a2o/dev/verilog/work/fu_alg.v

1079 lines
39 KiB
Verilog

// © 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.
//
// 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.
//
// 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.
`timescale 1 ns / 1 ns
`include "tri_a2o.vh"
module fu_alg(
vdd,
gnd,
clkoff_b,
act_dis,
flush,
delay_lclkr,
mpw1_b,
mpw2_b,
sg_1,
thold_1,
fpu_enable,
nclk,
f_alg_si,
f_alg_so,
ex1_act,
ex2_act,
f_byp_alg_ex2_b_expo,
f_byp_alg_ex2_a_expo,
f_byp_alg_ex2_c_expo,
f_byp_alg_ex2_b_frac,
f_byp_alg_ex2_b_sign,
f_fmt_ex2_prod_zero,
f_fmt_ex2_b_zero,
f_fmt_ex2_pass_sel,
f_fmt_ex3_pass_frac,
f_dcd_ex1_sp,
f_dcd_ex1_from_integer_b,
f_dcd_ex1_to_integer_b,
f_dcd_ex1_word_b,
f_dcd_ex1_uns_b,
f_pic_ex2_rnd_to_int,
f_pic_ex2_frsp_ue1,
f_pic_ex2_effsub_raw,
f_pic_ex2_sh_unf_ig_b,
f_pic_ex2_sh_unf_do,
f_pic_ex2_sh_ovf_ig_b,
f_pic_ex2_sh_ovf_do,
f_pic_ex3_rnd_nr,
f_pic_ex3_rnd_inf_ok,
f_alg_ex2_sign_frmw,
f_alg_ex3_byp_nonflip,
f_alg_ex3_res,
f_alg_ex3_sel_byp,
f_alg_ex3_effsub_eac_b,
f_alg_ex3_prod_z,
f_alg_ex3_sh_unf,
f_alg_ex3_sh_ovf,
f_alg_ex4_frc_sel_p1,
f_alg_ex4_sticky,
f_alg_ex4_int_fr,
f_alg_ex4_int_fi
);
// parameter expand_type = 2; // 0 - ibm tech, 1 - other );
inout vdd;
inout gnd;
input clkoff_b; // tiup
input act_dis; // ??tidn??
input flush; // ??tidn??
input [1:3] delay_lclkr; // tidn,
input [1:3] mpw1_b; // tidn,
input [0:0] mpw2_b; // tidn,
input sg_1;
input thold_1;
input fpu_enable; //dc_act
input [0:`NCLK_WIDTH-1] nclk;
input f_alg_si; //perv
output f_alg_so; //perv
input ex1_act; //act
input ex2_act; //act
input [1:13] f_byp_alg_ex2_b_expo;
input [1:13] f_byp_alg_ex2_a_expo;
input [1:13] f_byp_alg_ex2_c_expo;
input [0:52] f_byp_alg_ex2_b_frac;
input f_byp_alg_ex2_b_sign;
input f_fmt_ex2_prod_zero; // valid and Zero (Madd/Mul)
input f_fmt_ex2_b_zero; // valid and zero (could be denorm, so zero out B)
input f_fmt_ex2_pass_sel;
input [0:52] f_fmt_ex3_pass_frac;
input f_dcd_ex1_sp;
input f_dcd_ex1_from_integer_b; // K, spec, round
input f_dcd_ex1_to_integer_b; // K, spec, round
input f_dcd_ex1_word_b;
input f_dcd_ex1_uns_b;
input f_pic_ex2_rnd_to_int;
input f_pic_ex2_frsp_ue1; // K, spec, round
input f_pic_ex2_effsub_raw; //
input f_pic_ex2_sh_unf_ig_b; // fcfid
input f_pic_ex2_sh_unf_do; // (do not know why want this)
input f_pic_ex2_sh_ovf_ig_b; // fcfid
input f_pic_ex2_sh_ovf_do; // fsel, fpscr, fmr,
input f_pic_ex3_rnd_nr; //
input f_pic_ex3_rnd_inf_ok; // pi/pos, ni/neg
output f_alg_ex2_sign_frmw; // sign bit for from_integer_word_signed
output f_alg_ex3_byp_nonflip;
output [0:162] f_alg_ex3_res; //sad3/add
output f_alg_ex3_sel_byp; // all eac selects off
output f_alg_ex3_effsub_eac_b; // includes cancelations
output f_alg_ex3_prod_z;
output f_alg_ex3_sh_unf; // f_pic
output f_alg_ex3_sh_ovf; // f_pic
output f_alg_ex4_frc_sel_p1; // rounding converts
output f_alg_ex4_sticky; // part of eac control
output f_alg_ex4_int_fr; // f_pic
output f_alg_ex4_int_fi; // f_pic
parameter tiup = 1'b1;
parameter tidn = 1'b0;
wire thold_0_b;
wire thold_0;
wire force_t;
wire sg_0;
wire ex3_act;
(* analysis_not_referenced="TRUE" *) // unused
wire [0:3] spare_unused;
//--------------------------------------
wire [0:4] act_so; //SCAN
wire [0:4] act_si; //SCAN
wire [0:4] ex2_ctl_so; //SCAN
wire [0:4] ex2_ctl_si; //SCAN
wire [0:67] ex3_shd_so; //SCAN
wire [0:67] ex3_shd_si;
wire [0:24] ex3_shc_so; //SCAN
wire [0:24] ex3_shc_si;
wire [0:14] ex3_ctl_so; //SCAN
wire [0:14] ex3_ctl_si; //SCAN
wire [0:10] ex4_ctl_so; //SCAN
wire [0:10] ex4_ctl_si; //SCAN
//--------------------------------------
wire ex2_from_integer;
wire ex3_from_integer;
wire ex2_to_integer;
wire ex2_sel_special;
wire ex2_sel_special_b;
wire ex3_sel_special_b;
wire ex2_sh_ovf;
wire ex2_sh_unf_x;
wire ex3_sh_unf_x;
wire ex2_sel_byp_nonflip;
wire ex2_sel_byp_nonflip_lze;
wire ex2_from_integer_neg;
wire ex2_integer_op;
wire ex2_to_integer_neg;
wire ex2_negate;
wire ex2_effsub_alg;
wire ex3_sh_unf;
wire ex3_sel_byp;
wire ex3_effsub_alg;
wire ex3_prd_sel_pos_hi;
wire ex3_prd_sel_neg_hi;
wire ex3_prd_sel_pos_lo;
wire ex3_prd_sel_neg_lo;
wire ex3_prd_sel_pos_lohi;
wire ex3_prd_sel_neg_lohi;
wire ex3_byp_sel_pos;
wire ex3_byp_sel_neg;
wire ex3_byp_sel_byp_pos;
wire ex3_byp_sel_byp_neg;
wire ex3_b_sign;
wire ex3_to_integer;
wire [0:67] ex2_sh_lvl2;
wire [0:67] ex3_sh_lvl2;
wire [0:67] ex3_sh_lvl2_b;
wire [6:9] ex3_bsha;
wire [0:4] ex3_sticky_en16_x;
wire ex3_xthrm_6_ns_b;
wire ex3_xthrm_7_ns_b;
wire ex3_xthrm_8_b;
wire ex3_xthrm_8a9_b;
wire ex3_xthrm_8o9_b;
wire ex3_xthrm7o8a9;
wire ex3_xthrm7o8;
wire ex3_xthrm7o8o9;
wire ex3_xthrm7a8a9;
wire ex3_xthrm_6_ns;
wire ex3_ge176_b;
wire ex3_ge160_b;
wire ex3_ge144_b;
wire ex3_ge128_b;
wire ex3_ge112_b;
wire ex2_bsha_6;
wire ex2_bsha_7;
wire ex2_bsha_8;
wire ex2_bsha_9;
wire ex3_bsha_pos;
wire [0:162] ex3_sh_lvl3;
wire [0:4] ex3_sticky_or16;
wire ex2_b_zero;
wire ex3_b_zero;
wire ex3_b_zero_b;
wire ex2_dp;
wire ex3_byp_nonflip_lze;
wire ex3_sel_byp_nonflip;
wire ex3_prod_zero;
wire ex3_sh_ovf_en;
wire ex3_sh_unf_en;
wire ex3_sh_unf_do;
wire ex3_sh_ovf;
wire ex3_integer_op;
wire ex3_negate;
wire ex3_unf_bz;
wire ex3_all1_x;
wire ex3_ovf_pz;
wire ex3_all1_y;
wire ex3_sel_special;
wire ex1_from_integer;
wire ex1_to_integer;
wire ex1_dp;
wire ex1_uns;
wire ex1_word;
wire ex2_uns;
wire ex2_word;
wire ex2_word_from;
wire ex3_word_from;
wire ex3_rnd_to_int;
wire ex2_sign_from;
wire [0:52] ex2_b_frac;
wire [1:13] ex2_b_expo;
wire ex2_b_sign;
wire ex2_bsha_neg;
wire ex3_bsha_neg;
wire ex2_lvl1_shdcd000_b;
wire ex2_lvl1_shdcd001_b;
wire ex2_lvl1_shdcd002_b;
wire ex2_lvl1_shdcd003_b;
wire ex2_lvl2_shdcd000;
wire ex2_lvl2_shdcd004;
wire ex2_lvl2_shdcd008;
wire ex2_lvl2_shdcd012;
wire ex2_lvl3_shdcd000;
wire ex2_lvl3_shdcd016;
wire ex2_lvl3_shdcd032;
wire ex2_lvl3_shdcd048;
wire ex2_lvl3_shdcd064;
wire ex2_lvl3_shdcd080;
wire ex2_lvl3_shdcd096;
wire ex2_lvl3_shdcd112;
wire ex2_lvl3_shdcd128;
wire ex2_lvl3_shdcd144;
wire ex2_lvl3_shdcd160;
wire ex2_lvl3_shdcd176;
wire ex2_lvl3_shdcd192; // -64
wire ex2_lvl3_shdcd208; // -48
wire ex2_lvl3_shdcd224; // -32
wire ex2_lvl3_shdcd240; // -16
wire ex3_lvl3_shdcd000;
wire ex3_lvl3_shdcd016;
wire ex3_lvl3_shdcd032;
wire ex3_lvl3_shdcd048;
wire ex3_lvl3_shdcd064;
wire ex3_lvl3_shdcd080;
wire ex3_lvl3_shdcd096;
wire ex3_lvl3_shdcd112;
wire ex3_lvl3_shdcd128;
wire ex3_lvl3_shdcd144;
wire ex3_lvl3_shdcd160;
wire ex3_lvl3_shdcd176;
wire ex3_lvl3_shdcd192;
wire ex3_lvl3_shdcd208;
wire ex3_lvl3_shdcd224;
wire ex3_lvl3_shdcd240;
wire ex4_int_fr_nr1_b;
wire ex4_int_fr_nr2_b;
wire ex4_int_fr_ok_b;
wire ex4_int_fr;
wire ex4_sel_p1_0_b;
wire ex4_sel_p1_1_b;
wire ex4_sticky_math;
wire ex4_sticky_toint;
wire ex4_sticky_toint_nr;
wire ex4_sticky_toint_ok;
wire ex4_frmneg_o_toneg;
wire ex4_frmneg_o_topos;
wire ex4_lsb_toint_nr;
wire ex4_g_math;
wire ex4_g_toint;
wire ex4_g_toint_nr;
wire ex4_g_toint_ok;
wire ex3_frmneg;
wire ex3_toneg;
wire ex3_topos;
wire ex3_frmneg_o_toneg;
wire ex3_frmneg_o_topos;
wire ex3_toint_gate_x;
wire ex3_toint_gate_g;
wire ex3_toint_gt_nr_x;
wire ex3_toint_gt_nr_g;
wire ex3_toint_gt_ok_x;
wire ex3_toint_gt_ok_g;
wire ex3_math_gate_x;
wire ex3_math_gate_g;
wire ex3_sticky_eac_x;
wire ex3_sticky_math;
wire ex3_sticky_toint;
wire ex3_sticky_toint_nr;
wire ex3_sticky_toint_ok;
wire ex3_lsb_toint_nr;
wire ex3_g_math;
wire ex3_g_toint;
wire ex3_g_toint_nr;
wire ex3_g_toint_ok;
wire ex3_sh16_162;
wire ex3_sh16_163;
wire alg_ex3_d1clk;
wire alg_ex3_d2clk;
wire [0:`NCLK_WIDTH-1] alg_ex3_lclk;
wire [6:9] ex3_bsha_b;
wire ex3_bsha_neg_b;
wire ex3_sh_ovf_b;
wire ex3_sh_unf_x_b;
wire ex3_lvl3_shdcd000_b;
wire ex3_lvl3_shdcd016_b;
wire ex3_lvl3_shdcd032_b;
wire ex3_lvl3_shdcd048_b;
wire ex3_lvl3_shdcd064_b;
wire ex3_lvl3_shdcd080_b;
wire ex3_lvl3_shdcd096_b;
wire ex3_lvl3_shdcd112_b;
wire ex3_lvl3_shdcd128_b;
wire ex3_lvl3_shdcd144_b;
wire ex3_lvl3_shdcd160_b;
wire ex3_lvl3_shdcd176_b;
wire ex3_lvl3_shdcd192_b;
wire ex3_lvl3_shdcd208_b;
wire ex3_lvl3_shdcd224_b;
wire ex3_lvl3_shdcd240_b;
wire ex3_b_zero_l2_b;
wire ex3_prod_zero_b;
wire ex3_byp_nonflip_lze_b;
wire ex3_sel_byp_nonflip_b;
wire ex3_sh_unf_do_b;
wire ex3_sh_unf_en_b;
wire ex3_sh_ovf_en_b;
wire ex3_effsub_alg_b;
wire ex3_negate_b;
wire ex3_b_sign_b;
wire ex3_to_integer_b;
wire ex3_from_integer_b;
wire ex3_rnd_to_int_b;
wire ex3_integer_op_b;
wire ex3_word_from_b;
(* analysis_not_referenced="TRUE" *) // unused
wire unused;
//==##############################################################
//# map block attributes
//==##############################################################
assign unused = ex2_b_expo[1] | ex2_b_expo[2] | ex2_dp | ex3_lvl3_shdcd176; //latch output
// latch output
assign ex2_b_frac[0:52] = f_byp_alg_ex2_b_frac[0:52]; //RENAME
assign ex2_b_sign = f_byp_alg_ex2_b_sign; //RENAME
assign ex2_b_expo[1:13] = f_byp_alg_ex2_b_expo[1:13]; //RENAME
//==##############################################################
//# pervasive
//==##############################################################
tri_plat thold_reg_0(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.flush(flush),
.din(thold_1),
.q(thold_0)
);
tri_plat sg_reg_0(
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.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
//==##############################################################
tri_rlmreg_p #(.WIDTH(5), .NEEDS_SRESET(0)) act_lat(
.vd(vdd),
.gd(gnd),
.force_t(force_t), //i-- tidn,
.d_mode(tiup), //d_mode => d_mode ,--i-- tiup,
.delay_lclkr(delay_lclkr[2]), //i-- tidn,
.mpw1_b(mpw1_b[2]), //i-- tidn,
.mpw2_b(mpw2_b[0]), //i-- tidn,
.nclk(nclk),
.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]})
);
tri_lcbnd alg_ex3_lcb(
.delay_lclkr(delay_lclkr[2]), // tidn ,--in
.mpw1_b(mpw1_b[2]), // tidn ,--in
.mpw2_b(mpw2_b[0]), // tidn ,--in
.force_t(force_t), // tidn ,--in
.nclk(nclk), //in
.vd(vdd), //inout
.gd(gnd), //inout
.act(ex2_act), //in
.sg(sg_0), //in
.thold_b(thold_0_b), //in
.d1clk(alg_ex3_d1clk), //out
.d2clk(alg_ex3_d2clk), //out
.lclk(alg_ex3_lclk) //out
);
//==##############################################################
//# ex1 logic
//==##############################################################
//#-------------------------------------------------------------
//# shift amount calculation :start with exponent difference
//#-------------------------------------------------------------
//==##############################################################
//# ex2 latches (from ex1 logic)
//==##############################################################
assign ex1_from_integer = (~f_dcd_ex1_from_integer_b);
assign ex1_to_integer = (~f_dcd_ex1_to_integer_b);
assign ex1_dp = (~f_dcd_ex1_sp);
assign ex1_word = (~f_dcd_ex1_word_b);
assign ex1_uns = (~f_dcd_ex1_uns_b);
tri_rlmreg_p #(.WIDTH(5), .NEEDS_SRESET(0)) ex2_ctl_lat(
.force_t(force_t), //tidn,
.d_mode(tiup), //d_mode => d_mode ,--tiup,
.delay_lclkr(delay_lclkr[1]), //tidn,
.mpw1_b(mpw1_b[1]), //tidn,
.mpw2_b(mpw2_b[0]), //tidn,
.vd(vdd),
.gd(gnd),
.nclk(nclk),
.thold_b(thold_0_b),
.sg(sg_0),
.act(ex1_act),
.scout(ex2_ctl_so),
.scin(ex2_ctl_si),
//---------------
.din({ ex1_from_integer,
ex1_to_integer,
ex1_dp,
ex1_word,
ex1_uns}),
//---------------
.dout({ex2_from_integer,
ex2_to_integer,
ex2_dp,
ex2_word,
ex2_uns})
);
//==##############################################################
//# ex2 logic
//==##############################################################
fu_alg_add sha(
.vdd(vdd),
.gnd(gnd),
.f_byp_alg_ex2_b_expo(f_byp_alg_ex2_b_expo), //i--
.f_byp_alg_ex2_a_expo(f_byp_alg_ex2_a_expo), //i--
.f_byp_alg_ex2_c_expo(f_byp_alg_ex2_c_expo), //i--
.ex2_sel_special_b(ex2_sel_special_b), //i--
.ex2_bsha_6_o(ex2_bsha_6), //o--
.ex2_bsha_7_o(ex2_bsha_7), //o--
.ex2_bsha_8_o(ex2_bsha_8), //o--
.ex2_bsha_9_o(ex2_bsha_9), //o--
.ex2_bsha_neg_o(ex2_bsha_neg), //o--
.ex2_sh_ovf(ex2_sh_ovf), //o--
.ex2_sh_unf_x(ex2_sh_unf_x), //o--
.ex2_lvl1_shdcd000_b(ex2_lvl1_shdcd000_b), //o--
.ex2_lvl1_shdcd001_b(ex2_lvl1_shdcd001_b), //o--
.ex2_lvl1_shdcd002_b(ex2_lvl1_shdcd002_b), //o--
.ex2_lvl1_shdcd003_b(ex2_lvl1_shdcd003_b), //o--
.ex2_lvl2_shdcd000(ex2_lvl2_shdcd000), //o--
.ex2_lvl2_shdcd004(ex2_lvl2_shdcd004), //o--
.ex2_lvl2_shdcd008(ex2_lvl2_shdcd008), //o--
.ex2_lvl2_shdcd012(ex2_lvl2_shdcd012), //o--
.ex2_lvl3_shdcd000(ex2_lvl3_shdcd000), //o--
.ex2_lvl3_shdcd016(ex2_lvl3_shdcd016), //o--
.ex2_lvl3_shdcd032(ex2_lvl3_shdcd032), //o--
.ex2_lvl3_shdcd048(ex2_lvl3_shdcd048), //o--
.ex2_lvl3_shdcd064(ex2_lvl3_shdcd064), //o--
.ex2_lvl3_shdcd080(ex2_lvl3_shdcd080), //o--
.ex2_lvl3_shdcd096(ex2_lvl3_shdcd096), //o--
.ex2_lvl3_shdcd112(ex2_lvl3_shdcd112), //o--
.ex2_lvl3_shdcd128(ex2_lvl3_shdcd128), //o--
.ex2_lvl3_shdcd144(ex2_lvl3_shdcd144), //o--
.ex2_lvl3_shdcd160(ex2_lvl3_shdcd160), //o--
.ex2_lvl3_shdcd176(ex2_lvl3_shdcd176), //o--
.ex2_lvl3_shdcd192(ex2_lvl3_shdcd192), //o--
.ex2_lvl3_shdcd208(ex2_lvl3_shdcd208), //o--
.ex2_lvl3_shdcd224(ex2_lvl3_shdcd224), //o--
.ex2_lvl3_shdcd240(ex2_lvl3_shdcd240) //o--
);
assign ex2_sel_special = ex2_from_integer;
assign ex2_sel_special_b = (~ex2_from_integer);
//#-------------------------------------------------
//# determine bypass selects, operand flip
//#-------------------------------------------------
////----------------------------------
//// ex2
////----------------------------------
// nan pass
assign ex2_sel_byp_nonflip_lze = (f_fmt_ex2_pass_sel) | (f_pic_ex2_sh_ovf_do); // fsel, fpscr, fmr,
// <<<< move all this stuff to ex3
assign ex2_sel_byp_nonflip = (f_pic_ex2_frsp_ue1) | (f_fmt_ex2_pass_sel) | (f_pic_ex2_sh_ovf_do); // nan pass
// fsel, fpscr, fmr,
assign ex2_integer_op = ex2_from_integer | (ex2_to_integer & (~f_pic_ex2_rnd_to_int));
// the negate for from_integer should only catch the last 64 bits (because it is not sign extended)
assign f_alg_ex2_sign_frmw = ex2_b_frac[21]; // output (for sign logic)
assign ex2_sign_from = (ex2_from_integer & ex2_word & ex2_b_frac[21]) | (ex2_from_integer & (~ex2_word) & ex2_b_sign); // 32 from left 52 - 31 = 21
assign ex2_from_integer_neg = ex2_from_integer & ex2_sign_from & (~ex2_uns);
assign ex2_word_from = ex2_word & ex2_from_integer;
assign ex2_to_integer_neg = ex2_to_integer & ex2_b_sign & (~f_pic_ex2_rnd_to_int);
assign ex2_negate = f_pic_ex2_effsub_raw | ex2_from_integer_neg | ex2_to_integer_neg; // subtract op
assign ex2_effsub_alg = f_pic_ex2_effsub_raw & (~f_fmt_ex2_pass_sel);
assign ex2_b_zero = f_fmt_ex2_b_zero;
// for sh_unf/b_zero effadd: alg_res = 00...00 (turn off all selects)
// for sh_unf/b_zero effsub: alg_res = 11...11 (turn on pos/neg selects)
//
// 0:52 53:54 55:98 99:163
// to_int 0 0 0 ssssss
// from_int 0 0 0 ssssss
// bypass{nan,fmr} d 0 ? ??????
// sh_ov
// sh_unf
// effadd
// effsub
//#---------------------------------------------------------------
//# first 2 levels of shifting (1) 0/1/2/3 (2) 0/4/8/12
//#---------------------------------------------------------------
fu_alg_sh4 sh4(
.ex2_lvl1_shdcd000_b(ex2_lvl1_shdcd000_b), //i--
.ex2_lvl1_shdcd001_b(ex2_lvl1_shdcd001_b), //i--
.ex2_lvl1_shdcd002_b(ex2_lvl1_shdcd002_b), //i--
.ex2_lvl1_shdcd003_b(ex2_lvl1_shdcd003_b), //i--
.ex2_lvl2_shdcd000(ex2_lvl2_shdcd000), //i--
.ex2_lvl2_shdcd004(ex2_lvl2_shdcd004), //i--
.ex2_lvl2_shdcd008(ex2_lvl2_shdcd008), //i--
.ex2_lvl2_shdcd012(ex2_lvl2_shdcd012), //i--
.ex2_sel_special(ex2_sel_special), //i--
.ex2_b_sign(ex2_b_sign), //i--
.ex2_b_expo(ex2_b_expo[3:13]), //i--
.ex2_b_frac(ex2_b_frac[0:52]), //i--
.ex2_sh_lvl2(ex2_sh_lvl2[0:67]) //o--
);
//==##############################################################
//# ex3 latches (from ex2 logic)
//==##############################################################
tri_inv_nlats #(.WIDTH(68), .NEEDS_SRESET(0)) ex3_shd_lat(
.vd(vdd),
.gd(gnd),
.lclk(alg_ex3_lclk), // lclk.clk
.d1clk(alg_ex3_d1clk),
.d2clk(alg_ex3_d2clk),
.scanin(ex3_shd_si),
.scanout(ex3_shd_so),
.d(ex2_sh_lvl2[0:67]),
.qb(ex3_sh_lvl2_b[0:67])
);
assign ex3_sh_lvl2[0:67] = (~ex3_sh_lvl2_b[0:67]);
tri_inv_nlats #(.WIDTH(25), .NEEDS_SRESET(0)) ex3_shc_lat(
.vd(vdd),
.gd(gnd),
.lclk(alg_ex3_lclk), // lclk.clk
.d1clk(alg_ex3_d1clk),
.d2clk(alg_ex3_d2clk),
.scanin(ex3_shc_si),
.scanout(ex3_shc_so),
//-----------------
.d({ ex2_bsha_neg,
ex2_sh_ovf,
ex2_sh_unf_x,
ex2_sel_special,
ex2_sel_special_b,
ex2_bsha_6,
ex2_bsha_7,
ex2_bsha_8,
ex2_bsha_9,
ex2_lvl3_shdcd000,
ex2_lvl3_shdcd016,
ex2_lvl3_shdcd032,
ex2_lvl3_shdcd048,
ex2_lvl3_shdcd064,
ex2_lvl3_shdcd080,
ex2_lvl3_shdcd096,
ex2_lvl3_shdcd112,
ex2_lvl3_shdcd128,
ex2_lvl3_shdcd144,
ex2_lvl3_shdcd160,
ex2_lvl3_shdcd176,
ex2_lvl3_shdcd192,
ex2_lvl3_shdcd208,
ex2_lvl3_shdcd224,
ex2_lvl3_shdcd240}),
//--------------------
.qb({ex3_bsha_neg_b,
ex3_sh_ovf_b,
ex3_sh_unf_x_b,
ex3_sel_special_b,
ex3_sel_special,
ex3_bsha_b[6],
ex3_bsha_b[7],
ex3_bsha_b[8],
ex3_bsha_b[9],
ex3_lvl3_shdcd000_b,
ex3_lvl3_shdcd016_b,
ex3_lvl3_shdcd032_b,
ex3_lvl3_shdcd048_b,
ex3_lvl3_shdcd064_b,
ex3_lvl3_shdcd080_b,
ex3_lvl3_shdcd096_b,
ex3_lvl3_shdcd112_b,
ex3_lvl3_shdcd128_b,
ex3_lvl3_shdcd144_b,
ex3_lvl3_shdcd160_b,
ex3_lvl3_shdcd176_b,
ex3_lvl3_shdcd192_b,
ex3_lvl3_shdcd208_b,
ex3_lvl3_shdcd224_b,
ex3_lvl3_shdcd240_b})
);
assign ex3_bsha_neg = (~ex3_bsha_neg_b);
assign ex3_sh_ovf = (~ex3_sh_ovf_b);
assign ex3_sh_unf_x = (~ex3_sh_unf_x_b);
assign ex3_bsha[6] = (~ex3_bsha_b[6]);
assign ex3_bsha[7] = (~ex3_bsha_b[7]);
assign ex3_bsha[8] = (~ex3_bsha_b[8]);
assign ex3_bsha[9] = (~ex3_bsha_b[9]);
assign ex3_lvl3_shdcd000 = (~ex3_lvl3_shdcd000_b);
assign ex3_lvl3_shdcd016 = (~ex3_lvl3_shdcd016_b);
assign ex3_lvl3_shdcd032 = (~ex3_lvl3_shdcd032_b);
assign ex3_lvl3_shdcd048 = (~ex3_lvl3_shdcd048_b);
assign ex3_lvl3_shdcd064 = (~ex3_lvl3_shdcd064_b);
assign ex3_lvl3_shdcd080 = (~ex3_lvl3_shdcd080_b);
assign ex3_lvl3_shdcd096 = (~ex3_lvl3_shdcd096_b);
assign ex3_lvl3_shdcd112 = (~ex3_lvl3_shdcd112_b);
assign ex3_lvl3_shdcd128 = (~ex3_lvl3_shdcd128_b);
assign ex3_lvl3_shdcd144 = (~ex3_lvl3_shdcd144_b);
assign ex3_lvl3_shdcd160 = (~ex3_lvl3_shdcd160_b);
assign ex3_lvl3_shdcd176 = (~ex3_lvl3_shdcd176_b);
assign ex3_lvl3_shdcd192 = (~ex3_lvl3_shdcd192_b);
assign ex3_lvl3_shdcd208 = (~ex3_lvl3_shdcd208_b);
assign ex3_lvl3_shdcd224 = (~ex3_lvl3_shdcd224_b);
assign ex3_lvl3_shdcd240 = (~ex3_lvl3_shdcd240_b);
tri_inv_nlats #(.WIDTH(15), .NEEDS_SRESET(0)) ex3_ctl_lat(
.vd(vdd),
.gd(gnd),
.lclk(alg_ex3_lclk), // lclk.clk
.d1clk(alg_ex3_d1clk),
.d2clk(alg_ex3_d2clk),
.scanin(ex3_ctl_si),
.scanout(ex3_ctl_so),
//-----------------
.d({ ex2_b_zero,
f_fmt_ex2_prod_zero,
ex2_sel_byp_nonflip_lze,
ex2_sel_byp_nonflip,
f_pic_ex2_sh_unf_do,
f_pic_ex2_sh_unf_ig_b,
f_pic_ex2_sh_ovf_ig_b,
ex2_effsub_alg,
ex2_negate,
ex2_b_sign,
ex2_to_integer,
ex2_from_integer,
f_pic_ex2_rnd_to_int,
ex2_integer_op,
ex2_word_from}),
//-----------------
.qb({ ex3_b_zero_l2_b,
ex3_prod_zero_b,
ex3_byp_nonflip_lze_b,
ex3_sel_byp_nonflip_b,
ex3_sh_unf_do_b,
ex3_sh_unf_en_b,
ex3_sh_ovf_en_b,
ex3_effsub_alg_b,
ex3_negate_b,
ex3_b_sign_b,
ex3_to_integer_b,
ex3_from_integer_b,
ex3_rnd_to_int_b,
ex3_integer_op_b,
ex3_word_from_b})
);
assign ex3_b_zero = (~ex3_b_zero_l2_b);
assign ex3_prod_zero = (~ex3_prod_zero_b);
assign ex3_byp_nonflip_lze = (~ex3_byp_nonflip_lze_b);
assign ex3_sel_byp_nonflip = (~ex3_sel_byp_nonflip_b);
assign ex3_sh_unf_do = (~ex3_sh_unf_do_b);
assign ex3_sh_unf_en = (~ex3_sh_unf_en_b);
assign ex3_sh_ovf_en = (~ex3_sh_ovf_en_b);
assign ex3_effsub_alg = (~ex3_effsub_alg_b);
assign ex3_negate = (~ex3_negate_b);
assign ex3_b_sign = (~ex3_b_sign_b);
assign ex3_to_integer = (~ex3_to_integer_b);
assign ex3_from_integer = (~ex3_from_integer_b);
assign ex3_rnd_to_int = (~ex3_rnd_to_int_b);
assign ex3_integer_op = (~ex3_integer_op_b);
assign ex3_word_from = (~ex3_word_from_b);
//$$ sticky enable for 16 bit groups ------------------------
//$$
//$$ ex2_sticky_en16_x(0) <=
//$$ (ex2_lvl3_shdcd176 ) or -- == 176
//$$ (ex2_bsha( 6) and ex2_bsha( 7) ) or -- >= 176
//$$ (ex2_bsha( 6) and ex2_bsha( 8) and ex2_bsha( 9) ) ; -- >= 176
//$$ ex2_sticky_en16_x(1) <= ex2_sticky_en16_x(0) or ex2_lvl3_shdcd160_x ;
//$$ ex2_sticky_en16_x(2) <= ex2_sticky_en16_x(1) or ex2_lvl3_shdcd144_x ;
//$$ ex2_sticky_en16_x(3) <= ex2_sticky_en16_x(2) or ex2_lvl3_shdcd128_x ;
//$$ ex2_sticky_en16_x(4) <= ex2_sticky_en16_x(3) or ex2_lvl3_shdcd112_x ;
//------------------------------
// Sticky Bit Thermometer
//------------------------------
// bhsa(6789)
// 176 1011 GE_176: 6 * (7 | (8*9) )
// 160 1010 GE_160: 6 * (7 | (8) )
// 144 1001 GE_144 6 * (7 | (8|9) )
// 128 1000 GE_128: 6
// 112 0111 GE_112: 6 | (7 * (8*9) )
assign ex3_xthrm_6_ns_b = (~(ex3_bsha[6] & ex3_sel_special_b));
assign ex3_xthrm_7_ns_b = (~(ex3_bsha[7] & ex3_sel_special_b));
assign ex3_xthrm_8_b = (~(ex3_bsha[8]));
assign ex3_xthrm_8a9_b = (~(ex3_bsha[8] & ex3_bsha[9]));
assign ex3_xthrm_8o9_b = (~(ex3_bsha[8] | ex3_bsha[9]));
assign ex3_xthrm7o8a9 = (~(ex3_xthrm_7_ns_b & ex3_xthrm_8a9_b));
assign ex3_xthrm7o8 = (~(ex3_xthrm_7_ns_b & ex3_xthrm_8_b));
assign ex3_xthrm7o8o9 = (~(ex3_xthrm_7_ns_b & ex3_xthrm_8o9_b));
assign ex3_xthrm7a8a9 = (~(ex3_xthrm_7_ns_b | ex3_xthrm_8a9_b));
assign ex3_xthrm_6_ns = (~(ex3_xthrm_6_ns_b));
assign ex3_ge176_b = (~(ex3_xthrm_6_ns & ex3_xthrm7o8a9));
assign ex3_ge160_b = (~(ex3_xthrm_6_ns & ex3_xthrm7o8));
assign ex3_ge144_b = (~(ex3_xthrm_6_ns & ex3_xthrm7o8o9));
assign ex3_ge128_b = (~(ex3_xthrm_6_ns));
assign ex3_ge112_b = (~(ex3_xthrm_6_ns | ex3_xthrm7a8a9));
assign ex3_sticky_en16_x[0] = (~ex3_ge176_b);
assign ex3_sticky_en16_x[1] = (~ex3_ge160_b);
assign ex3_sticky_en16_x[2] = (~ex3_ge144_b);
assign ex3_sticky_en16_x[3] = (~ex3_ge128_b);
assign ex3_sticky_en16_x[4] = (~ex3_ge112_b);
assign ex3_b_zero_b = (~ex3_b_zero);
assign f_alg_ex3_byp_nonflip = ex3_byp_nonflip_lze;
assign f_alg_ex3_sel_byp = ex3_sel_byp; //output-- all eac selects off
assign f_alg_ex3_effsub_eac_b = (~ex3_effsub_alg); //output-- includes cancelations
assign f_alg_ex3_prod_z = ex3_prod_zero; //output
assign f_alg_ex3_sh_unf = ex3_sh_unf; //output--f_pic--
assign f_alg_ex3_sh_ovf = ex3_ovf_pz; //output--f_pic--
//==##############################################################
//# ex3 logic
//==##############################################################
//#-------------------------------------------------
//# start sticky (passed 163 ... passed 162 for math, but need guard for fcti rounding)
//#-------------------------------------------------
fu_alg_or16 or16(
.ex3_sh_lvl2(ex3_sh_lvl2[0:67]), //i--
.ex3_sticky_or16(ex3_sticky_or16[0:4]) //o--
);
//#-------------------------------------------------
//# finish shifting
//#-------------------------------------------------
// this looks more like a 53:1 mux than a shifter to shrink it, and lower load on selects
// real implementation should be nand/nand/nor ... ?? integrate nor into latch ??
fu_alg_sh16 sh16(
.ex3_lvl3_shdcd000(ex3_lvl3_shdcd000), //i--
.ex3_lvl3_shdcd016(ex3_lvl3_shdcd016), //i--
.ex3_lvl3_shdcd032(ex3_lvl3_shdcd032), //i--
.ex3_lvl3_shdcd048(ex3_lvl3_shdcd048), //i--
.ex3_lvl3_shdcd064(ex3_lvl3_shdcd064), //i--
.ex3_lvl3_shdcd080(ex3_lvl3_shdcd080), //i--
.ex3_lvl3_shdcd096(ex3_lvl3_shdcd096), //i--
.ex3_lvl3_shdcd112(ex3_lvl3_shdcd112), //i--
.ex3_lvl3_shdcd128(ex3_lvl3_shdcd128), //i--
.ex3_lvl3_shdcd144(ex3_lvl3_shdcd144), //i--
.ex3_lvl3_shdcd160(ex3_lvl3_shdcd160), //i--
.ex3_lvl3_shdcd192(ex3_lvl3_shdcd192), //i--
.ex3_lvl3_shdcd208(ex3_lvl3_shdcd208), //i--
.ex3_lvl3_shdcd224(ex3_lvl3_shdcd224), //i--
.ex3_lvl3_shdcd240(ex3_lvl3_shdcd240), //i--
.ex3_sel_special(ex3_sel_special), //i--
.ex3_sh_lvl2(ex3_sh_lvl2[0:67]), //i-- [0:63] is also data for from integer
.ex3_sh16_162(ex3_sh16_162), //o--
.ex3_sh16_163(ex3_sh16_163), //o--
.ex3_sh_lvl3(ex3_sh_lvl3[0:162]) //o--
);
//==---------------------------------------------
//== finish bypass controls
//==----------------------------------------------
assign ex3_ovf_pz = ex3_prod_zero | (ex3_sh_ovf & ex3_sh_ovf_en & (~ex3_b_zero));
assign ex3_sel_byp = ex3_sel_byp_nonflip | ex3_ovf_pz;
assign ex3_all1_y = ex3_negate & ex3_ovf_pz;
assign ex3_all1_x = ex3_negate & ex3_unf_bz;
assign ex3_sh_unf = ex3_sh_unf_do | (ex3_sh_unf_en & ex3_sh_unf_x & (~ex3_prod_zero));
assign ex3_unf_bz = ex3_b_zero | ex3_sh_unf;
assign ex3_byp_sel_byp_pos = (ex3_sel_byp_nonflip) | (ex3_ovf_pz & (~ex3_integer_op) & (~ex3_negate) & (~ex3_unf_bz)) | (ex3_ovf_pz & (~ex3_integer_op) & ex3_all1_x);
assign ex3_byp_sel_byp_neg = (~ex3_sel_byp_nonflip) & ex3_ovf_pz & (~ex3_integer_op) & ex3_negate;
assign ex3_byp_sel_pos = ((~ex3_sel_byp) & (~ex3_integer_op) & (~ex3_negate) & (~ex3_unf_bz)) | ((~ex3_sel_byp) & (~ex3_integer_op) & ex3_all1_x);
assign ex3_byp_sel_neg = ((~ex3_sel_byp) & (~ex3_integer_op) & ex3_negate);
assign ex3_prd_sel_pos_hi = ex3_prd_sel_pos_lo & (~ex3_integer_op);
assign ex3_prd_sel_neg_hi = ex3_prd_sel_neg_lo & (~ex3_integer_op);
assign ex3_prd_sel_pos_lohi = ex3_prd_sel_pos_lo & (~ex3_word_from);
assign ex3_prd_sel_neg_lohi = ex3_prd_sel_neg_lo & (~ex3_word_from);
assign ex3_prd_sel_pos_lo = ((~ex3_sel_byp_nonflip) & (~ex3_ovf_pz) & (~ex3_unf_bz) & (~ex3_negate)) | ((~ex3_sel_byp_nonflip) & ex3_all1_x) | ((~ex3_sel_byp_nonflip) & ex3_all1_y);
assign ex3_prd_sel_neg_lo = ((~ex3_sel_byp_nonflip) & ex3_negate);
//#-------------------------------------------------
//# bypass mux & operand flip
//#-------------------------------------------------
//# integer operation positions
//# 32 32
//# 99:130 131:162
fu_alg_bypmux bymx(
.ex3_byp_sel_byp_neg(ex3_byp_sel_byp_neg), //i--
.ex3_byp_sel_byp_pos(ex3_byp_sel_byp_pos), //i--
.ex3_byp_sel_neg(ex3_byp_sel_neg), //i--
.ex3_byp_sel_pos(ex3_byp_sel_pos), //i--
.ex3_prd_sel_neg_hi(ex3_prd_sel_neg_hi), //i--
.ex3_prd_sel_neg_lo(ex3_prd_sel_neg_lo), //i--
.ex3_prd_sel_neg_lohi(ex3_prd_sel_neg_lohi), //i--
.ex3_prd_sel_pos_hi(ex3_prd_sel_pos_hi), //i--
.ex3_prd_sel_pos_lo(ex3_prd_sel_pos_lo), //i--
.ex3_prd_sel_pos_lohi(ex3_prd_sel_pos_lohi), //i--
.ex3_sh_lvl3(ex3_sh_lvl3[0:162]), //i--
.f_fmt_ex3_pass_frac(f_fmt_ex3_pass_frac[0:52]), //i--
.f_alg_ex3_res(f_alg_ex3_res[0:162]) //o--
);
//#-------------------------------------------------
//# finish sticky
//#-------------------------------------------------
assign ex3_frmneg = ex3_from_integer & ex3_negate; //need +1 as part of negate
assign ex3_toneg = (ex3_to_integer & (~ex3_rnd_to_int) & ex3_b_sign); //reverse rounding for toint/neg
assign ex3_topos = (ex3_to_integer & (~ex3_rnd_to_int) & (~ex3_b_sign)) | ex3_rnd_to_int;
assign ex3_frmneg_o_toneg = ex3_frmneg | ex3_toneg;
assign ex3_frmneg_o_topos = ex3_frmneg | ex3_topos;
assign ex3_math_gate_x = (~ex3_sel_byp_nonflip) & ex3_b_zero_b & (~ex3_ovf_pz);
assign ex3_toint_gate_x = ex3_to_integer & ex3_b_zero_b;
assign ex3_toint_gt_nr_x = ex3_to_integer & ex3_b_zero_b & f_pic_ex3_rnd_nr;
assign ex3_toint_gt_ok_x = ex3_to_integer & ex3_b_zero_b & f_pic_ex3_rnd_inf_ok;
assign ex3_math_gate_g = (~ex3_sel_byp_nonflip) & (~ex3_ovf_pz) & ex3_b_zero_b & (ex3_prd_sel_pos_lo | ex3_prd_sel_neg_lo);
assign ex3_toint_gate_g = ex3_to_integer & (~ex3_ovf_pz) & (~ex3_sh_unf) & ex3_b_zero_b;
assign ex3_toint_gt_nr_g = ex3_to_integer & (~ex3_ovf_pz) & (~ex3_sh_unf) & ex3_b_zero_b & f_pic_ex3_rnd_nr;
assign ex3_toint_gt_ok_g = ex3_to_integer & (~ex3_ovf_pz) & (~ex3_sh_unf) & ex3_b_zero_b & f_pic_ex3_rnd_inf_ok;
assign ex3_bsha_pos = (~ex3_bsha_neg);
assign ex3_sticky_eac_x = ((ex3_sh_unf | ex3_sticky_en16_x[0]) & ex3_sticky_or16[0] & ex3_bsha_pos) | ((ex3_sh_unf | ex3_sticky_en16_x[1]) & ex3_sticky_or16[1] & ex3_bsha_pos) | ((ex3_sh_unf | ex3_sticky_en16_x[2]) & ex3_sticky_or16[2] & ex3_bsha_pos) | ((ex3_sh_unf | ex3_sticky_en16_x[3]) & ex3_sticky_or16[3] & ex3_bsha_pos) | ((ex3_sh_unf | ex3_sticky_en16_x[4]) & ex3_sticky_or16[4] & ex3_bsha_pos); // shift underflow enables all sticky
assign ex3_sticky_math = ex3_sticky_eac_x & ex3_math_gate_x;
assign ex3_sticky_toint = ex3_sticky_eac_x & ex3_toint_gate_x;
assign ex3_sticky_toint_nr = ex3_sticky_eac_x & ex3_toint_gt_nr_x;
assign ex3_sticky_toint_ok = ex3_sticky_eac_x & ex3_toint_gt_ok_x;
// round-to-int goes up if guard is ON (this fakes it out)
assign ex3_lsb_toint_nr = (ex3_sh16_162 | ex3_rnd_to_int) & ex3_toint_gt_nr_g;
assign ex3_g_math = ex3_sh16_163 & ex3_math_gate_g;
assign ex3_g_toint = ex3_sh16_163 & ex3_toint_gate_g;
assign ex3_g_toint_nr = ex3_sh16_163 & ex3_toint_gt_nr_g;
assign ex3_g_toint_ok = ex3_sh16_163 & ex3_toint_gt_ok_g;
//==##############################################################
//# ex4 latches (from ex3 logic)
//==##############################################################
tri_rlmreg_p #(.WIDTH(11), .NEEDS_SRESET(0)) ex4_ctl_lat(
.force_t(force_t), //tidn,
.d_mode(tiup), //d_mode => 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),
.nclk(nclk),
.thold_b(thold_0_b),
.sg(sg_0),
.act(ex3_act),
.scout(ex4_ctl_so),
.scin(ex4_ctl_si),
//---------------
.din({ ex3_sticky_math,
ex3_sticky_toint,
ex3_sticky_toint_nr,
ex3_sticky_toint_ok,
ex3_frmneg_o_toneg,
ex3_frmneg_o_topos,
ex3_lsb_toint_nr,
ex3_g_math,
ex3_g_toint,
ex3_g_toint_nr,
ex3_g_toint_ok}),
//--------------
.dout({ ex4_sticky_math,
ex4_sticky_toint,
ex4_sticky_toint_nr,
ex4_sticky_toint_ok,
ex4_frmneg_o_toneg,
ex4_frmneg_o_topos,
ex4_lsb_toint_nr,
ex4_g_math,
ex4_g_toint,
ex4_g_toint_nr,
ex4_g_toint_ok})
);
//==##############################################################
//== ex4 logic
//==##############################################################
assign f_alg_ex4_sticky = ex4_sticky_math | ex4_g_math; //output--
assign f_alg_ex4_int_fi = ex4_sticky_toint | ex4_g_toint; //outpt--
assign ex4_int_fr_nr1_b = (~(ex4_g_toint_nr & ex4_sticky_toint_nr));
assign ex4_int_fr_nr2_b = (~(ex4_g_toint_nr & ex4_lsb_toint_nr));
assign ex4_int_fr_ok_b = (~(ex4_g_toint_ok | ex4_sticky_toint_ok));
assign ex4_int_fr = (~(ex4_int_fr_nr1_b & ex4_int_fr_nr2_b & ex4_int_fr_ok_b));
assign f_alg_ex4_int_fr = ex4_int_fr; //output-- f_pic
assign ex4_sel_p1_0_b = (~((~ex4_int_fr) & ex4_frmneg_o_toneg));
assign ex4_sel_p1_1_b = (~(ex4_int_fr & ex4_frmneg_o_topos));
assign f_alg_ex4_frc_sel_p1 = (~(ex4_sel_p1_0_b & ex4_sel_p1_1_b)); //output-- rounding converts
//==##############################################################
//# scan string
//==##############################################################
assign ex2_ctl_si[0:4] = {ex2_ctl_so[1:4], f_alg_si}; //SCAN
assign ex3_shd_si[0:67] = {ex3_shd_so[1:67], ex2_ctl_so[0]}; //SCAN
assign ex3_shc_si[0:24] = {ex3_shc_so[1:24], ex3_shd_so[0]}; //SCAN
assign ex3_ctl_si[0:14] = {ex3_ctl_so[1:14], ex3_shc_so[0]}; //SCAN
assign ex4_ctl_si[0:10] = {ex4_ctl_so[1:10], ex3_ctl_so[0]}; //SCAN
assign act_si[0:4] = {act_so[1:4], ex4_ctl_so[0]}; //SCAN
assign f_alg_so = act_so[0]; //SCAN
endmodule