex3_lzo_din[37] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[37])); // neg input and --
assign f_lze_ex3_lzo_din[38] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[38])); // neg input and --
assign f_lze_ex3_lzo_din[39] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[39])); // neg input and --
assign f_lze_ex3_lzo_din[40] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[40])); // neg input and --
assign f_lze_ex3_lzo_din[41] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[41])); // neg input and --
assign f_lze_ex3_lzo_din[42] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[42])); // neg input and --
assign f_lze_ex3_lzo_din[43] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[43])); // neg input and --
assign f_lze_ex3_lzo_din[44] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[44])); // neg input and --
assign f_lze_ex3_lzo_din[45] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[45])); // neg input and --
assign f_lze_ex3_lzo_din[46] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[46])); // neg input and --
assign f_lze_ex3_lzo_din[47] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[47])); // neg input and --
assign f_lze_ex3_lzo_din[48] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[48])); // neg input and --
assign f_lze_ex3_lzo_din[49] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[49])); // neg input and --
assign f_lze_ex3_lzo_din[50] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[50])); // neg input and --
assign f_lze_ex3_lzo_din[51] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[51])); // neg input and --
assign f_lze_ex3_lzo_din[52] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[52])); // neg input and --
assign f_lze_ex3_lzo_din[53] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[53])); // neg input and --
assign f_lze_ex3_lzo_din[54] = (~(f_alg_ex3_sel_byp | ex3_lzo_dcd_b[54])); // neg input and --
assign f_lze_ex3_lzo_din[55] = (~ex3_lzo_dcd_b[55]);
assign f_lze_ex3_lzo_din[56] = (~ex3_lzo_dcd_b[56]);
assign f_lze_ex3_lzo_din[57] = (~ex3_lzo_dcd_b[57]);
assign f_lze_ex3_lzo_din[58] = (~ex3_lzo_dcd_b[58]);
assign f_lze_ex3_lzo_din[59] = (~ex3_lzo_dcd_b[59]);
assign f_lze_ex3_lzo_din[60] = (~ex3_lzo_dcd_b[60]);
assign f_lze_ex3_lzo_din[61] = (~ex3_lzo_dcd_b[61]);
assign f_lze_ex3_lzo_din[62] = (~ex3_lzo_dcd_b[62]);
assign f_lze_ex3_lzo_din[63] = (~ex3_lzo_dcd_b[63]);
assign f_lze_ex3_lzo_din[64] = (~ex3_lzo_dcd_b[64]);
assign f_lze_ex3_lzo_din[65] = (~ex3_lzo_dcd_b[65]);
assign f_lze_ex3_lzo_din[66] = (~ex3_lzo_dcd_b[66]);
assign f_lze_ex3_lzo_din[67] = (~ex3_lzo_dcd_b[67]);
assign f_lze_ex3_lzo_din[68] = (~ex3_lzo_dcd_b[68]);
assign f_lze_ex3_lzo_din[69] = (~ex3_lzo_dcd_b[69]);
assign f_lze_ex3_lzo_din[70] = (~ex3_lzo_dcd_b[70]);
assign f_lze_ex3_lzo_din[71] = (~ex3_lzo_dcd_b[71]);
assign f_lze_ex3_lzo_din[72] = (~ex3_lzo_dcd_b[72]);
assign f_lze_ex3_lzo_din[73] = (~ex3_lzo_dcd_b[73]);
assign f_lze_ex3_lzo_din[74] = (~ex3_lzo_dcd_b[74]);
assign f_lze_ex3_lzo_din[75] = (~ex3_lzo_dcd_b[75]);
assign f_lze_ex3_lzo_din[76] = (~ex3_lzo_dcd_b[76]);
assign f_lze_ex3_lzo_din[77] = (~ex3_lzo_dcd_b[77]);
assign f_lze_ex3_lzo_din[78] = (~ex3_lzo_dcd_b[78]);
assign f_lze_ex3_lzo_din[79] = (~ex3_lzo_dcd_b[79]);
assign f_lze_ex3_lzo_din[80] = (~ex3_lzo_dcd_b[80]);
assign f_lze_ex3_lzo_din[81] = (~ex3_lzo_dcd_b[81]);
assign f_lze_ex3_lzo_din[82] = (~ex3_lzo_dcd_b[82]);
assign f_lze_ex3_lzo_din[83] = (~ex3_lzo_dcd_b[83]);
assign f_lze_ex3_lzo_din[84] = (~ex3_lzo_dcd_b[84]);
assign f_lze_ex3_lzo_din[85] = (~ex3_lzo_dcd_b[85]);
assign f_lze_ex3_lzo_din[86] = (~ex3_lzo_dcd_b[86]);
assign f_lze_ex3_lzo_din[87] = (~ex3_lzo_dcd_b[87]);
assign f_lze_ex3_lzo_din[88] = (~ex3_lzo_dcd_b[88]);
assign f_lze_ex3_lzo_din[89] = (~ex3_lzo_dcd_b[89]);
assign f_lze_ex3_lzo_din[90] = (~ex3_lzo_dcd_b[90]);
assign f_lze_ex3_lzo_din[91] = (~ex3_lzo_dcd_b[91]);
assign f_lze_ex3_lzo_din[92] = (~ex3_lzo_dcd_b[92]);
assign f_lze_ex3_lzo_din[93] = (~ex3_lzo_dcd_b[93]);
assign f_lze_ex3_lzo_din[94] = (~ex3_lzo_dcd_b[94]);
assign f_lze_ex3_lzo_din[95] = (~ex3_lzo_dcd_b[95]);
assign f_lze_ex3_lzo_din[96] = (~ex3_lzo_dcd_b[96]);
assign f_lze_ex3_lzo_din[97] = (~ex3_lzo_dcd_b[97]);
assign f_lze_ex3_lzo_din[98] = (~ex3_lzo_dcd_b[98]);
assign f_lze_ex3_lzo_din[99] = (~(ex3_lzo_dcd_b[99] & (~f_pic_ex3_to_integer)));
assign f_lze_ex3_lzo_din[100] = (~ex3_lzo_dcd_b[100]);
assign f_lze_ex3_lzo_din[101] = (~ex3_lzo_dcd_b[101]);
assign f_lze_ex3_lzo_din[102] = (~ex3_lzo_dcd_b[102]);
assign f_lze_ex3_lzo_din[103] = (~ex3_lzo_dcd_b[103]);
assign f_lze_ex3_lzo_din[104] = (~ex3_lzo_dcd_b[104]);
assign f_lze_ex3_lzo_din[105] = (~ex3_lzo_dcd_b[105]);
assign f_lze_ex3_lzo_din[106] = (~ex3_lzo_dcd_b[106]);
assign f_lze_ex3_lzo_din[107] = (~ex3_lzo_dcd_b[107]);
assign f_lze_ex3_lzo_din[108] = (~ex3_lzo_dcd_b[108]);
assign f_lze_ex3_lzo_din[109] = (~ex3_lzo_dcd_b[109]);
assign f_lze_ex3_lzo_din[110] = (~ex3_lzo_dcd_b[110]);
assign f_lze_ex3_lzo_din[111] = (~ex3_lzo_dcd_b[111]);
assign f_lze_ex3_lzo_din[112] = (~ex3_lzo_dcd_b[112]);
assign f_lze_ex3_lzo_din[113] = (~ex3_lzo_dcd_b[113]);
assign f_lze_ex3_lzo_din[114] = (~ex3_lzo_dcd_b[114]);
assign f_lze_ex3_lzo_din[115] = (~ex3_lzo_dcd_b[115]);
assign f_lze_ex3_lzo_din[116] = (~ex3_lzo_dcd_b[116]);
assign f_lze_ex3_lzo_din[117] = (~ex3_lzo_dcd_b[117]);
assign f_lze_ex3_lzo_din[118] = (~ex3_lzo_dcd_b[118]);
assign f_lze_ex3_lzo_din[119] = (~ex3_lzo_dcd_b[119]);
assign f_lze_ex3_lzo_din[120] = (~ex3_lzo_dcd_b[120]);
assign f_lze_ex3_lzo_din[121] = (~ex3_lzo_dcd_b[121]);
assign f_lze_ex3_lzo_din[122] = (~ex3_lzo_dcd_b[122]);
assign f_lze_ex3_lzo_din[123] = (~ex3_lzo_dcd_b[123]);
assign f_lze_ex3_lzo_din[124] = (~ex3_lzo_dcd_b[124]);
assign f_lze_ex3_lzo_din[125] = (~ex3_lzo_dcd_b[125]);
assign f_lze_ex3_lzo_din[126] = (~ex3_lzo_dcd_b[126]);
assign f_lze_ex3_lzo_din[127] = (~ex3_lzo_dcd_b[127]);
assign f_lze_ex3_lzo_din[128] = (~ex3_lzo_dcd_b[128]);
assign f_lze_ex3_lzo_din[129] = (~ex3_lzo_dcd_b[129]);
assign f_lze_ex3_lzo_din[130] = (~ex3_lzo_dcd_b[130]);
assign f_lze_ex3_lzo_din[131] = (~ex3_lzo_dcd_b[131]);
assign f_lze_ex3_lzo_din[132] = (~ex3_lzo_dcd_b[132]);
assign f_lze_ex3_lzo_din[133] = (~ex3_lzo_dcd_b[133]);
assign f_lze_ex3_lzo_din[134] = (~ex3_lzo_dcd_b[134]);
assign f_lze_ex3_lzo_din[135] = (~ex3_lzo_dcd_b[135]);
assign f_lze_ex3_lzo_din[136] = (~ex3_lzo_dcd_b[136]);
assign f_lze_ex3_lzo_din[137] = (~ex3_lzo_dcd_b[137]);
assign f_lze_ex3_lzo_din[138] = (~ex3_lzo_dcd_b[138]);
assign f_lze_ex3_lzo_din[139] = (~ex3_lzo_dcd_b[139]);
assign f_lze_ex3_lzo_din[140] = (~ex3_lzo_dcd_b[140]);
assign f_lze_ex3_lzo_din[141] = (~ex3_lzo_dcd_b[141]);
assign f_lze_ex3_lzo_din[142] = (~ex3_lzo_dcd_b[142]);
assign f_lze_ex3_lzo_din[143] = (~ex3_lzo_dcd_b[143]);
assign f_lze_ex3_lzo_din[144] = (~ex3_lzo_dcd_b[144]);
assign f_lze_ex3_lzo_din[145] = (~ex3_lzo_dcd_b[145]);
assign f_lze_ex3_lzo_din[146] = (~ex3_lzo_dcd_b[146]);
assign f_lze_ex3_lzo_din[147] = (~ex3_lzo_dcd_b[147]);
assign f_lze_ex3_lzo_din[148] = (~ex3_lzo_dcd_b[148]);
assign f_lze_ex3_lzo_din[149] = (~ex3_lzo_dcd_b[149]);
assign f_lze_ex3_lzo_din[150] = (~ex3_lzo_dcd_b[150]);
assign f_lze_ex3_lzo_din[151] = (~ex3_lzo_dcd_b[151]);
assign f_lze_ex3_lzo_din[152] = (~ex3_lzo_dcd_b[152]);
assign f_lze_ex3_lzo_din[153] = (~ex3_lzo_dcd_b[153]);
assign f_lze_ex3_lzo_din[154] = (~ex3_lzo_dcd_b[154]);
assign f_lze_ex3_lzo_din[155] = (~ex3_lzo_dcd_b[155]);
assign f_lze_ex3_lzo_din[156] = (~ex3_lzo_dcd_b[156]);
assign f_lze_ex3_lzo_din[157] = (~ex3_lzo_dcd_b[157]);
assign f_lze_ex3_lzo_din[158] = (~ex3_lzo_dcd_b[158]);
assign f_lze_ex3_lzo_din[159] = (~ex3_lzo_dcd_b[159]);
assign f_lze_ex3_lzo_din[160] = (~ex3_lzo_dcd_b[160]);
assign f_lze_ex3_lzo_din[161] = (~ex3_lzo_dcd_b[161]);
assign f_lze_ex3_lzo_din[162] = (~ex3_lzo_dcd_b[162]);
////##------------------------------------------
////## shift right stuff ... some could be in cycle 3
////##------------------------------------------
// enable shift right when bypassing a denormal B operand (and NOT ue=1 or PRRENORM)
assign ex3_ins_est = f_pic_ex3_est_recip | f_pic_ex3_est_rsqrt;
assign ex3_sh_rgt_en_by = (f_eie_ex3_use_bexp & ex3_expo_neg_sp_by & ex3_lzo_cont_sp & (~f_alg_ex3_byp_nonflip) & (~ex3_ins_est)) | (f_eie_ex3_use_bexp & ex3_expo_neg_dp_by & ex3_lzo_cont_dp & (~f_alg_ex3_byp_nonflip) & (~ex3_ins_est)); // set LZO[0] so can just OR into result
assign ex3_sh_rgt_en_p = ((~f_eie_ex3_use_bexp) & ex3_expo_neg_sp & ex3_lzo_cont_sp & (~f_alg_ex3_byp_nonflip)) | ((~f_eie_ex3_use_bexp) & ex3_expo_neg_dp & ex3_lzo_cont_dp & (~f_alg_ex3_byp_nonflip)); // set LZO[0] so can just OR into result
assign ex3_sh_rgt_en = ex3_sh_rgt_en_by | ex3_sh_rgt_en_p;
////----------------------------------------------------------------------------------------------
//// you might be thinking that the shift right amount needs a limiter (so that amounts > 64
//// do not wrap a round and leave bits in the result when the result should be zero).
//// (1) if the shift amount belongs to the "B" operand, (bypass) and since we only shift right
//// when B is a denorm (it has a bit on) then the maximum shift right is (52) because
//// the smallest b exponent (expo min) after prenorm is -52.
//// there is the possibility that a divide could create an artificially small Bexpo.
//// if that is true the shift right amount should be zero (right 64 followed by left 0).
//// (2) otherwise the right shift amount comes from the product exponent.
//// the product exponent could be very small, however for a multiply add if it becomes
//// too small then the exponent will come from the addend, so no problem.
//// a multiply instruction does not have an addend, and it could have a very small exponent.
//// BUT, the lead bit is at [55] and even if the shift right goes right 64 followed by left 64,
//// it will not but a bit into the result or guard fields.
////-----------------------------------------------------------------------------------------------
// calculate shift right amount (DP) ... expo must be correct value to subtract in expo logic
// decode = 0 shift right 1 -(-1) for expo 0_0000_0000_0000 -> 1_1111_1111_1111 -x = !x + 1, !x = -x - 1
// decode = -1 shift right 2 -(-2) for expo 0_0000_0000_0001 -> 1_1111_1111_1110
// decode = -2 shift right 3 -(-3) for expo 0_0000_0000_0010 -> 1_1111_1111_1101
//
// max = -53 0_0000_0011_0101 -> 1_1111_1100_1010
// * **** **dd_dddd
// calculate shift right amount (SP)
// decode = x380 shift right 1 -(-1) for expo 0_0011_1000_0000 -> 1_1100_0111_1111 -x = !x + 1, !x = -x - 1
// decode = x37F shift right 2 -(-2) for expo 0_0011_1000_0001 -> 1_1100_0111_1110
// decode = x37E shift right 3 -(-3) for expo 0_0011_1000_0010 -> 1_1100_0111_1101
// * **** **dd_dddd
// expo = Bexpo - lza
// Bexpo + (!lza) ... lza is usually sign extended and inverted to make a negative number,
// Bexpo must be added to in denorm cases
// Make lza a negative number, so that when it is flipped it becomes a positive number.
//
// expo_adj
// expo = x380 896 0_0011_1000_0000 1 -( 1) 1111_1111
// expo = x37f 895 0_0011_0111_1111 2 -( 2) 1111_1110
// expo = x37e 894 0_0011_0111_1110 3 1111_1101
// expo = x37d 893 0_0011_0111_1101 4 1111_1100
// expo = x37c 892 0_0011_0111_1100 5
// expo = x37b 891 0_0011_0111_1011 6
// expo = x37a 890 0_0011_0111_1010 7
// expo = x379 889 0_0011_0111_1001 8
// expo = x378 888 0_0011_0111_1000 9
// expo = x377 887 0_0011_0111_0111 10
// expo = x376 886 0_0011_0111_0110 11
// expo = x375 885 0_0011_0111_0101 12
// expo = x374 884 0_0011_0111_0100 13
// expo = x373 883 0_0011_0111_0011 14
// expo = x372 882 0_0011_0111_0010 15
// expo = x371 881 0_0011_0111_0001 16
// expo = x370 880 0_0011_0111_0000 17
// expo = x36f 879 0_0011_0110_1111 18
// expo = x36e 878 0_0011_0110_1110 19
// expo = x36d 877 0_0011_0110_1101 20
// expo = x36c 876 0_0011_0110_1100 21
// expo = x36b 875 0_0011_0110_1011 22
// expo = x36a 874 0_0011_0110_1010 23 -(23) 1110_1001
//-----------------------------
// expo = x369 873 0_0011_0110_1001 24 -(24) 1110_1000
// if p_exp an be more neg then -63 , then this needs to be detected and shAmt forced to a const.
assign ex3_expo_p_sim_p[8:13] = (~ex3_expo[8:13]);
assign ex3_expo_p_sim_g[13] = ex3_expo[13];
assign ex3_expo_p_sim_g[12] = ex3_expo[13] | ex3_expo[12];
assign ex3_expo_p_sim_g[11] = ex3_expo[13] | ex3_expo[12] | ex3_expo[11];
assign ex3_expo_p_sim_g[10] = ex3_expo[13] | ex3_expo[12] | ex3_expo[11] | ex3_expo[10];
assign ex3_expo_p_sim_g[9] = ex3_expo[13] | ex3_expo[12] | ex3_expo[11] | ex3_expo[10] | ex3_expo[9];
assign ex3_expo_p_sim[13] = ex3_expo_p_sim_p[13];
assign ex3_expo_p_sim[12] = ex3_expo_p_sim_p[12] ^ (ex3_expo_p_sim_g[13]);
assign ex3_expo_p_sim[11] = ex3_expo_p_sim_p[11] ^ (ex3_expo_p_sim_g[12]);
assign ex3_expo_p_sim[10] = ex3_expo_p_sim_p[10] ^ (ex3_expo_p_sim_g[11]);
assign ex3_expo_p_sim[9] = ex3_expo_p_sim_p[9] ^ (ex3_expo_p_sim_g[10]);
assign ex3_expo_p_sim[8] = ex3_expo_p_sim_p[8] ^ (ex3_expo_p_sim_g[9]);
assign ex3_expo_sim_p[8:13] = (~ex3_expo_by[8:13]);
assign ex3_expo_sim_g[13] = ex3_expo_by[13];
assign ex3_expo_sim_g[12] = ex3_expo_by[13] | ex3_expo_by[12];
assign ex3_expo_sim_g[11] = ex3_expo_by[13] | ex3_expo_by[12] | ex3_expo_by[11];
assign ex3_expo_sim_g[10] = ex3_expo_by[13] | ex3_expo_by[12] | ex3_expo_by[11] | ex3_expo_by[10];
assign ex3_expo_sim_g[9] = ex3_expo_by[13] | ex3_expo_by[12] | ex3_expo_by[11] | ex3_expo_by[10] | ex3_expo_by[9];
assign ex3_expo_sim[13] = ex3_expo_sim_p[13];
assign ex3_expo_sim[12] = ex3_expo_sim_p[12] ^ (ex3_expo_sim_g[13]);
assign ex3_expo_sim[11] = ex3_expo_sim_p[11] ^ (ex3_expo_sim_g[12]);
assign ex3_expo_sim[10] = ex3_expo_sim_p[10] ^ (ex3_expo_sim_g[11]);
assign ex3_expo_sim[9] = ex3_expo_sim_p[9] ^ (ex3_expo_sim_g[10]);
assign ex3_expo_sim[8] = ex3_expo_sim_p[8] ^ (ex3_expo_sim_g[9]);
// testing a new (simpler) version -------------
// could include these in lzo dis
// could include these in lzo_dis
assign ex3_lzo_forbyp_0 = (f_pic_ex3_est_recip) | (f_pic_ex3_est_rsqrt) | (f_alg_ex3_byp_nonflip & (~f_pic_ex3_prenorm)) | ((~f_fmt_ex3_pass_msb_dp) & (~f_pic_ex3_lzo_dis_prod)) | ((ex3_expo_neg_dp_by | ex3_dp_001_by) & ex3_lzo_cont_dp) | ((ex3_expo_neg_sp_by | ex3_sp_001_by) & ex3_lzo_cont_sp); // allow norm to decr MSB then renormalize
assign ex3_lzo_nonbyp_0 = (ex3_lzo_dcd_0) | (ex3_expo_neg_dp & ex3_lzo_cont_dp) | (ex3_expo_neg_sp & ex3_lzo_cont_sp) | (f_pic_ex3_est_recip) | (f_pic_ex3_est_rsqrt);
assign ex3_sh_rgt_amt[0] = ex3_sh_rgt_en; // huge shift right should give "0"
assign ex3_sh_rgt_amt[1] = ex3_sh_rgt_en; // huge shift right should give "0"
assign ex3_sh_rgt_amt[2] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[8]) | (ex3_sh_rgt_en_by & ex3_expo_sim[8]);
assign ex3_sh_rgt_amt[3] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[9]) | (ex3_sh_rgt_en_by & ex3_expo_sim[9]);
assign ex3_sh_rgt_amt[4] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[10]) | (ex3_sh_rgt_en_by & ex3_expo_sim[10]);
assign ex3_sh_rgt_amt[5] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[11]) | (ex3_sh_rgt_en_by & ex3_expo_sim[11]);
assign ex3_sh_rgt_amt[6] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[12]) | (ex3_sh_rgt_en_by & ex3_expo_sim[12]);
assign ex3_sh_rgt_amt[7] = (ex3_sh_rgt_en_p & ex3_expo_p_sim[13]) | (ex3_sh_rgt_en_by & ex3_expo_sim[13]);
// bit_to_set |------ b_expo ----------|
// 0 897 x381 0_0011_1000_0001 <== all normal SP numbers go here
// 1 896 x380 0_0011_1000_0000
// 2 895 x37f 0_0011_0111_1111
// 3 894 x37e 0_0011_0111_1110
// 4 893 x37d 0_0011_0111_1101
// 5 892 x37c 0_0011_0111_1100
// 6 891 x37b 0_0011_0111_1011
// 7 890 x37a 0_0011_0111_1010
// 8 889 x379 0_0011_0111_1001
// 9 888 x378 0_0011_0111_1000
// 10 887 x377 0_0011_0111_0111
// 11 886 x376 0_0011_0111_0110
// 12 885 x375 0_0011_0111_0101
// 13 884 x374 0_0011_0111_0100 expo = (884 +26 -13) = 884 + 13 = 897
// 14 883 x373 0_0011_0111_0011
// 15 882 x372 0_0011_0111_0010
// 16 881 x371 0_0011_0111_0001
// 17 880 x370 0_0011_0111_0000
// 18 879 x36f 0_0011_0011_1111
// 19 878 x36e 0_0011_0011_1110
// 20 877 x36d 0_0011_0011_1101
// 21 876 x36c 0_0011_0011_1100
// 22 875 x36b 0_0011_0011_1011
// 23 874 x36a 0_0011_0011_1010
// -----------------------------------------
// 24 873 x369 0_0011_0011_1001 <=== if this or smaller do nothing (special case sp invalid)
//
//-=###############################################################
//-=## ex4 latches
//-=###############################################################
tri_rlmreg_p #(.WIDTH(9), .NEEDS_SRESET(0)) ex4_shr_lat(
.force_t(force_t), // tidn,
.d_mode(tiup),
.delay_lclkr(delay_lclkr[3]), // tidn,
.mpw1_b(mpw1_b[3]), // tidn,
.mpw2_b(mpw2_b[0]), // tidn,
.vd(vdd),
.gd(gnd),
.clk(clk),
.rst(rst),
2 years ago
.act(ex3_act),
.thold_b(thold_0_b),
.sg(sg_0),
.scout(ex4_shr_so),
.scin(ex4_shr_si),
//-----------------
.din({ex3_sh_rgt_amt[0:7],
ex3_sh_rgt_en}),
//-----------------
.dout({ex4_sh_rgt_amt[0:7],
ex4_sh_rgt_en})
);
assign f_lze_ex4_sh_rgt_amt[0:7] = ex4_sh_rgt_amt[0:7]; //OUTPUT--
assign f_lze_ex4_sh_rgt_en = ex4_sh_rgt_en; //OUTPUT--
//-=###############################################################
//-= scan string
//-=###############################################################
assign ex4_shr_si[0:8] = {ex4_shr_so[1:8], f_lze_si};
assign act_si[0:4] = {act_so[1:4], ex4_shr_so[0]};
assign f_lze_so = act_so[0];
endmodule