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1148 lines
48 KiB
Verilog
1148 lines
48 KiB
Verilog
// © IBM Corp. 2020
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// Licensed under the Apache License, Version 2.0 (the "License"), as modified by
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// the terms below; you may not use the files in this repository except in
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// compliance with the License as modified.
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// You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0
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//
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// Modified Terms:
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//
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// 1) For the purpose of the patent license granted to you in Section 3 of the
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// License, the "Work" hereby includes implementations of the work of authorship
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// in physical form.
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//
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// 2) Notwithstanding any terms to the contrary in the License, any licenses
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// necessary for implementation of the Work that are available from OpenPOWER
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// via the Power ISA End User License Agreement (EULA) are explicitly excluded
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// hereunder, and may be obtained from OpenPOWER under the terms and conditions
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// of the EULA.
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//
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// Unless required by applicable law or agreed to in writing, the reference design
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// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License
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// for the specific language governing permissions and limitations under the License.
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//
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// Additional rights, including the ability to physically implement a softcore that
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// is compliant with the required sections of the Power ISA Specification, are
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// available at no cost under the terms of the OpenPOWER Power ISA EULA, which can be
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// obtained (along with the Power ISA) here: https://openpowerfoundation.org.
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`timescale 1 ns / 1 ns
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`include "tri_a2o.vh"
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module fu_eov(
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vdd,
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gnd,
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clk,
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rst,
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clkoff_b,
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act_dis,
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flush,
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delay_lclkr,
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mpw1_b,
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mpw2_b,
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sg_1,
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thold_1,
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fpu_enable,
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f_eov_si,
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f_eov_so,
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ex3_act_b,
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f_tbl_ex5_unf_expo,
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f_tbe_ex4_may_ov,
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f_tbe_ex4_expo,
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f_pic_ex4_sel_est,
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f_eie_ex4_iexp,
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f_pic_ex4_sp_b,
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f_pic_ex5_oe,
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f_pic_ex5_ue,
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f_pic_ex5_ov_en,
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f_pic_ex5_uf_en,
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f_pic_ex5_spec_sel_k_e,
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f_pic_ex5_spec_sel_k_f,
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f_pic_ex5_sel_ov_spec,
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f_pic_ex5_to_int_ov_all,
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f_lza_ex5_sh_rgt_en_eov,
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f_lza_ex5_lza_amt_eov,
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f_lza_ex5_no_lza_edge,
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f_nrm_ex5_extra_shift,
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f_eov_ex5_may_ovf,
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f_eov_ex6_sel_k_f,
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f_eov_ex6_sel_k_e,
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f_eov_ex6_sel_kif_f,
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f_eov_ex6_sel_kif_e,
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f_eov_ex6_unf_expo,
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f_eov_ex6_ovf_expo,
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f_eov_ex6_ovf_if_expo,
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f_eov_ex6_expo_p0,
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f_eov_ex6_expo_p1,
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f_eov_ex6_expo_p0_ue1oe1,
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f_eov_ex6_expo_p1_ue1oe1
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);
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parameter expand_type = 2; // 0 - ibm tech, 1 - other );
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inout vdd;
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inout gnd;
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input clk;
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input rst;
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input clkoff_b; // tiup
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input act_dis; // ??tidn??
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input flush; // ??tidn??
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input [4:5] delay_lclkr; // tidn,
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input [4:5] mpw1_b; // tidn,
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input [0:1] mpw2_b; // tidn,
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input sg_1;
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input thold_1;
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input fpu_enable; //dc_act
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input f_eov_si; // perv
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output f_eov_so; // perv
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input ex3_act_b; // act
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input f_tbl_ex5_unf_expo;
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input f_tbe_ex4_may_ov;
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input [1:13] f_tbe_ex4_expo;
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input f_pic_ex4_sel_est;
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input [1:13] f_eie_ex4_iexp;
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input f_pic_ex4_sp_b;
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input f_pic_ex5_oe;
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input f_pic_ex5_ue;
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input f_pic_ex5_ov_en;
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input f_pic_ex5_uf_en;
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input f_pic_ex5_spec_sel_k_e;
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input f_pic_ex5_spec_sel_k_f;
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input f_pic_ex5_sel_ov_spec;
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input f_pic_ex5_to_int_ov_all;
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input f_lza_ex5_sh_rgt_en_eov;
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input [0:7] f_lza_ex5_lza_amt_eov;
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input f_lza_ex5_no_lza_edge;
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input f_nrm_ex5_extra_shift;
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output f_eov_ex5_may_ovf; ////#pic generate constant
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output f_eov_ex6_sel_k_f; ////#rnd
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output f_eov_ex6_sel_k_e; ////#rnd
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output f_eov_ex6_sel_kif_f; ////#rnd
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output f_eov_ex6_sel_kif_e; ////#rnd
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output f_eov_ex6_unf_expo; ////#rnd for ux
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output f_eov_ex6_ovf_expo; ////#rnd for INF,ox
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output f_eov_ex6_ovf_if_expo; ////#rnd for INF,ox
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output [1:13] f_eov_ex6_expo_p0; ////#rnd result exponent
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output [1:13] f_eov_ex6_expo_p1; ////#rnd result exponent if rnd_up_all1
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output [3:7] f_eov_ex6_expo_p0_ue1oe1; ////#rnd
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output [3:7] f_eov_ex6_expo_p1_ue1oe1; ////#rnd
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// end ports
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// ENTITY
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parameter tiup = 1'b1;
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parameter tidn = 1'b0;
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wire sg_0;
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wire thold_0_b;
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wire thold_0;
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wire force_t;
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wire ex4_act;
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wire ex3_act;
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wire ex5_act;
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(* analysis_not_referenced="TRUE" *) // unused
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wire [0:2] act_spare_unused;
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//-----------------
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wire [0:4] act_so; //SCAN
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wire [0:4] act_si; //SCAN
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wire [0:15] ex5_iexp_so; //SCAN
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wire [0:15] ex5_iexp_si; //SCAN
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wire [0:2] ex6_ovctl_so; //SCAN
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wire [0:2] ex6_ovctl_si; //SCAN
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wire [0:12] ex6_misc_so; //SCAN
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wire [0:12] ex6_misc_si; //SCAN
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wire [0:12] ex6_urnd0_so; //SCAN
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wire [0:12] ex6_urnd0_si; //SCAN
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wire [0:12] ex6_urnd1_so; //SCAN
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wire [0:12] ex6_urnd1_si; //SCAN
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//-----------------
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wire ex5_sp;
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wire ex5_unf_m1_co12;
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wire ex5_unf_p0_co12;
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wire ex5_ovf_m1_co12;
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wire ex5_ovf_p0_co12;
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wire ex5_ovf_p1_co12;
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wire ex5_ovf_m1;
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wire ex5_ovf_p0;
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wire ex5_ovf_p1;
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wire ex5_unf_m1;
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wire ex5_unf_p0;
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wire [1:13] ex5_i_exp;
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wire [3:7] ex5_ue1oe1_k;
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wire [1:13] ex5_lzasub_sum;
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wire [1:12] ex5_lzasub_car;
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wire [1:12] ex5_lzasub_p;
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wire [2:12] ex5_lzasub_t;
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wire [2:12] ex5_lzasub_g;
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wire [1:13] ex5_lzasub_m1;
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wire [1:13] ex5_lzasub_p0;
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wire [1:13] ex5_lzasub_p1;
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wire [2:11] ex5_lzasub_c0;
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wire [2:11] ex5_lzasub_c1;
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wire [1:11] ex5_lzasub_s0;
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wire [1:11] ex5_lzasub_s1;
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wire [1:13] ex5_ovf_sum;
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wire [1:12] ex5_ovf_car;
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wire [2:12] ex5_ovf_g;
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wire [2:12] ex5_ovf_t;
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wire [1:1] ex5_ovf_p;
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wire [1:13] ex5_unf_sum;
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wire [1:12] ex5_unf_car;
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wire [2:12] ex5_unf_g;
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wire [2:12] ex5_unf_t;
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wire [1:1] ex5_unf_p;
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wire ex5_unf_ci0_02t11;
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wire ex5_unf_ci1_02t11;
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wire [1:13] ex5_expo_p0;
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wire [1:13] ex5_expo_p1;
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wire [1:13] ex6_expo_p0;
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wire [1:13] ex6_expo_p1;
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wire [3:7] ex6_ue1oe1_k;
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wire [3:7] ex6_ue1oe1_p0_p;
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wire [4:6] ex6_ue1oe1_p0_t;
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wire [4:7] ex6_ue1oe1_p0_g;
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wire [4:7] ex6_ue1oe1_p0_c;
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wire [3:7] ex6_ue1oe1_p1_p;
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wire [4:6] ex6_ue1oe1_p1_t;
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wire [4:7] ex6_ue1oe1_p1_g;
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wire [4:7] ex6_ue1oe1_p1_c;
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wire ex5_lzasub_m1_c12;
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wire ex5_lzasub_p0_c12;
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wire ex5_lzasub_p1_c12;
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wire ex5_may_ovf;
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wire [0:7] ex5_lza_amt_b;
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wire [0:7] ex5_lza_amt;
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wire [1:13] ex4_iexp;
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wire ex4_sp;
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wire ex4_may_ovf;
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wire ex5_unf_c2_m1;
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wire ex5_unf_c2_p0;
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wire ex5_c2_m1;
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wire ex5_c2_p0;
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wire ex5_c2_p1;
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wire [4:7] ex6_ue1oe1_p0_g2_b;
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wire [4:5] ex6_ue1oe1_p0_t2_b;
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wire [4:7] ex6_ue1oe1_p1_g2_b;
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wire [4:5] ex6_ue1oe1_p1_t2_b;
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wire ex5_unf_g2_02t03;
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wire ex5_unf_g2_04t05;
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wire ex5_unf_g2_06t07;
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wire ex5_unf_g2_08t09;
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wire ex5_unf_g2_10t11;
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wire ex5_unf_ci0_g2;
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wire ex5_unf_ci1_g2;
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wire ex5_unf_t2_02t03;
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wire ex5_unf_t2_04t05;
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wire ex5_unf_t2_06t07;
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wire ex5_unf_t2_08t09;
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wire ex5_unf_t2_10t11;
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wire ex5_unf_g4_02t05;
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wire ex5_unf_g4_06t09;
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wire ex5_unf_ci0_g4;
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wire ex5_unf_ci1_g4;
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wire ex5_unf_t4_02t05;
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wire ex5_unf_t4_06t09;
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wire ex5_unf_g8_02t09;
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wire ex5_unf_ci0_g8;
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wire ex5_unf_ci1_g8;
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wire ex5_unf_t8_02t09;
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wire ex5_ovf_ci0_02t11;
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wire ex5_ovf_ci1_02t11;
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wire ex5_ovf_g2_02t03;
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wire ex5_ovf_g2_04t05;
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wire ex5_ovf_g2_06t07;
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wire ex5_ovf_g2_08t09;
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wire ex5_ovf_g2_ci0;
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wire ex5_ovf_g2_ci1;
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wire ex5_ovf_t2_02t03;
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wire ex5_ovf_t2_04t05;
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wire ex5_ovf_t2_06t07;
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wire ex5_ovf_t2_08t09;
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wire ex5_ovf_g4_02t05;
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wire ex5_ovf_g4_06t09;
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wire ex5_ovf_g4_ci0;
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wire ex5_ovf_g4_ci1;
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wire ex5_ovf_t4_02t05;
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wire ex5_ovf_t4_06t09;
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wire ex5_ovf_g8_02t09;
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wire ex5_ovf_g8_ci0;
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wire ex5_ovf_g8_ci1;
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wire ex5_ovf_t8_02t09;
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wire [2:11] ex5_lzasub_gg02;
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wire [2:11] ex5_lzasub_gt02;
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wire [2:11] ex5_lzasub_gg04;
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wire [2:11] ex5_lzasub_gt04;
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wire [2:11] ex5_lzasub_gg08;
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wire [2:11] ex5_lzasub_gt08;
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wire ex5_sh_rgt_en_b;
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wire ex4_may_ov_usual;
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wire ex5_ovf_calc;
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wire ex5_ovf_if_calc;
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wire ex5_unf_calc;
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wire ex5_unf_tbl;
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wire ex5_unf_tbl_spec_e;
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wire ex5_ov_en;
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wire ex5_ov_en_oe0;
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wire ex5_sel_ov_spec;
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wire ex5_unf_en_nedge;
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wire ex5_unf_ue0_nestsp;
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wire ex5_sel_k_part_f;
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wire ex5_sel_k_part_e;
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wire ex6_ovf_calc;
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wire ex6_ovf_if_calc;
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wire ex6_unf_calc;
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wire ex6_unf_tbl;
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wire ex6_unf_tbl_b;
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wire ex6_unf_tbl_spec_e;
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wire ex6_ov_en;
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wire ex6_ov_en_oe0;
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wire ex6_sel_ov_spec;
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wire ex6_unf_en_nedge;
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wire ex6_unf_ue0_nestsp;
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wire ex6_sel_k_part_f;
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wire ex6_sel_ov_spec_b;
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wire ex6_ovf_b;
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wire ex6_ovf_if_b;
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wire ex6_ovf_oe0_b;
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wire ex6_ovf_if_oe0_b;
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wire ex6_unf_b;
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wire ex6_unf_ue0_b;
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wire ex6_sel_k_part_f_b;
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wire ex6_unf_tbl_spec_e_b;
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wire ex5_sel_est;
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wire ex5_est_sp;
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wire [1:13] ex5_expo_p0_0_b;
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wire [1:13] ex5_expo_p0_1_b;
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wire [1:13] ex5_expo_p1_0_b;
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wire [1:13] ex5_expo_p1_1_b;
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wire ex5_ovf_calc_0_b;
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wire ex5_ovf_calc_1_b;
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wire ex5_ovf_if_calc_0_b;
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wire ex5_ovf_if_calc_1_b;
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wire ex5_unf_calc_0_b;
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wire ex5_unf_calc_1_b;
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wire ex6_d1clk;
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wire ex6_d2clk;
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//wire [0:`NCLK_WIDTH-1] ex6_lclk;
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wire ex6_lclk;
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(* analysis_not_referenced="TRUE" *) // unused
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wire unused;
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assign unused = |(ex5_expo_p0[1:13]) | |(ex5_expo_p1[1:13]) | ex5_ovf_calc | ex5_ovf_if_calc | ex5_unf_calc;
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////############################################
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////# pervasive
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////############################################
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tri_plat thold_reg_0(
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.vd(vdd),
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.gd(gnd),
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.clk(clk),
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.rst(rst),
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.flush(flush),
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.din(thold_1),
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.q(thold_0)
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);
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tri_plat sg_reg_0(
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.vd(vdd),
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.gd(gnd),
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.clk(clk),
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.rst(rst),
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.flush(flush),
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.din(sg_1),
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.q(sg_0)
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);
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tri_lcbor lcbor_0(
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.clkoff_b(clkoff_b),
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.thold(thold_0),
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.sg(sg_0),
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.act_dis(act_dis),
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.force_t(force_t),
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.thold_b(thold_0_b)
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);
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tri_lcbnd ex6_lcb(
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.delay_lclkr(delay_lclkr[5]), // tidn
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.mpw1_b(mpw1_b[5]), // tidn
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.mpw2_b(mpw2_b[1]), // tidn
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.force_t(force_t), // tidn
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.clk(clk),
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.rst(rst), //in
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.vd(vdd), //inout
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.gd(gnd), //inout
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.act(ex5_act), //in
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.sg(sg_0), //in
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.thold_b(thold_0_b), //in
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.d1clk(ex6_d1clk), //out
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.d2clk(ex6_d2clk), //out
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.lclk(ex6_lclk) //out
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);
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////############################################
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////# ACT LATCHES
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////############################################
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assign ex3_act = (~ex3_act_b);
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tri_rlmreg_p #(.WIDTH(5), .NEEDS_SRESET(0)) act_lat(
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.force_t(force_t), // tidn,
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.d_mode(tiup),
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.delay_lclkr(delay_lclkr[4]), // tidn,
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.mpw1_b(mpw1_b[4]), // tidn,
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.mpw2_b(mpw2_b[0]), // tidn,
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.vd(vdd),
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.gd(gnd),
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.clk(clk),
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.rst(rst),
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.thold_b(thold_0_b),
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.sg(sg_0),
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.act(fpu_enable),
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.scout(act_so),
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.scin(act_si),
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//-----------------
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|
.din({ act_spare_unused[0],
|
|
act_spare_unused[1],
|
|
ex3_act,
|
|
ex4_act,
|
|
act_spare_unused[2]}),
|
|
//-----------------
|
|
.dout({ act_spare_unused[0],
|
|
act_spare_unused[1],
|
|
ex4_act,
|
|
ex5_act,
|
|
act_spare_unused[2]})
|
|
);
|
|
|
|
////##############################################
|
|
////# EX4 logic
|
|
////##############################################
|
|
|
|
assign ex4_iexp[1:13] = ({13{(~f_pic_ex4_sel_est)}} & f_eie_ex4_iexp[1:13]) |
|
|
({13{f_pic_ex4_sel_est}} & f_tbe_ex4_expo[1:13]);
|
|
|
|
assign ex4_sp = (~f_pic_ex4_sp_b);
|
|
|
|
// for bias 1023 ... dp underflow = 0, 1 <1+163> = 164
|
|
// for bias 2047 ... dp underflow = 1024, 1025 <1025+163> = 1188
|
|
//
|
|
// for bias 1023 ... sp underflow = 896, 897 <897+163> = 1060
|
|
// for bias 2047 ... sp underflow = 1920, 1921 <1921+163> = 2084
|
|
//
|
|
// lza can subtract at most 163, if expo is > 163, then it will not underflow.
|
|
// (round up a little to make it easier ... sp is the problem )
|
|
//
|
|
// 0_0100_0010_0100 1060 1024 + 36
|
|
// 0_1000_0010_0100 2084
|
|
// 0_1000_0011_0000 <= round up a little to look at less bits
|
|
// 0_0100_0011_0000 <= round up a little to look at less bits
|
|
//----------------------
|
|
// 1111
|
|
// 1 2345 6789 0123
|
|
|
|
assign ex4_may_ovf = (ex4_may_ov_usual & (~f_pic_ex4_sel_est)) | (f_tbe_ex4_may_ov & f_pic_ex4_sel_est);
|
|
|
|
assign ex4_may_ov_usual = ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[2]) | ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[3] & f_eie_ex4_iexp[4]) | ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[3] & f_eie_ex4_iexp[5]) | ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[3] & f_eie_ex4_iexp[6]) | ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[3] & f_eie_ex4_iexp[7]) | ((~f_eie_ex4_iexp[1]) & f_eie_ex4_iexp[3] & f_eie_ex4_iexp[8] & f_eie_ex4_iexp[9]);
|
|
|
|
////##############################################
|
|
////# EX5 latch inputs from ex4
|
|
////##############################################
|
|
|
|
|
|
tri_rlmreg_p #(.WIDTH(16), .NEEDS_SRESET(0)) ex5_iexp_lat(
|
|
.force_t(force_t), // tidn,
|
|
.d_mode(tiup),
|
|
.delay_lclkr(delay_lclkr[4]), // tidn,
|
|
.mpw1_b(mpw1_b[4]), // tidn,
|
|
.mpw2_b(mpw2_b[0]), // tidn,
|
|
.vd(vdd),
|
|
.gd(gnd),
|
|
.clk(clk),
|
|
.rst(rst),
|
|
.thold_b(thold_0_b),
|
|
.sg(sg_0),
|
|
.act(ex4_act),
|
|
.scout(ex5_iexp_so),
|
|
.scin(ex5_iexp_si),
|
|
//-----------------
|
|
.din({ ex4_sp,
|
|
ex4_iexp[1:13],
|
|
ex4_may_ovf,
|
|
f_pic_ex4_sel_est}),
|
|
//-----------------
|
|
.dout({ ex5_sp, //LAT--
|
|
ex5_i_exp[1:13], //LAT--
|
|
ex5_may_ovf, //LAT--
|
|
ex5_sel_est}) //LAT--
|
|
);
|
|
|
|
assign f_eov_ex5_may_ovf = ex5_may_ovf;
|
|
|
|
////##############################################
|
|
////# EX5 logic
|
|
////##############################################
|
|
|
|
////#-------------------------------------------
|
|
////# ue1oe1 constant
|
|
////#-------------------------------------------
|
|
// need to know constant (sp/dp +/-192 +/-1536 )
|
|
// +1536 11000 UNF
|
|
// -1536 01000 OVF
|
|
// +192 00011 UNF
|
|
// -192 11101 OVF
|
|
|
|
assign ex5_ue1oe1_k[3] = ((~ex5_may_ovf) & (~ex5_sp)) | (ex5_may_ovf & ex5_sp);
|
|
|
|
assign ex5_ue1oe1_k[4] = ((~ex5_sp)) | (ex5_may_ovf & ex5_sp);
|
|
|
|
assign ex5_ue1oe1_k[5] = (ex5_may_ovf & ex5_sp);
|
|
|
|
assign ex5_ue1oe1_k[6] = ((~ex5_may_ovf) & ex5_sp);
|
|
assign ex5_ue1oe1_k[7] = (ex5_sp);
|
|
|
|
////#-------------------------------------------
|
|
////# subtract the lza (lza is an early signal)
|
|
////#-------------------------------------------
|
|
// rnd_up=0 extra=1 +0-1 = -1
|
|
// rnd_up=0 extra=0 +0-0 = -0
|
|
// rnd_up=1 extra=1 +1-1 = -0
|
|
// rnd_up=1 extra=0 +1-0 = +1
|
|
//
|
|
// (a - b) = a + !b + 1
|
|
// (a - b) -1 = a + !b
|
|
//
|
|
// need to calculate (A+!B), (A+!B+1), (A+!B+2)
|
|
// calculate lower 2 bits (A+!B) then determine the co for the 3 seperate cases
|
|
// compound add the upper bits (ci=0) (ci+1), then use the lower cases to select the combinations
|
|
//
|
|
|
|
// sort of 3:2 compresor to make room for extra carry for +1 +2;
|
|
|
|
assign ex5_lza_amt_b[0:7] = (~f_lza_ex5_lza_amt_eov[0:7]);
|
|
assign ex5_lza_amt[0:7] = f_lza_ex5_lza_amt_eov[0:7];
|
|
assign ex5_sh_rgt_en_b = (~f_lza_ex5_sh_rgt_en_eov);
|
|
|
|
// ex5_lzasub_sum( 0) <= ex5_sh_rgt_en_b xor ex5_i_exp( 1);
|
|
assign ex5_lzasub_sum[1] = ex5_sh_rgt_en_b ^ ex5_i_exp[1];
|
|
assign ex5_lzasub_sum[2] = ex5_sh_rgt_en_b ^ ex5_i_exp[2];
|
|
assign ex5_lzasub_sum[3] = ex5_sh_rgt_en_b ^ ex5_i_exp[3];
|
|
assign ex5_lzasub_sum[4] = ex5_sh_rgt_en_b ^ ex5_i_exp[4];
|
|
assign ex5_lzasub_sum[5] = ex5_sh_rgt_en_b ^ ex5_i_exp[5];
|
|
assign ex5_lzasub_sum[6] = ex5_lza_amt_b[0] ^ ex5_i_exp[6];
|
|
assign ex5_lzasub_sum[7] = ex5_lza_amt_b[1] ^ ex5_i_exp[7];
|
|
assign ex5_lzasub_sum[8] = ex5_lza_amt_b[2] ^ ex5_i_exp[8];
|
|
assign ex5_lzasub_sum[9] = ex5_lza_amt_b[3] ^ ex5_i_exp[9];
|
|
assign ex5_lzasub_sum[10] = ex5_lza_amt_b[4] ^ ex5_i_exp[10];
|
|
assign ex5_lzasub_sum[11] = ex5_lza_amt_b[5] ^ ex5_i_exp[11];
|
|
assign ex5_lzasub_sum[12] = ex5_lza_amt_b[6] ^ ex5_i_exp[12];
|
|
assign ex5_lzasub_sum[13] = (~(ex5_lza_amt_b[7] ^ ex5_i_exp[13])); //!!!!!!!! +1 for negation
|
|
|
|
// ex5_lzasub_car( 0) <= ex5_sh_rgt_en_b and ex5_i_exp( 1);
|
|
assign ex5_lzasub_car[1] = ex5_sh_rgt_en_b & ex5_i_exp[2];
|
|
assign ex5_lzasub_car[2] = ex5_sh_rgt_en_b & ex5_i_exp[3];
|
|
assign ex5_lzasub_car[3] = ex5_sh_rgt_en_b & ex5_i_exp[4];
|
|
assign ex5_lzasub_car[4] = ex5_sh_rgt_en_b & ex5_i_exp[5];
|
|
assign ex5_lzasub_car[5] = ex5_lza_amt_b[0] & ex5_i_exp[6];
|
|
assign ex5_lzasub_car[6] = ex5_lza_amt_b[1] & ex5_i_exp[7];
|
|
assign ex5_lzasub_car[7] = ex5_lza_amt_b[2] & ex5_i_exp[8];
|
|
assign ex5_lzasub_car[8] = ex5_lza_amt_b[3] & ex5_i_exp[9];
|
|
assign ex5_lzasub_car[9] = ex5_lza_amt_b[4] & ex5_i_exp[10];
|
|
assign ex5_lzasub_car[10] = ex5_lza_amt_b[5] & ex5_i_exp[11];
|
|
assign ex5_lzasub_car[11] = ex5_lza_amt_b[6] & ex5_i_exp[12];
|
|
assign ex5_lzasub_car[12] = ex5_lza_amt_b[7] | ex5_i_exp[13]; //!!!!!! +1 for negation
|
|
|
|
assign ex5_lzasub_p[1:12] = ex5_lzasub_car[1:12] ^ ex5_lzasub_sum[1:12];
|
|
assign ex5_lzasub_t[2:12] = ex5_lzasub_car[2:12] | ex5_lzasub_sum[2:12];
|
|
assign ex5_lzasub_g[2:12] = ex5_lzasub_car[2:12] & ex5_lzasub_sum[2:12];
|
|
|
|
////##------------------------------
|
|
////##-- add the 2 lower bits for the different conditions (+0,+1.+2)
|
|
////##------------------------------
|
|
|
|
assign ex5_lzasub_m1_c12 = ex5_lzasub_g[12];
|
|
assign ex5_lzasub_p0_c12 = ex5_lzasub_g[12] | (ex5_lzasub_t[12] & ex5_lzasub_sum[13]);
|
|
assign ex5_lzasub_p1_c12 = ex5_lzasub_t[12];
|
|
|
|
assign ex5_lzasub_m1[13] = ex5_lzasub_sum[13]; //LSB is done +0
|
|
assign ex5_lzasub_p0[13] = (~ex5_lzasub_sum[13]); //LSB is done +1
|
|
assign ex5_lzasub_p1[13] = ex5_lzasub_sum[13]; //LSB is done +2
|
|
|
|
assign ex5_lzasub_m1[12] = ex5_lzasub_p[12]; // +0
|
|
assign ex5_lzasub_p0[12] = ex5_lzasub_p[12] ^ ex5_lzasub_sum[13]; // +1
|
|
assign ex5_lzasub_p1[12] = (~ex5_lzasub_p[12]); // +2
|
|
|
|
////##-----------------------------------
|
|
////## the conditional carry chain (+ci,-ci)
|
|
////##-----------------------------------
|
|
|
|
assign ex5_lzasub_gg02[11] = ex5_lzasub_g[11];
|
|
assign ex5_lzasub_gg02[10] = ex5_lzasub_g[10] | (ex5_lzasub_t[10] & ex5_lzasub_g[11]); //final
|
|
assign ex5_lzasub_gg02[9] = ex5_lzasub_g[9] | (ex5_lzasub_t[9] & ex5_lzasub_g[10]);
|
|
assign ex5_lzasub_gg02[8] = ex5_lzasub_g[8] | (ex5_lzasub_t[8] & ex5_lzasub_g[9]);
|
|
assign ex5_lzasub_gg02[7] = ex5_lzasub_g[7] | (ex5_lzasub_t[7] & ex5_lzasub_g[8]);
|
|
assign ex5_lzasub_gg02[6] = ex5_lzasub_g[6] | (ex5_lzasub_t[6] & ex5_lzasub_g[7]);
|
|
assign ex5_lzasub_gg02[5] = ex5_lzasub_g[5] | (ex5_lzasub_t[5] & ex5_lzasub_g[6]);
|
|
assign ex5_lzasub_gg02[4] = ex5_lzasub_g[4] | (ex5_lzasub_t[4] & ex5_lzasub_g[5]);
|
|
assign ex5_lzasub_gg02[3] = ex5_lzasub_g[3] | (ex5_lzasub_t[3] & ex5_lzasub_g[4]);
|
|
assign ex5_lzasub_gg02[2] = ex5_lzasub_g[2] | (ex5_lzasub_t[2] & ex5_lzasub_g[3]);
|
|
|
|
assign ex5_lzasub_gt02[11] = ex5_lzasub_t[11];
|
|
assign ex5_lzasub_gt02[10] = ex5_lzasub_g[10] | (ex5_lzasub_t[10] & ex5_lzasub_t[11]); //final
|
|
assign ex5_lzasub_gt02[9] = (ex5_lzasub_t[9] & ex5_lzasub_t[10]);
|
|
assign ex5_lzasub_gt02[8] = (ex5_lzasub_t[8] & ex5_lzasub_t[9]);
|
|
assign ex5_lzasub_gt02[7] = (ex5_lzasub_t[7] & ex5_lzasub_t[8]);
|
|
assign ex5_lzasub_gt02[6] = (ex5_lzasub_t[6] & ex5_lzasub_t[7]);
|
|
assign ex5_lzasub_gt02[5] = (ex5_lzasub_t[5] & ex5_lzasub_t[6]);
|
|
assign ex5_lzasub_gt02[4] = (ex5_lzasub_t[4] & ex5_lzasub_t[5]);
|
|
assign ex5_lzasub_gt02[3] = (ex5_lzasub_t[3] & ex5_lzasub_t[4]);
|
|
assign ex5_lzasub_gt02[2] = (ex5_lzasub_t[2] & ex5_lzasub_t[3]);
|
|
|
|
assign ex5_lzasub_gg04[11] = ex5_lzasub_gg02[11];
|
|
assign ex5_lzasub_gg04[10] = ex5_lzasub_gg02[10];
|
|
assign ex5_lzasub_gg04[9] = ex5_lzasub_gg02[9] | (ex5_lzasub_gt02[9] & ex5_lzasub_gg02[11]); //final
|
|
assign ex5_lzasub_gg04[8] = ex5_lzasub_gg02[8] | (ex5_lzasub_gt02[8] & ex5_lzasub_gg02[10]); //final
|
|
assign ex5_lzasub_gg04[7] = ex5_lzasub_gg02[7] | (ex5_lzasub_gt02[7] & ex5_lzasub_gg02[9]);
|
|
assign ex5_lzasub_gg04[6] = ex5_lzasub_gg02[6] | (ex5_lzasub_gt02[6] & ex5_lzasub_gg02[8]);
|
|
assign ex5_lzasub_gg04[5] = ex5_lzasub_gg02[5] | (ex5_lzasub_gt02[5] & ex5_lzasub_gg02[7]);
|
|
assign ex5_lzasub_gg04[4] = ex5_lzasub_gg02[4] | (ex5_lzasub_gt02[4] & ex5_lzasub_gg02[6]);
|
|
assign ex5_lzasub_gg04[3] = ex5_lzasub_gg02[3] | (ex5_lzasub_gt02[3] & ex5_lzasub_gg02[5]);
|
|
assign ex5_lzasub_gg04[2] = ex5_lzasub_gg02[2] | (ex5_lzasub_gt02[2] & ex5_lzasub_gg02[4]);
|
|
|
|
assign ex5_lzasub_gt04[11] = ex5_lzasub_gt02[11];
|
|
assign ex5_lzasub_gt04[10] = ex5_lzasub_gt02[10];
|
|
assign ex5_lzasub_gt04[9] = ex5_lzasub_gg02[9] | (ex5_lzasub_gt02[9] & ex5_lzasub_gt02[11]); //final
|
|
assign ex5_lzasub_gt04[8] = ex5_lzasub_gg02[8] | (ex5_lzasub_gt02[8] & ex5_lzasub_gt02[10]); //final
|
|
assign ex5_lzasub_gt04[7] = (ex5_lzasub_gt02[7] & ex5_lzasub_gt02[9]);
|
|
assign ex5_lzasub_gt04[6] = (ex5_lzasub_gt02[6] & ex5_lzasub_gt02[8]);
|
|
assign ex5_lzasub_gt04[5] = (ex5_lzasub_gt02[5] & ex5_lzasub_gt02[7]);
|
|
assign ex5_lzasub_gt04[4] = (ex5_lzasub_gt02[4] & ex5_lzasub_gt02[6]);
|
|
assign ex5_lzasub_gt04[3] = (ex5_lzasub_gt02[3] & ex5_lzasub_gt02[5]);
|
|
assign ex5_lzasub_gt04[2] = (ex5_lzasub_gt02[2] & ex5_lzasub_gt02[4]);
|
|
|
|
assign ex5_lzasub_gg08[11] = ex5_lzasub_gg04[11];
|
|
assign ex5_lzasub_gg08[10] = ex5_lzasub_gg04[10];
|
|
assign ex5_lzasub_gg08[9] = ex5_lzasub_gg04[9];
|
|
assign ex5_lzasub_gg08[8] = ex5_lzasub_gg04[8];
|
|
assign ex5_lzasub_gg08[7] = ex5_lzasub_gg04[7] | (ex5_lzasub_gt04[7] & ex5_lzasub_gg04[11]); //final
|
|
assign ex5_lzasub_gg08[6] = ex5_lzasub_gg04[6] | (ex5_lzasub_gt04[6] & ex5_lzasub_gg04[10]); //final
|
|
assign ex5_lzasub_gg08[5] = ex5_lzasub_gg04[5] | (ex5_lzasub_gt04[5] & ex5_lzasub_gg04[9]); //final
|
|
assign ex5_lzasub_gg08[4] = ex5_lzasub_gg04[4] | (ex5_lzasub_gt04[4] & ex5_lzasub_gg04[8]); //final
|
|
assign ex5_lzasub_gg08[3] = ex5_lzasub_gg04[3] | (ex5_lzasub_gt04[3] & ex5_lzasub_gg04[7]);
|
|
assign ex5_lzasub_gg08[2] = ex5_lzasub_gg04[2] | (ex5_lzasub_gt04[2] & ex5_lzasub_gg04[6]);
|
|
|
|
assign ex5_lzasub_gt08[11] = ex5_lzasub_gt04[11];
|
|
assign ex5_lzasub_gt08[10] = ex5_lzasub_gt04[10];
|
|
assign ex5_lzasub_gt08[9] = ex5_lzasub_gt04[9];
|
|
assign ex5_lzasub_gt08[8] = ex5_lzasub_gt04[8];
|
|
assign ex5_lzasub_gt08[7] = ex5_lzasub_gg04[7] | (ex5_lzasub_gt04[7] & ex5_lzasub_gt04[11]); //final
|
|
assign ex5_lzasub_gt08[6] = ex5_lzasub_gg04[6] | (ex5_lzasub_gt04[6] & ex5_lzasub_gt04[10]); //final
|
|
assign ex5_lzasub_gt08[5] = ex5_lzasub_gg04[5] | (ex5_lzasub_gt04[5] & ex5_lzasub_gt04[9]); //final
|
|
assign ex5_lzasub_gt08[4] = ex5_lzasub_gg04[4] | (ex5_lzasub_gt04[4] & ex5_lzasub_gt04[8]); //final
|
|
assign ex5_lzasub_gt08[3] = (ex5_lzasub_gt04[3] & ex5_lzasub_gt04[7]);
|
|
assign ex5_lzasub_gt08[2] = (ex5_lzasub_gt04[2] & ex5_lzasub_gt04[6]);
|
|
|
|
assign ex5_lzasub_c0[11] = ex5_lzasub_gg08[11];
|
|
assign ex5_lzasub_c0[10] = ex5_lzasub_gg08[10];
|
|
assign ex5_lzasub_c0[9] = ex5_lzasub_gg08[9];
|
|
assign ex5_lzasub_c0[8] = ex5_lzasub_gg08[8];
|
|
assign ex5_lzasub_c0[7] = ex5_lzasub_gg08[7];
|
|
assign ex5_lzasub_c0[6] = ex5_lzasub_gg08[6];
|
|
assign ex5_lzasub_c0[5] = ex5_lzasub_gg08[5];
|
|
assign ex5_lzasub_c0[4] = ex5_lzasub_gg08[4];
|
|
assign ex5_lzasub_c0[3] = ex5_lzasub_gg08[3] | (ex5_lzasub_gt08[3] & ex5_lzasub_gg08[11]); //final
|
|
assign ex5_lzasub_c0[2] = ex5_lzasub_gg08[2] | (ex5_lzasub_gt08[2] & ex5_lzasub_gg08[10]); //final
|
|
|
|
assign ex5_lzasub_c1[11] = ex5_lzasub_gt08[11];
|
|
assign ex5_lzasub_c1[10] = ex5_lzasub_gt08[10];
|
|
assign ex5_lzasub_c1[9] = ex5_lzasub_gt08[9];
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|
assign ex5_lzasub_c1[8] = ex5_lzasub_gt08[8];
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|
assign ex5_lzasub_c1[7] = ex5_lzasub_gt08[7];
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|
assign ex5_lzasub_c1[6] = ex5_lzasub_gt08[6];
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|
assign ex5_lzasub_c1[5] = ex5_lzasub_gt08[5];
|
|
assign ex5_lzasub_c1[4] = ex5_lzasub_gt08[4];
|
|
assign ex5_lzasub_c1[3] = ex5_lzasub_gg08[3] | (ex5_lzasub_gt08[3] & ex5_lzasub_gt08[11]); //final
|
|
assign ex5_lzasub_c1[2] = ex5_lzasub_gg08[2] | (ex5_lzasub_gt08[2] & ex5_lzasub_gt08[10]); //final
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|
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|
assign ex5_lzasub_s0[1:11] = ex5_lzasub_p[1:11] ^ ({ex5_lzasub_c0[2:11], tidn});
|
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assign ex5_lzasub_s1[1:11] = ex5_lzasub_p[1:11] ^ ({ex5_lzasub_c1[2:11], tiup});
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|
assign ex5_lzasub_m1[1:11] = (ex5_lzasub_s0[1:11] & {11{(~ex5_lzasub_m1_c12)}}) |
|
|
(ex5_lzasub_s1[1:11] & {11{ex5_lzasub_m1_c12}});
|
|
|
|
assign ex5_lzasub_p0[1:11] = (ex5_lzasub_s0[1:11] & {11{(~ex5_lzasub_p0_c12)}}) |
|
|
(ex5_lzasub_s1[1:11] & {11{ex5_lzasub_p0_c12}});
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|
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assign ex5_lzasub_p1[1:11] = (ex5_lzasub_s0[1:11] & {11{(~ex5_lzasub_p1_c12)}}) |
|
|
(ex5_lzasub_s1[1:11] & {11{ex5_lzasub_p1_c12}});
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////#-------------------------------------------
|
|
////# determine overflow (expo bias = 1023, with signed bit)
|
|
////#-------------------------------------------
|
|
//
|
|
// dp overflow: ge 2047 = 2047 ge 2047
|
|
// sp overflow: ge 255 + 896 = 1151 ge 1151
|
|
//
|
|
// using expo_m1 as the base:
|
|
// m1 p0 p1
|
|
// dp ovf: ge 2047 ge 2046 ge 2045
|
|
// sp ovf: ge 1151 ge 1150 ge 1149
|
|
//
|
|
// could just do the subtract, then decode the result. (triple compound add becomes critical).
|
|
// doingg compare before the add (faster)
|
|
//
|
|
// 2047 0_0111_1111_1111
|
|
// 1151 0_0100_0111_1111
|
|
//
|
|
// 0 0000 0000 1111
|
|
// 1 2345 6789 0123
|
|
//
|
|
//-------------------------------
|
|
// 0_01dd_d111_1111 (minimum)
|
|
// 1_10ss_s000_0000 !(minimum)
|
|
// 1_10ss_s000_0001 -(minimum)
|
|
// 1_10ss_s000_0010 BOUNDRY +1 for -lza = !lza+1
|
|
// 1_11 add the lza sign xtd
|
|
//--------------------------------
|
|
//- 1_01ss_s000_0100
|
|
//--------------------------------
|
|
// overflow if (iexp-lza) >= 2047
|
|
// overflow if (iexp-lza) - 2047 >= 0
|
|
// POSITIVE result means overflow.
|
|
// NEGATIVE result means no overflow.
|
|
|
|
assign ex5_ovf_sum[1] = ex5_sh_rgt_en_b ^ (~ex5_i_exp[1]); // 1 !R [1]
|
|
assign ex5_ovf_sum[2] = ex5_sh_rgt_en_b ^ (~ex5_i_exp[2]); // 1 !R [2]
|
|
assign ex5_ovf_sum[3] = ex5_sh_rgt_en_b ^ ex5_i_exp[3]; // 0 !R [3]
|
|
assign ex5_ovf_sum[4] = ex5_sh_rgt_en_b ^ ex5_i_exp[4] ^ ex5_sp; // s !R [4]
|
|
assign ex5_ovf_sum[5] = ex5_sh_rgt_en_b ^ ex5_i_exp[5] ^ ex5_sp; // s !R [5]
|
|
assign ex5_ovf_sum[6] = (~ex5_lza_amt[0]) ^ ex5_i_exp[6] ^ ex5_sp; // s ![0] [6]
|
|
assign ex5_ovf_sum[7] = (~ex5_lza_amt[1]) ^ ex5_i_exp[7]; // 0 ![1] [7]
|
|
assign ex5_ovf_sum[8] = (~ex5_lza_amt[2]) ^ ex5_i_exp[8]; // 0 ![2] [8]
|
|
assign ex5_ovf_sum[9] = (~ex5_lza_amt[3]) ^ ex5_i_exp[9]; // 0 ![3] [9]
|
|
assign ex5_ovf_sum[10] = (~ex5_lza_amt[4]) ^ ex5_i_exp[10]; // 0 ![4] [10]
|
|
assign ex5_ovf_sum[11] = (~ex5_lza_amt[5]) ^ ex5_i_exp[11]; // 0 ![5] [11]
|
|
assign ex5_ovf_sum[12] = (~ex5_lza_amt[6]) ^ (~ex5_i_exp[12]); // 1 ![6] [12]
|
|
assign ex5_ovf_sum[13] = (~ex5_lza_amt[7]) ^ ex5_i_exp[13]; // 0 ![7] [13]
|
|
|
|
assign ex5_ovf_car[1] = ex5_sh_rgt_en_b | ex5_i_exp[2]; // 1 !R [2]
|
|
assign ex5_ovf_car[2] = ex5_sh_rgt_en_b & ex5_i_exp[3]; // 0 !R [3]
|
|
|
|
assign ex5_ovf_car[3] = (ex5_sp & ex5_i_exp[4]) | (ex5_sh_rgt_en_b & ex5_i_exp[4]) | (ex5_sh_rgt_en_b & ex5_sp); // s !R [4]
|
|
|
|
assign ex5_ovf_car[4] = (ex5_sp & ex5_i_exp[5]) | (ex5_sh_rgt_en_b & ex5_i_exp[5]) | (ex5_sh_rgt_en_b & ex5_sp); // s !R [5]
|
|
|
|
assign ex5_ovf_car[5] = ((~ex5_lza_amt[0]) & ex5_i_exp[6]) | ((~ex5_lza_amt[0]) & ex5_sp) | (ex5_sp & ex5_i_exp[6]); // s ![0] [6]
|
|
assign ex5_ovf_car[6] = (~ex5_lza_amt[1]) & ex5_i_exp[7]; // 0 ![1] [7]
|
|
assign ex5_ovf_car[7] = (~ex5_lza_amt[2]) & ex5_i_exp[8]; // 0 ![2] [8]
|
|
assign ex5_ovf_car[8] = (~ex5_lza_amt[3]) & ex5_i_exp[9]; // 0 ![3] [9]
|
|
assign ex5_ovf_car[9] = (~ex5_lza_amt[4]) & ex5_i_exp[10]; // 0 ![4] [10]
|
|
assign ex5_ovf_car[10] = (~ex5_lza_amt[5]) & ex5_i_exp[11]; // 0 ![5] [11]
|
|
assign ex5_ovf_car[11] = (~ex5_lza_amt[6]) | ex5_i_exp[12]; // 1 ![6] [12]
|
|
assign ex5_ovf_car[12] = (~ex5_lza_amt[7]) & ex5_i_exp[13]; // 0 ![7] [13]
|
|
|
|
assign ex5_ovf_g[2:12] = ex5_ovf_car[2:12] & ex5_ovf_sum[2:12];
|
|
assign ex5_ovf_t[2:12] = ex5_ovf_car[2:12] | ex5_ovf_sum[2:12];
|
|
assign ex5_ovf_p[1] = ex5_ovf_car[1] ^ ex5_ovf_sum[1];
|
|
|
|
// lower bits (compute 3 possible combinations)
|
|
|
|
assign ex5_ovf_m1_co12 = ex5_ovf_g[12];
|
|
assign ex5_ovf_p0_co12 = ex5_ovf_g[12] | (ex5_ovf_t[12] & ex5_ovf_sum[13]);
|
|
assign ex5_ovf_p1_co12 = ex5_ovf_t[12];
|
|
|
|
// upper bits (compute 2 possible combinations)
|
|
|
|
assign ex5_ovf_g2_02t03 = ex5_ovf_g[2] | (ex5_ovf_t[2] & ex5_ovf_g[3]);
|
|
assign ex5_ovf_g2_04t05 = ex5_ovf_g[4] | (ex5_ovf_t[4] & ex5_ovf_g[5]);
|
|
assign ex5_ovf_g2_06t07 = ex5_ovf_g[6] | (ex5_ovf_t[6] & ex5_ovf_g[7]);
|
|
assign ex5_ovf_g2_08t09 = ex5_ovf_g[8] | (ex5_ovf_t[8] & ex5_ovf_g[9]);
|
|
assign ex5_ovf_g2_ci0 = ex5_ovf_g[10] | (ex5_ovf_t[10] & ex5_ovf_g[11]);
|
|
assign ex5_ovf_g2_ci1 = ex5_ovf_g[10] | (ex5_ovf_t[10] & ex5_ovf_t[11]);
|
|
|
|
assign ex5_ovf_t2_02t03 = (ex5_ovf_t[2] & ex5_ovf_t[3]);
|
|
assign ex5_ovf_t2_04t05 = (ex5_ovf_t[4] & ex5_ovf_t[5]);
|
|
assign ex5_ovf_t2_06t07 = (ex5_ovf_t[6] & ex5_ovf_t[7]);
|
|
assign ex5_ovf_t2_08t09 = (ex5_ovf_t[8] & ex5_ovf_t[9]);
|
|
|
|
assign ex5_ovf_g4_02t05 = ex5_ovf_g2_02t03 | (ex5_ovf_t2_02t03 & ex5_ovf_g2_04t05);
|
|
assign ex5_ovf_g4_06t09 = ex5_ovf_g2_06t07 | (ex5_ovf_t2_06t07 & ex5_ovf_g2_08t09);
|
|
assign ex5_ovf_g4_ci0 = ex5_ovf_g2_ci0;
|
|
assign ex5_ovf_g4_ci1 = ex5_ovf_g2_ci1;
|
|
|
|
assign ex5_ovf_t4_02t05 = (ex5_ovf_t2_02t03 & ex5_ovf_t2_04t05);
|
|
assign ex5_ovf_t4_06t09 = (ex5_ovf_t2_06t07 & ex5_ovf_t2_08t09);
|
|
|
|
assign ex5_ovf_g8_02t09 = ex5_ovf_g4_02t05 | (ex5_ovf_t4_02t05 & ex5_ovf_g4_06t09);
|
|
assign ex5_ovf_g8_ci0 = ex5_ovf_g4_ci0;
|
|
assign ex5_ovf_g8_ci1 = ex5_ovf_g4_ci1;
|
|
|
|
assign ex5_ovf_t8_02t09 = (ex5_ovf_t4_02t05 & ex5_ovf_t4_06t09);
|
|
|
|
assign ex5_ovf_ci0_02t11 = ex5_ovf_g8_02t09 | (ex5_ovf_t8_02t09 & ex5_ovf_g8_ci0);
|
|
assign ex5_ovf_ci1_02t11 = ex5_ovf_g8_02t09 | (ex5_ovf_t8_02t09 & ex5_ovf_g8_ci1);
|
|
|
|
// 13 BITS HOLDS EVERYTHING -- positive result means overflow
|
|
assign ex5_c2_m1 = (ex5_ovf_ci0_02t11 | (ex5_ovf_ci1_02t11 & ex5_ovf_m1_co12));
|
|
assign ex5_c2_p0 = (ex5_ovf_ci0_02t11 | (ex5_ovf_ci1_02t11 & ex5_ovf_p0_co12));
|
|
assign ex5_c2_p1 = (ex5_ovf_ci0_02t11 | (ex5_ovf_ci1_02t11 & ex5_ovf_p1_co12));
|
|
|
|
assign ex5_ovf_m1 = (~ex5_ovf_p[1]) ^ ex5_c2_m1;
|
|
assign ex5_ovf_p0 = (~ex5_ovf_p[1]) ^ ex5_c2_p0;
|
|
assign ex5_ovf_p1 = (~ex5_ovf_p[1]) ^ ex5_c2_p1;
|
|
|
|
////#-------------------------------------------
|
|
////# determine underflow (expo bias = 1023, with signed bit)
|
|
////#-------------------------------------------
|
|
// dp underflow: le 0 = le 0 => !ge 1
|
|
// sp underflow: le 0 + 896 = le 896 => !ge 897
|
|
//
|
|
// if the exponent will be incremented (then there are less overflows).
|
|
// just need for m1, p0 because underflow is determined before rounding.
|
|
// if there is an underflow exception it cannot round up the exponent.
|
|
// m1 p0
|
|
// dp unf: !ge 1 !ge 0
|
|
// sp unf: !ge 897 !ge 896
|
|
//
|
|
// 1 0_0000_0000_0001 dp: 0_0000_0000_0001 sp: 0_0011_1000_0001 emin
|
|
// 0 0_0000_0000_0000 1_1111_1111_1110 1_1100_0111_1110 !emin
|
|
// 1_1111_1111_1111 1_1100_0111_1111 -emin
|
|
// 0 0000 0000 1111 0_0000_0000_0000 1_1100_1000_0000 <= +1 -lza=!lza+1
|
|
// 1 2345 6789 0123
|
|
//
|
|
// 897 0_0011_1000_0001
|
|
// 896 0_0011_1000_0000
|
|
//-------------------------------
|
|
// if (exp-lza) >= emin NO_UNDERFLOW
|
|
// if (exp-lza) - emin >= 0 UNDERFLOW {sign bit = "1"}
|
|
|
|
assign ex5_unf_sum[1] = ex5_sh_rgt_en_b ^ ex5_i_exp[1] ^ ex5_sp; // s !R [1]
|
|
assign ex5_unf_sum[2] = ex5_sh_rgt_en_b ^ ex5_i_exp[2] ^ ex5_sp; // s !R [2]
|
|
assign ex5_unf_sum[3] = ex5_sh_rgt_en_b ^ ex5_i_exp[3] ^ ex5_sp; // s !R [3]
|
|
assign ex5_unf_sum[4] = ex5_sh_rgt_en_b ^ ex5_i_exp[4]; // 0 !R [4]
|
|
assign ex5_unf_sum[5] = ex5_sh_rgt_en_b ^ ex5_i_exp[5]; // 0 !R [5]
|
|
assign ex5_unf_sum[6] = (~ex5_lza_amt[0]) ^ ex5_i_exp[6] ^ ex5_sp; // s ![0] [6]
|
|
assign ex5_unf_sum[7] = (~ex5_lza_amt[1]) ^ ex5_i_exp[7]; // 0 ![1] [7]
|
|
assign ex5_unf_sum[8] = (~ex5_lza_amt[2]) ^ ex5_i_exp[8]; // 0 ![2] [8]
|
|
assign ex5_unf_sum[9] = (~ex5_lza_amt[3]) ^ ex5_i_exp[9]; // 0 ![3] [9]
|
|
assign ex5_unf_sum[10] = (~ex5_lza_amt[4]) ^ ex5_i_exp[10]; // 0 ![4] [10]
|
|
assign ex5_unf_sum[11] = (~ex5_lza_amt[5]) ^ ex5_i_exp[11]; // 0 ![5] [11]
|
|
assign ex5_unf_sum[12] = (~ex5_lza_amt[6]) ^ ex5_i_exp[12]; // 0 ![6] [12]
|
|
assign ex5_unf_sum[13] = (~ex5_lza_amt[7]) ^ ex5_i_exp[13]; // 0 ![7] [13]
|
|
|
|
assign ex5_unf_car[1] = (ex5_sp & ex5_i_exp[2]) | (ex5_sh_rgt_en_b & ex5_i_exp[2]) | (ex5_sh_rgt_en_b & ex5_sp); // s !R [2]
|
|
assign ex5_unf_car[2] = (ex5_sp & ex5_i_exp[3]) | (ex5_sh_rgt_en_b & ex5_i_exp[3]) | (ex5_sh_rgt_en_b & ex5_sp); // s !R [3]
|
|
assign ex5_unf_car[3] = ex5_sh_rgt_en_b & ex5_i_exp[4]; // 0 !R [4]
|
|
assign ex5_unf_car[4] = ex5_sh_rgt_en_b & ex5_i_exp[5]; // 0 !R [5]
|
|
assign ex5_unf_car[5] = ((~ex5_lza_amt[0]) & ex5_i_exp[6]) | ((~ex5_lza_amt[0]) & ex5_sp) | (ex5_sp & ex5_i_exp[6]); // s ![0] [6]
|
|
assign ex5_unf_car[6] = (~ex5_lza_amt[1]) & ex5_i_exp[7]; // 0 ![1] [7]
|
|
assign ex5_unf_car[7] = (~ex5_lza_amt[2]) & ex5_i_exp[8]; // 0 ![2] [8]
|
|
assign ex5_unf_car[8] = (~ex5_lza_amt[3]) & ex5_i_exp[9]; // 0 ![3] [9]
|
|
assign ex5_unf_car[9] = (~ex5_lza_amt[4]) & ex5_i_exp[10]; // 0 ![4] [10]
|
|
assign ex5_unf_car[10] = (~ex5_lza_amt[5]) & ex5_i_exp[11]; // 0 ![5] [11]
|
|
assign ex5_unf_car[11] = (~ex5_lza_amt[6]) & ex5_i_exp[12]; // 0 ![6] [12]
|
|
assign ex5_unf_car[12] = (~ex5_lza_amt[7]) & ex5_i_exp[13]; // 0 ![7] [13]
|
|
|
|
assign ex5_unf_g[2:12] = ex5_unf_car[2:12] & ex5_unf_sum[2:12];
|
|
assign ex5_unf_t[2:12] = ex5_unf_car[2:12] | ex5_unf_sum[2:12];
|
|
assign ex5_unf_p[1] = ex5_unf_car[1] ^ ex5_unf_sum[1];
|
|
|
|
assign ex5_unf_m1_co12 = ex5_unf_g[12];
|
|
assign ex5_unf_p0_co12 = ex5_unf_g[12] | (ex5_unf_t[12] & ex5_unf_sum[13]);
|
|
|
|
assign ex5_unf_g2_02t03 = ex5_unf_g[2] | (ex5_unf_t[2] & ex5_unf_g[3]);
|
|
assign ex5_unf_g2_04t05 = ex5_unf_g[4] | (ex5_unf_t[4] & ex5_unf_g[5]);
|
|
assign ex5_unf_g2_06t07 = ex5_unf_g[6] | (ex5_unf_t[6] & ex5_unf_g[7]);
|
|
assign ex5_unf_g2_08t09 = ex5_unf_g[8] | (ex5_unf_t[8] & ex5_unf_g[9]);
|
|
assign ex5_unf_g2_10t11 = ex5_unf_g[10] | (ex5_unf_t[10] & ex5_unf_g[11]);
|
|
assign ex5_unf_ci0_g2 = ex5_unf_g[12];
|
|
assign ex5_unf_ci1_g2 = ex5_unf_t[12];
|
|
|
|
assign ex5_unf_t2_02t03 = (ex5_unf_t[2] & ex5_unf_t[3]);
|
|
assign ex5_unf_t2_04t05 = (ex5_unf_t[4] & ex5_unf_t[5]);
|
|
assign ex5_unf_t2_06t07 = (ex5_unf_t[6] & ex5_unf_t[7]);
|
|
assign ex5_unf_t2_08t09 = (ex5_unf_t[8] & ex5_unf_t[9]);
|
|
assign ex5_unf_t2_10t11 = (ex5_unf_t[10] & ex5_unf_t[11]);
|
|
assign ex5_unf_g4_02t05 = ex5_unf_g2_02t03 | (ex5_unf_t2_02t03 & ex5_unf_g2_04t05);
|
|
assign ex5_unf_g4_06t09 = ex5_unf_g2_06t07 | (ex5_unf_t2_06t07 & ex5_unf_g2_08t09);
|
|
assign ex5_unf_ci0_g4 = ex5_unf_g2_10t11 | (ex5_unf_t2_10t11 & ex5_unf_ci0_g2);
|
|
assign ex5_unf_ci1_g4 = ex5_unf_g2_10t11 | (ex5_unf_t2_10t11 & ex5_unf_ci1_g2);
|
|
|
|
assign ex5_unf_t4_02t05 = (ex5_unf_t2_02t03 & ex5_unf_t2_04t05);
|
|
assign ex5_unf_t4_06t09 = (ex5_unf_t2_06t07 & ex5_unf_t2_08t09);
|
|
|
|
assign ex5_unf_g8_02t09 = ex5_unf_g4_02t05 | (ex5_unf_t4_02t05 & ex5_unf_g4_06t09);
|
|
assign ex5_unf_ci0_g8 = ex5_unf_ci0_g4;
|
|
assign ex5_unf_ci1_g8 = ex5_unf_ci1_g4;
|
|
|
|
assign ex5_unf_t8_02t09 = (ex5_unf_t4_02t05 & ex5_unf_t4_06t09);
|
|
|
|
assign ex5_unf_ci0_02t11 = ex5_unf_g8_02t09 | (ex5_unf_t8_02t09 & ex5_unf_ci0_g8);
|
|
assign ex5_unf_ci1_02t11 = ex5_unf_g8_02t09 | (ex5_unf_t8_02t09 & ex5_unf_ci1_g8);
|
|
|
|
assign ex5_unf_c2_m1 = (ex5_unf_ci0_02t11 | (ex5_unf_ci1_02t11 & ex5_unf_m1_co12));
|
|
assign ex5_unf_c2_p0 = (ex5_unf_ci0_02t11 | (ex5_unf_ci1_02t11 & ex5_unf_p0_co12));
|
|
|
|
// 13 BITS HOLDS EVERYTHING (sign==1 {neg} means underflow)
|
|
assign ex5_unf_m1 = ex5_unf_p[1] ^ ex5_unf_c2_m1;
|
|
assign ex5_unf_p0 = ex5_unf_p[1] ^ ex5_unf_c2_p0;
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|
|
|
////#-----------------------------------
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////# adjust for the lza extra shift (late signal)
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|
////#-----------------------------------
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|
|
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// ex5_expo_p0(1 to 13) <=
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// (ex5_lzasub_m1(1 to 13) and (1 to 13 => f_nrm_ex5_extra_shift) ) or --sim-only
|
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// (ex5_lzasub_p0(1 to 13) and (1 to 13 => not f_nrm_ex5_extra_shift) ) ; --sim-only
|
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// ex5_expo_p1(1 to 13) <= --sim-only
|
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// (ex5_lzasub_p0(1 to 13) and (1 to 13 => f_nrm_ex5_extra_shift) ) or --sim-only
|
|
// (ex5_lzasub_p1(1 to 13) and (1 to 13 => not f_nrm_ex5_extra_shift) ) ; --sim-only
|
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// ex5_ovf_calc <= --sim-only
|
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// (ex5_ovf_m1 and f_nrm_ex5_extra_shift ) or --sim-only
|
|
// (ex5_ovf_p0 and not f_nrm_ex5_extra_shift ) ; --sim-only
|
|
// ex5_ovf_if_calc <= --sim-only
|
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// (ex5_ovf_p0 and f_nrm_ex5_extra_shift ) or --sim-only
|
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// (ex5_ovf_p1 and not f_nrm_ex5_extra_shift ) ; --sim-only
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// ex5_unf_calc <= -- for recip sp : do not zero out exponent ... let it go neg_sp (norm in dp range) --sim-only
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// (ex5_unf_m1 and f_nrm_ex5_extra_shift ) or --sim-only
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// (ex5_unf_p0 and not f_nrm_ex5_extra_shift ); --sim-only
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//
|
|
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assign ex5_expo_p0_0_b[1:13] = (~(ex5_lzasub_m1[1:13] & {13{f_nrm_ex5_extra_shift}}));
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assign ex5_expo_p0_1_b[1:13] = (~(ex5_lzasub_p0[1:13] & {13{(~f_nrm_ex5_extra_shift)}}));
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assign ex5_expo_p0[1:13] = (~(ex5_expo_p0_0_b[1:13] & ex5_expo_p0_1_b[1:13]));
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assign ex5_expo_p1_0_b[1:13] = (~(ex5_lzasub_p0[1:13] & {13{f_nrm_ex5_extra_shift}}));
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assign ex5_expo_p1_1_b[1:13] = (~(ex5_lzasub_p1[1:13] & {13{(~f_nrm_ex5_extra_shift)}}));
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assign ex5_expo_p1[1:13] = (~(ex5_expo_p1_0_b[1:13] & ex5_expo_p1_1_b[1:13]));
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assign ex5_ovf_calc_0_b = (~(ex5_ovf_m1 & f_nrm_ex5_extra_shift));
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assign ex5_ovf_calc_1_b = (~(ex5_ovf_p0 & (~f_nrm_ex5_extra_shift)));
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assign ex5_ovf_calc = (~(ex5_ovf_calc_0_b & ex5_ovf_calc_1_b));
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|
|
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assign ex5_ovf_if_calc_0_b = (~(ex5_ovf_p0 & f_nrm_ex5_extra_shift));
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assign ex5_ovf_if_calc_1_b = (~(ex5_ovf_p1 & (~f_nrm_ex5_extra_shift)));
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assign ex5_ovf_if_calc = (~(ex5_ovf_if_calc_0_b & ex5_ovf_if_calc_1_b));
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|
|
|
// for recip sp : do not zero out exponent ... let it go neg_sp (norm in dp range)
|
|
assign ex5_unf_calc_0_b = (~(ex5_unf_m1 & f_nrm_ex5_extra_shift));
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assign ex5_unf_calc_1_b = (~(ex5_unf_p0 & (~f_nrm_ex5_extra_shift)));
|
|
assign ex5_unf_calc = (~(ex5_unf_calc_0_b & ex5_unf_calc_1_b));
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|
|
|
assign ex5_est_sp = ex5_sel_est & ex5_sp;
|
|
|
|
assign ex5_unf_tbl = f_pic_ex5_uf_en & f_tbl_ex5_unf_expo;
|
|
assign ex5_unf_tbl_spec_e = (ex5_unf_tbl & (~ex5_est_sp) & (~f_pic_ex5_ue)) | ex5_sel_k_part_e;
|
|
assign ex5_ov_en = f_pic_ex5_ov_en;
|
|
assign ex5_ov_en_oe0 = f_pic_ex5_ov_en & (~f_pic_ex5_oe);
|
|
assign ex5_sel_ov_spec = f_pic_ex5_sel_ov_spec;
|
|
assign ex5_unf_en_nedge = f_pic_ex5_uf_en & (~f_lza_ex5_no_lza_edge);
|
|
assign ex5_unf_ue0_nestsp = f_pic_ex5_uf_en & (~f_lza_ex5_no_lza_edge) & (~f_pic_ex5_ue) & (~(ex5_est_sp));
|
|
assign ex5_sel_k_part_e = f_pic_ex5_spec_sel_k_e | f_pic_ex5_to_int_ov_all;
|
|
assign ex5_sel_k_part_f = f_pic_ex5_spec_sel_k_f | f_pic_ex5_to_int_ov_all;
|
|
|
|
////##############################################
|
|
////# EX6 latches <outputs>
|
|
////##############################################
|
|
|
|
tri_nand2_nlats #(.WIDTH(13), .NEEDS_SRESET(0)) ex6_urnd0_lat(
|
|
.vd(vdd),
|
|
.gd(gnd),
|
|
.clk(clk), // lclk.clk
|
|
.rst(rst),
|
|
.d1clk(ex6_d1clk),
|
|
.d2clk(ex6_d2clk),
|
|
.scanin(ex6_urnd0_si),
|
|
.scanout(ex6_urnd0_so),
|
|
.a1(ex5_expo_p0_0_b[1:13]),
|
|
.a2(ex5_expo_p0_1_b[1:13]),
|
|
.qb(ex6_expo_p0[1:13]) //LAT--
|
|
);
|
|
|
|
tri_nand2_nlats #(.WIDTH(13), .NEEDS_SRESET(0)) ex6_urnd1_lat(
|
|
.vd(vdd),
|
|
.gd(gnd),
|
|
.clk(clk), //lclk.clk
|
|
.rst(rst),
|
|
.d1clk(ex6_d1clk),
|
|
.d2clk(ex6_d2clk),
|
|
.scanin(ex6_urnd1_si),
|
|
.scanout(ex6_urnd1_so),
|
|
.a1(ex5_expo_p1_0_b[1:13]),
|
|
.a2(ex5_expo_p1_1_b[1:13]),
|
|
.qb(ex6_expo_p1[1:13]) //LAT--
|
|
);
|
|
|
|
tri_nand2_nlats #(.WIDTH(3), .NEEDS_SRESET(0)) ex6_ovctl_lat(
|
|
.vd(vdd),
|
|
.gd(gnd),
|
|
.clk(clk), //lclk.clk
|
|
.rst(rst),
|
|
.d1clk(ex6_d1clk),
|
|
.d2clk(ex6_d2clk),
|
|
.scanin(ex6_ovctl_si),
|
|
.scanout(ex6_ovctl_so),
|
|
//-----------------
|
|
.a1({ex5_ovf_calc_0_b,
|
|
ex5_ovf_if_calc_0_b,
|
|
ex5_unf_calc_0_b}),
|
|
//-----------------
|
|
.a2({ex5_ovf_calc_1_b,
|
|
ex5_ovf_if_calc_1_b,
|
|
ex5_unf_calc_1_b}),
|
|
//-----------------
|
|
.qb({ex6_ovf_calc, //LAT--
|
|
ex6_ovf_if_calc, //LAT--
|
|
ex6_unf_calc}) //LAT--
|
|
);
|
|
|
|
|
|
tri_rlmreg_p #(.WIDTH(13), .NEEDS_SRESET(0)) ex6_misc_lat(
|
|
.force_t(force_t), // tidn,
|
|
.d_mode(tiup),
|
|
.delay_lclkr(delay_lclkr[5]), // tidn,
|
|
.mpw1_b(mpw1_b[5]), // tidn,
|
|
.mpw2_b(mpw2_b[1]), // tidn,
|
|
.vd(vdd),
|
|
.gd(gnd),
|
|
.clk(clk),
|
|
.rst(rst),
|
|
.thold_b(thold_0_b),
|
|
.sg(sg_0),
|
|
.act(ex5_act),
|
|
.scout(ex6_misc_so),
|
|
.scin(ex6_misc_si),
|
|
//-----------------
|
|
.din({ ex5_unf_tbl,
|
|
ex5_unf_tbl_spec_e,
|
|
ex5_ov_en,
|
|
ex5_ov_en_oe0,
|
|
ex5_sel_ov_spec,
|
|
ex5_unf_en_nedge,
|
|
ex5_unf_ue0_nestsp,
|
|
ex5_sel_k_part_f,
|
|
ex5_ue1oe1_k[3:7]}),
|
|
//-----------------
|
|
.dout({ ex6_unf_tbl, //LAT--
|
|
ex6_unf_tbl_spec_e, //LAT--
|
|
ex6_ov_en, //LAT--
|
|
ex6_ov_en_oe0, //LAT--
|
|
ex6_sel_ov_spec, //LAT--
|
|
ex6_unf_en_nedge, //LAT--
|
|
ex6_unf_ue0_nestsp, //LAT--
|
|
ex6_sel_k_part_f, //LAT--
|
|
ex6_ue1oe1_k[3:7]}) //LAT--
|
|
);
|
|
|
|
////##############################################
|
|
////# EX6 logic
|
|
////##############################################
|
|
|
|
assign f_eov_ex6_expo_p0[1:13] = ex6_expo_p0[1:13]; ////#rnd result exponent
|
|
assign f_eov_ex6_expo_p1[1:13] = ex6_expo_p1[1:13]; ////#rnd result exponent if rnd_up_all1
|
|
|
|
////#-----------------------------------------
|
|
////# moved from ex5 to ex6 for timing
|
|
////#-----------------------------------------
|
|
|
|
//------- LEVEL 1 -----------------------------------
|
|
|
|
assign ex6_sel_ov_spec_b = (~(ex6_sel_ov_spec));
|
|
assign ex6_ovf_b = (~(ex6_ovf_calc & ex6_ov_en));
|
|
assign ex6_ovf_if_b = (~(ex6_ovf_if_calc & ex6_ov_en));
|
|
assign ex6_ovf_oe0_b = (~(ex6_ovf_calc & ex6_ov_en_oe0));
|
|
assign ex6_ovf_if_oe0_b = (~(ex6_ovf_if_calc & ex6_ov_en_oe0));
|
|
assign ex6_unf_b = (~(ex6_unf_calc & ex6_unf_en_nedge));
|
|
assign ex6_unf_ue0_b = (~(ex6_unf_calc & ex6_unf_ue0_nestsp));
|
|
assign ex6_sel_k_part_f_b = (~(ex6_sel_k_part_f));
|
|
assign ex6_unf_tbl_spec_e_b = (~(ex6_unf_tbl_spec_e));
|
|
assign ex6_unf_tbl_b = (~(ex6_unf_tbl));
|
|
|
|
//------- LEVEL 2 -----------------------------------
|
|
|
|
assign f_eov_ex6_ovf_expo = (~(ex6_ovf_b & ex6_sel_ov_spec_b));
|
|
assign f_eov_ex6_ovf_if_expo = (~(ex6_ovf_if_b & ex6_sel_ov_spec_b));
|
|
assign f_eov_ex6_sel_k_f = (~(ex6_ovf_oe0_b & ex6_sel_k_part_f_b));
|
|
assign f_eov_ex6_sel_kif_f = (~(ex6_ovf_if_oe0_b & ex6_sel_k_part_f_b));
|
|
assign f_eov_ex6_unf_expo = (~(ex6_unf_b & ex6_unf_tbl_b));
|
|
assign f_eov_ex6_sel_k_e = (~(ex6_unf_ue0_b & ex6_unf_tbl_spec_e_b & ex6_ovf_oe0_b));
|
|
assign f_eov_ex6_sel_kif_e = (~(ex6_unf_ue0_b & ex6_unf_tbl_spec_e_b & ex6_ovf_if_oe0_b));
|
|
|
|
////#-----------------------------
|
|
////# ue1 oe1 adders (does not need to be real fast)
|
|
////#-----------------------------
|
|
|
|
assign f_eov_ex6_expo_p0_ue1oe1[3:6] = ex6_ue1oe1_p0_p[3:6] ^ ex6_ue1oe1_p0_c[4:7]; //output-
|
|
assign f_eov_ex6_expo_p0_ue1oe1[7] = ex6_ue1oe1_p0_p[7];
|
|
|
|
assign ex6_ue1oe1_p0_p[3:7] = ex6_expo_p0[3:7] ^ ex6_ue1oe1_k[3:7];
|
|
assign ex6_ue1oe1_p0_g[4:7] = ex6_expo_p0[4:7] & ex6_ue1oe1_k[4:7];
|
|
assign ex6_ue1oe1_p0_t[4:6] = ex6_expo_p0[4:6] | ex6_ue1oe1_k[4:6];
|
|
|
|
assign ex6_ue1oe1_p0_g2_b[7] = (~(ex6_ue1oe1_p0_g[7]));
|
|
assign ex6_ue1oe1_p0_g2_b[6] = (~(ex6_ue1oe1_p0_g[6] | (ex6_ue1oe1_p0_t[6] & ex6_ue1oe1_p0_g[7])));
|
|
assign ex6_ue1oe1_p0_g2_b[5] = (~(ex6_ue1oe1_p0_g[5]));
|
|
assign ex6_ue1oe1_p0_g2_b[4] = (~(ex6_ue1oe1_p0_g[4] | (ex6_ue1oe1_p0_t[4] & ex6_ue1oe1_p0_g[5])));
|
|
|
|
assign ex6_ue1oe1_p0_t2_b[5] = (~(ex6_ue1oe1_p0_t[5]));
|
|
assign ex6_ue1oe1_p0_t2_b[4] = (~((ex6_ue1oe1_p0_t[4] & ex6_ue1oe1_p0_t[5])));
|
|
|
|
assign ex6_ue1oe1_p0_c[7] = (~(ex6_ue1oe1_p0_g2_b[7]));
|
|
assign ex6_ue1oe1_p0_c[6] = (~(ex6_ue1oe1_p0_g2_b[6]));
|
|
assign ex6_ue1oe1_p0_c[5] = (~(ex6_ue1oe1_p0_g2_b[5] & (ex6_ue1oe1_p0_t2_b[5] | ex6_ue1oe1_p0_g2_b[6])));
|
|
assign ex6_ue1oe1_p0_c[4] = (~(ex6_ue1oe1_p0_g2_b[4] & (ex6_ue1oe1_p0_t2_b[4] | ex6_ue1oe1_p0_g2_b[6])));
|
|
|
|
//-------------------
|
|
|
|
assign f_eov_ex6_expo_p1_ue1oe1[3:6] = ex6_ue1oe1_p1_p[3:6] ^ ex6_ue1oe1_p1_c[4:7]; //output-
|
|
assign f_eov_ex6_expo_p1_ue1oe1[7] = ex6_ue1oe1_p1_p[7];
|
|
|
|
assign ex6_ue1oe1_p1_p[3:7] = ex6_expo_p1[3:7] ^ ex6_ue1oe1_k[3:7];
|
|
assign ex6_ue1oe1_p1_g[4:7] = ex6_expo_p1[4:7] & ex6_ue1oe1_k[4:7];
|
|
assign ex6_ue1oe1_p1_t[4:6] = ex6_expo_p1[4:6] | ex6_ue1oe1_k[4:6];
|
|
|
|
assign ex6_ue1oe1_p1_g2_b[7] = (~(ex6_ue1oe1_p1_g[7]));
|
|
assign ex6_ue1oe1_p1_g2_b[6] = (~(ex6_ue1oe1_p1_g[6] | (ex6_ue1oe1_p1_t[6] & ex6_ue1oe1_p1_g[7])));
|
|
assign ex6_ue1oe1_p1_g2_b[5] = (~(ex6_ue1oe1_p1_g[5]));
|
|
assign ex6_ue1oe1_p1_g2_b[4] = (~(ex6_ue1oe1_p1_g[4] | (ex6_ue1oe1_p1_t[4] & ex6_ue1oe1_p1_g[5])));
|
|
|
|
assign ex6_ue1oe1_p1_t2_b[5] = (~(ex6_ue1oe1_p1_t[5]));
|
|
assign ex6_ue1oe1_p1_t2_b[4] = (~((ex6_ue1oe1_p1_t[4] & ex6_ue1oe1_p1_t[5])));
|
|
|
|
assign ex6_ue1oe1_p1_c[7] = (~(ex6_ue1oe1_p1_g2_b[7]));
|
|
assign ex6_ue1oe1_p1_c[6] = (~(ex6_ue1oe1_p1_g2_b[6]));
|
|
assign ex6_ue1oe1_p1_c[5] = (~(ex6_ue1oe1_p1_g2_b[5] & (ex6_ue1oe1_p1_t2_b[5] | ex6_ue1oe1_p1_g2_b[6])));
|
|
assign ex6_ue1oe1_p1_c[4] = (~(ex6_ue1oe1_p1_g2_b[4] & (ex6_ue1oe1_p1_t2_b[4] | ex6_ue1oe1_p1_g2_b[6])));
|
|
|
|
////############################################
|
|
////# scan
|
|
////############################################
|
|
|
|
assign act_si[0:4] = {act_so[1:4], f_eov_si};
|
|
assign ex5_iexp_si[0:15] = {ex5_iexp_so[1:15], act_so[0]};
|
|
assign ex6_ovctl_si[0:2] = {ex6_ovctl_so[1:2], ex5_iexp_so[0]};
|
|
assign ex6_misc_si[0:12] = {ex6_misc_so[1:12], ex6_ovctl_so[0]};
|
|
assign ex6_urnd0_si[0:12] = {ex6_urnd0_so[1:12], ex6_misc_so[0]};
|
|
assign ex6_urnd1_si[0:12] = {ex6_urnd1_so[1:12], ex6_urnd0_so[0]};
|
|
assign f_eov_so = ex6_urnd1_so[0];
|
|
|
|
endmodule
|