a2o/dev/verilog/work/xu1_byp.v

1421 lines
70 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 xu1_byp(
//-------------------------------------------------------------------
// Clocks & Power
//-------------------------------------------------------------------
inout vdd,
inout gnd,
input clk,
input rst,
//-------------------------------------------------------------------
// Pervasive
//-------------------------------------------------------------------
input d_mode_dc,
input [0:0] delay_lclkr_dc,
input [0:0] mpw1_dc_b,
input mpw2_dc_b,
input func_sl_force,
input func_sl_thold_0_b,
input sg_0,
input scan_in,
output scan_out,
//-------------------------------------------------------------------
// Decode Interface
//-------------------------------------------------------------------
input dec_byp_ex0_act,
input xu0_xu1_ex3_act,
input lq_xu_ex5_act,
input [64-`GPR_WIDTH:63] dec_byp_ex1_imm,
input [0:`THREADS-1] dec_byp_ex2_tid,
input [(64-`GPR_WIDTH)/8:7] dec_byp_ex2_dvc_mask,
input [24:25] dec_byp_ex1_instr,
input dec_byp_ex0_rs2_sel_imm,
input dec_byp_ex0_rs1_sel_zero,
//-------------------------------------------------------------------
// RV
//-------------------------------------------------------------------
input rv_xu1_s1_v,
input rv_xu1_s2_v,
input rv_xu1_s3_v,
//-------------------------------------------------------------------
// Interface with Bypass Controller
//-------------------------------------------------------------------
input [1:11] rv_xu1_s1_fxu0_sel,
input [1:11] rv_xu1_s2_fxu0_sel,
input [2:11] rv_xu1_s3_fxu0_sel,
input [1:6] rv_xu1_s1_fxu1_sel,
input [1:6] rv_xu1_s2_fxu1_sel,
input [2:6] rv_xu1_s3_fxu1_sel,
input [4:8] rv_xu1_s1_lq_sel,
input [4:8] rv_xu1_s2_lq_sel,
input [4:8] rv_xu1_s3_lq_sel,
input [2:3] rv_xu1_s1_rel_sel,
input [2:3] rv_xu1_s2_rel_sel,
//-------------------------------------------------------------------
// Bypass Inputs
//-------------------------------------------------------------------
// Regfile Data
input [64-`GPR_WIDTH:63] gpr_xu1_ex1_r1d,
input [64-`GPR_WIDTH:63] gpr_xu1_ex1_r2d,
input [0:9] xer_xu1_ex1_r3d,
input [0:3] cr_xu1_ex1_r3d,
// External Bypass
input xu0_xu1_ex2_abort,
input xu0_xu1_ex6_abort,
input [64-`GPR_WIDTH:63] xu0_xu1_ex2_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex3_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex4_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex5_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex6_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex7_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex8_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex6_lq_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex7_lq_rt,
input [64-`GPR_WIDTH:63] xu0_xu1_ex8_lq_rt,
input lq_xu_ex5_abort,
input [64-`GPR_WIDTH:63] lq_xu_ex5_rt,
input [64-`GPR_WIDTH:63] lq_xu_rel_rt,
input lq_xu_rel_act,
// CR
input [0:3] lq_xu_ex5_cr,
input [0:3] xu0_xu1_ex3_cr,
input [0:3] xu0_xu1_ex4_cr,
input [0:3] xu0_xu1_ex6_cr,
// XER
input [0:9] xu0_xu1_ex3_xer,
input [0:9] xu0_xu1_ex4_xer,
input [0:9] xu0_xu1_ex6_xer,
// Internal Bypass
input [64-`GPR_WIDTH:63] alu_byp_ex2_add_rt,
input [64-`GPR_WIDTH:63] alu_byp_ex3_rt,
// CR
input [0:3] alu_byp_ex3_cr,
// XER
input [0:9] alu_byp_ex3_xer,
//-------------------------------------------------------------------
// Bypass Outputs
//-------------------------------------------------------------------
output xu1_xu0_ex2_abort,
output xu1_lq_ex3_abort,
output [64-`GPR_WIDTH:63] xu1_xu0_ex2_rt,
output [64-`GPR_WIDTH:63] xu1_xu0_ex3_rt,
output [64-`GPR_WIDTH:63] xu1_xu0_ex4_rt,
output [64-`GPR_WIDTH:63] xu1_xu0_ex5_rt,
output [64-`GPR_WIDTH:63] xu1_lq_ex3_rt,
output [64-`GPR_WIDTH:63] xu1_pc_ram_data,
// CR
output [0:3] xu1_xu0_ex3_cr,
// XER
output [0:9] xu1_xu0_ex3_xer,
//-------------------------------------------------------------------
// Source Outputs
//-------------------------------------------------------------------
output [64-`GPR_WIDTH:63] byp_alu_ex2_rs1, // Source Data
output [64-`GPR_WIDTH:63] byp_alu_ex2_rs2,
output byp_alu_ex2_cr_bit, // CR bit for isel
output [0:9] byp_alu_ex2_xer,
output [3:9] byp_dec_ex2_xer,
output [3:9] xu_iu_ucode_xer,
output xu1_rv_ex2_s1_abort,
output xu1_rv_ex2_s2_abort,
output xu1_rv_ex2_s3_abort,
output byp_dec_ex2_abort,
//-------------------------------------------------------------------
// Target Outputs
//-------------------------------------------------------------------
output [64-`GPR_WIDTH:65+`GPR_WIDTH/8] xu1_gpr_ex3_wd,
output [0:9] xu1_xer_ex3_w0d,
output [0:3] xu1_cr_ex3_w0d,
output [(64-`GPR_WIDTH)/8:7] xu1_lq_ex2_stq_dvc1_cmp,
output [(64-`GPR_WIDTH)/8:7] xu1_lq_ex2_stq_dvc2_cmp,
//-------------------------------------------------------------------
// SPR
//-------------------------------------------------------------------
`ifndef THREADS1
input [64-`GPR_WIDTH:63] spr_dvc1_t1,
input [64-`GPR_WIDTH:63] spr_dvc2_t1,
`endif
input [64-`GPR_WIDTH:63] spr_dvc1_t0,
input [64-`GPR_WIDTH:63] spr_dvc2_t0
);
localparam DEX0 = 0;
localparam DEX1 = 0;
localparam DEX2 = 0;
localparam DEX3 = 0;
localparam DEX4 = 0;
localparam DEX5 = 0;
localparam DEX6 = 0;
localparam DWR = 0;
localparam DX = 0;
// Latches
wire [4:7] exx_xu0_act_q, exx_xu0_act_d ; // input=>exx_xu0_act_d ,act=>1'b1
wire [1:6] exx_xu1_act_q, exx_xu1_act_d ; // input=>exx_xu1_act_d ,act=>1'b1
wire [6:8] exx_lq_act_q, exx_lq_act_d ; // input=>exx_lq_act_d ,act=>1'b1
wire ex0_s1_v_q ; // input=>rv_xu1_s1_v ,act=>1'b1
wire ex0_s2_v_q ; // input=>rv_xu1_s2_v ,act=>1'b1
wire ex0_s3_v_q ; // input=>rv_xu1_s3_v ,act=>1'b1
wire ex1_s1_v_q ; // input=>ex0_s1_v_q ,act=>1'b1
wire ex1_s2_v_q ; // input=>ex0_s2_v_q ,act=>1'b1
wire ex1_s3_v_q ; // input=>ex0_s3_v_q ,act=>1'b1
wire [0:7] ex1_gpr_s1_xu0_sel_q[2:8] ; // input=>{8{ex0_gpr_s1_xu0_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_xu0_sel_q[2:8] ; // input=>{8{ex0_gpr_s2_xu0_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s1_xu1_sel_q[2:5] ; // input=>{8{ex0_gpr_s1_xu1_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_xu1_sel_q[2:5] ; // input=>{8{ex0_gpr_s2_xu1_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s1_lq_sel_q[5:8] ; // input=>{8{ex0_gpr_s1_lq_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_lq_sel_q[5:8] ; // input=>{8{ex0_gpr_s2_lq_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_imm_sel_q ; // input=>{8{dec_byp_ex0_rs2_sel_imm}} ,act=>exx_xu1_act[0]
wire [0:0] ex1_spr_s3_xu0_sel_q[3:8] ; // input=>rv_xu1_s3_fxu0_sel[i-1] ,act=>exx_xu1_act[0]
wire [0:0] ex1_spr_s3_xu1_sel_q[3:5] ; // input=>rv_xu1_s3_fxu1_sel[i-1] ,act=>exx_xu1_act[0]
wire [0:0] ex1_spr_s3_lq_sel_q[5:6] ; // input=>rv_xu1_s3_lq_sel[i-1] ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s1_rel_sel_q[3:4] ; // input=>{8{ex0_gpr_s1_rel_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_rel_sel_q[3:4] ; // input=>{8{ex0_gpr_s2_rel_sel[i-1]}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s1_reg_sel_q ; // input=>{8{ex0_gpr_s1_reg_sel}} ,act=>exx_xu1_act[0]
wire [0:7] ex1_gpr_s2_reg_sel_q ; // input=>{8{ex0_gpr_s2_reg_sel}} ,act=>exx_xu1_act[0]
wire [0:1] ex1_spr_s3_reg_sel_q ; // input=>{2{ex0_spr_s3_reg_sel}} ,act=>exx_xu1_act[0]
wire [9:9] ex1_abt_s1_lq_sel_q ; // input=>ex0_gpr_s1_lq_sel[8] ,act=>exx_xu1_act[0]
wire [9:9] ex1_abt_s2_lq_sel_q ; // input=>ex0_gpr_s2_lq_sel[8] ,act=>exx_xu1_act[0]
wire [7:9] ex1_abt_s3_lq_sel_q ; // input=>rv_xu1_s3_lq_sel[6:8] ,act=>exx_xu1_act[0]
wire [6:7] ex1_abt_s1_xu1_sel_q ; // input=>ex0_gpr_s1_xu1_sel[5:6] ,act=>exx_xu1_act[0]
wire [6:7] ex1_abt_s2_xu1_sel_q ; // input=>ex0_gpr_s2_xu1_sel[5:6] ,act=>exx_xu1_act[0]
wire [6:7] ex1_abt_s3_xu1_sel_q ; // input=>rv_xu1_s3_fxu1_sel[5:6] ,act=>exx_xu1_act[0]
wire [9:12] ex1_abt_s1_xu0_sel_q ; // input=>ex0_gpr_s1_xu0_sel[8:11] ,act=>exx_xu1_act[0]
wire [9:12] ex1_abt_s2_xu0_sel_q ; // input=>ex0_gpr_s2_xu0_sel[8:11] ,act=>exx_xu1_act[0]
wire [9:12] ex1_abt_s3_xu0_sel_q ; // input=>rv_xu1_s3_fxu0_sel[8:11] ,act=>exx_xu1_act[0]
wire [64-`GPR_WIDTH:63] ex4_xu1_rt_q ; // input=>alu_byp_ex3_rt ,act=>exx_xu1_act[3]
wire [64-`GPR_WIDTH:63] ex5_xu1_rt_q ; // input=>ex4_xu1_rt_q ,act=>exx_xu1_act[4]
wire [0:3] ex5_xu0_cr_q ; // input=>xu0_xu1_ex4_cr ,act=>exx_xu0_act[4]
// wire [0:3] ex6_xu0_cr_q ; // input=>ex5_xu0_cr_q ,act=>exx_xu0_act[5]
wire [0:3] ex6_lq_cr_q ; // input=>lq_xu_ex5_cr ,act=>exx_lq_act[5]
wire [0:9] ex5_xu0_xer_q ; // input=>xu0_xu1_ex4_xer ,act=>exx_xu0_act[4]
// wire [0:9] ex6_xu0_xer_q ; // input=>ex5_xu0_xer_q ,act=>exx_xu0_act[5]
wire [64-`GPR_WIDTH:63] ex2_rs1_q, ex1_rs1 ; // input=>ex1_rs1 ,act=>exx_xu1_act[1]
wire [64-`GPR_WIDTH:63] ex2_rs2_q, ex1_rs2 ; // input=>ex1_rs2 ,act=>exx_xu1_act[1]
wire ex2_cr_bit_q, ex1_cr_bit ; // input=>ex1_cr_bit ,act=>exx_xu1_act[1]
wire [0:9] ex2_xer3_q, ex1_xer3 ; // input=>ex1_xer3 ,act=>exx_xu1_act[1]
wire [3:12] exx_xu0_abort_q, exx_xu0_abort_d ; // input=>exx_xu0_abort_d ,act=>1'b1
wire [2:7] exx_xu1_abort_q, exx_xu1_abort_d ; // input=>exx_xu1_abort_d ,act=>1'b1
wire [6:9] exx_lq_abort_q, exx_lq_abort_d ; // input=>exx_lq_abort_d ,act=>1'b1
wire ex2_rs1_abort_q ; // input=>ex1_rs1_abort ,act=>1'b1
wire ex2_rs2_abort_q ; // input=>ex1_rs2_abort ,act=>1'b1
wire ex2_rs3_abort_q ; // input=>ex1_rs3_abort ,act=>1'b1
wire exx_rel3_act_q ; // input=>lq_xu_rel_act ,act=>1'b1
wire [64-`GPR_WIDTH:63] exx_rel3_rt_q ; // input=>lq_xu_rel_rt ,act=>lq_xu_rel_act
wire [64-`GPR_WIDTH:63] exx_rel4_rt_q ; // input=>exx_rel3_rt_q ,act=>exx_rel3_act_q
localparam exx_xu0_act_offset = 0;
localparam exx_xu1_act_offset = exx_xu0_act_offset + 4;
localparam exx_lq_act_offset = exx_xu1_act_offset + 6;
localparam ex0_s1_v_offset = exx_lq_act_offset + 3;
localparam ex0_s2_v_offset = ex0_s1_v_offset + 1;
localparam ex0_s3_v_offset = ex0_s2_v_offset + 1;
localparam ex1_s1_v_offset = ex0_s3_v_offset + 1;
localparam ex1_s2_v_offset = ex1_s1_v_offset + 1;
localparam ex1_s3_v_offset = ex1_s2_v_offset + 1;
localparam ex1_gpr_s1_xu0_sel_offset = ex1_s3_v_offset + 1;
localparam ex1_gpr_s2_xu0_sel_offset = ex1_gpr_s1_xu0_sel_offset + 8*7;
localparam ex1_gpr_s1_xu1_sel_offset = ex1_gpr_s2_xu0_sel_offset + 8*7;
localparam ex1_gpr_s2_xu1_sel_offset = ex1_gpr_s1_xu1_sel_offset + 8*4;
localparam ex1_gpr_s1_lq_sel_offset = ex1_gpr_s2_xu1_sel_offset + 8*4;
localparam ex1_gpr_s2_lq_sel_offset = ex1_gpr_s1_lq_sel_offset + 8*4;
localparam ex1_gpr_s2_imm_sel_offset = ex1_gpr_s2_lq_sel_offset + 8*4;
localparam ex1_spr_s3_xu0_sel_offset = ex1_gpr_s2_imm_sel_offset + 8;
localparam ex1_spr_s3_xu1_sel_offset = ex1_spr_s3_xu0_sel_offset + 1*6;
localparam ex1_spr_s3_lq_sel_offset = ex1_spr_s3_xu1_sel_offset + 1*3;
localparam ex1_gpr_s1_rel_sel_offset = ex1_spr_s3_lq_sel_offset + 1*2;
localparam ex1_gpr_s2_rel_sel_offset = ex1_gpr_s1_rel_sel_offset + 8*2;
localparam ex1_gpr_s1_reg_sel_offset = ex1_gpr_s2_rel_sel_offset + 8*2;
localparam ex1_gpr_s2_reg_sel_offset = ex1_gpr_s1_reg_sel_offset + 8;
localparam ex1_spr_s3_reg_sel_offset = ex1_gpr_s2_reg_sel_offset + 8;
localparam ex1_abt_s1_lq_sel_offset = ex1_spr_s3_reg_sel_offset + 2;
localparam ex1_abt_s2_lq_sel_offset = ex1_abt_s1_lq_sel_offset + 1;
localparam ex1_abt_s3_lq_sel_offset = ex1_abt_s2_lq_sel_offset + 1;
localparam ex1_abt_s1_xu1_sel_offset = ex1_abt_s3_lq_sel_offset + 3;
localparam ex1_abt_s2_xu1_sel_offset = ex1_abt_s1_xu1_sel_offset + 2;
localparam ex1_abt_s3_xu1_sel_offset = ex1_abt_s2_xu1_sel_offset + 2;
localparam ex1_abt_s1_xu0_sel_offset = ex1_abt_s3_xu1_sel_offset + 2;
localparam ex1_abt_s2_xu0_sel_offset = ex1_abt_s1_xu0_sel_offset + 4;
localparam ex1_abt_s3_xu0_sel_offset = ex1_abt_s2_xu0_sel_offset + 4;
localparam ex4_xu1_rt_offset = ex1_abt_s3_xu0_sel_offset + 4;
localparam ex5_xu1_rt_offset = ex4_xu1_rt_offset + `GPR_WIDTH;
localparam ex5_xu0_cr_offset = ex5_xu1_rt_offset + `GPR_WIDTH;
localparam ex6_lq_cr_offset = ex5_xu0_cr_offset + 4;
localparam ex5_xu0_xer_offset = ex6_lq_cr_offset + 4;
localparam ex2_rs1_offset = ex5_xu0_xer_offset + 10;
localparam ex2_rs2_offset = ex2_rs1_offset + `GPR_WIDTH;
localparam ex2_cr_bit_offset = ex2_rs2_offset + `GPR_WIDTH;
localparam ex2_xer3_offset = ex2_cr_bit_offset + 1;
localparam exx_xu0_abort_offset = ex2_xer3_offset + 10;
localparam exx_xu1_abort_offset = exx_xu0_abort_offset + 10;
localparam exx_lq_abort_offset = exx_xu1_abort_offset + 6;
localparam ex2_rs1_abort_offset = exx_lq_abort_offset + 4;
localparam ex2_rs2_abort_offset = ex2_rs1_abort_offset + 1;
localparam ex2_rs3_abort_offset = ex2_rs2_abort_offset + 1;
localparam exx_rel3_act_offset = ex2_rs3_abort_offset + 1;
localparam exx_rel3_rt_offset = exx_rel3_act_offset + 1;
localparam exx_rel4_rt_offset = exx_rel3_rt_offset + `GPR_WIDTH;
localparam scan_right = exx_rel4_rt_offset + `GPR_WIDTH;
wire [0:scan_right-1] siv;
wire [0:scan_right-1] sov;
// Signals
wire [0:6] exx_xu1_act;
wire [3:7] exx_xu0_act;
wire [5:8] exx_lq_act;
wire [1:11] ex0_gpr_s1_xu0_sel;
wire [1:11] ex0_gpr_s2_xu0_sel;
wire [1:6] ex0_gpr_s1_xu1_sel;
wire [1:6] ex0_gpr_s2_xu1_sel;
wire [4:8] ex0_gpr_s1_lq_sel;
wire [4:8] ex0_gpr_s2_lq_sel;
wire [2:3] ex0_gpr_s1_rel_sel;
wire [2:3] ex0_gpr_s2_rel_sel;
wire ex0_gpr_rs2_sel_imm_b;
wire ex0_gpr_rs1_sel_zero_b;
wire ex0_gpr_s1_reg_sel;
wire ex0_gpr_s2_reg_sel;
wire ex0_spr_s3_reg_sel;
wire [0:3] ex1_cr3;
wire [64-`GPR_WIDTH:63] ex1_rs2_noimm;
wire [8-`GPR_WIDTH/8:7] ex3_parity;
wire [8-`GPR_WIDTH/8:7] ex2_stq_dvc1_t0_cmpr;
wire [8-`GPR_WIDTH/8:7] ex2_stq_dvc2_t0_cmpr;
wire [8-`GPR_WIDTH/8:7] ex2_stq_dvc1_t1_cmpr;
wire [8-`GPR_WIDTH/8:7] ex2_stq_dvc2_t1_cmpr;
wire ex1_abort;
wire ex1_rs1_abort, ex1_rs2_noimm_abort;
wire ex1_rs2_abort;
wire ex1_rs3_abort;
(* analysis_not_referenced="<8:63>true" *)
wire [0:63] tidn = 64'b0;
//------------------------------------------------------------------------------------------
// Zero/Immediate Logic for GPRs
//------------------------------------------------------------------------------------------
assign ex0_gpr_s1_xu0_sel = ex0_gpr_rs1_sel_zero_b==1'b1 ? rv_xu1_s1_fxu0_sel : tidn[1:11];
assign ex0_gpr_s1_xu1_sel = ex0_gpr_rs1_sel_zero_b==1'b1 ? rv_xu1_s1_fxu1_sel : tidn[1:6];
assign ex0_gpr_s1_lq_sel = ex0_gpr_rs1_sel_zero_b==1'b1 ? rv_xu1_s1_lq_sel : tidn[4:8];
assign ex0_gpr_s1_rel_sel = ex0_gpr_rs1_sel_zero_b==1'b1 ? rv_xu1_s1_rel_sel : tidn[2:3];
assign ex0_gpr_s2_xu0_sel = rv_xu1_s2_fxu0_sel;
assign ex0_gpr_s2_xu1_sel = rv_xu1_s2_fxu1_sel;
assign ex0_gpr_s2_lq_sel = rv_xu1_s2_lq_sel ;
assign ex0_gpr_s2_rel_sel = rv_xu1_s2_rel_sel ;
// TEMP Hopefully fold this into rf_byp
assign ex0_gpr_s1_reg_sel = ~|rv_xu1_s1_fxu0_sel[1:7] & ~|rv_xu1_s1_fxu1_sel[1:4] & ~|rv_xu1_s1_lq_sel[4:7] & ~|rv_xu1_s1_rel_sel & ex0_gpr_rs1_sel_zero_b;
assign ex0_gpr_s2_reg_sel = ~|rv_xu1_s2_fxu0_sel[1:7] & ~|rv_xu1_s2_fxu1_sel[1:4] & ~|rv_xu1_s2_lq_sel[4:7] & ~|rv_xu1_s2_rel_sel;
assign ex0_spr_s3_reg_sel = ~|rv_xu1_s3_fxu0_sel[2:5] & ~|rv_xu1_s3_fxu1_sel[2:2] & ~|rv_xu1_s3_lq_sel[4:5];
assign ex0_gpr_rs2_sel_imm_b = ~dec_byp_ex0_rs2_sel_imm;
assign ex0_gpr_rs1_sel_zero_b = ~dec_byp_ex0_rs1_sel_zero;
//------------------------------------------------------------------------------------------
// GPR Bypass
//------------------------------------------------------------------------------------------
assign ex1_rs1 = (alu_byp_ex2_add_rt & fanout(ex1_gpr_s1_xu1_sel_q[2], `GPR_WIDTH)) |
(alu_byp_ex3_rt & fanout(ex1_gpr_s1_xu1_sel_q[3], `GPR_WIDTH)) |
(ex4_xu1_rt_q & fanout(ex1_gpr_s1_xu1_sel_q[4], `GPR_WIDTH)) |
(ex5_xu1_rt_q & fanout(ex1_gpr_s1_xu1_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex2_rt & fanout(ex1_gpr_s1_xu0_sel_q[2], `GPR_WIDTH)) |
(xu0_xu1_ex3_rt & fanout(ex1_gpr_s1_xu0_sel_q[3], `GPR_WIDTH)) |
(xu0_xu1_ex4_rt & fanout(ex1_gpr_s1_xu0_sel_q[4], `GPR_WIDTH)) |
(xu0_xu1_ex5_rt & fanout(ex1_gpr_s1_xu0_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex6_rt & fanout(ex1_gpr_s1_xu0_sel_q[6], `GPR_WIDTH)) |
(xu0_xu1_ex7_rt & fanout(ex1_gpr_s1_xu0_sel_q[7], `GPR_WIDTH)) |
(xu0_xu1_ex8_rt & fanout(ex1_gpr_s1_xu0_sel_q[8], `GPR_WIDTH)) |
(lq_xu_ex5_rt & fanout(ex1_gpr_s1_lq_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex6_lq_rt & fanout(ex1_gpr_s1_lq_sel_q[6], `GPR_WIDTH)) |
(xu0_xu1_ex7_lq_rt & fanout(ex1_gpr_s1_lq_sel_q[7], `GPR_WIDTH)) |
(xu0_xu1_ex8_lq_rt & fanout(ex1_gpr_s1_lq_sel_q[8], `GPR_WIDTH)) |
(exx_rel3_rt_q & fanout(ex1_gpr_s1_rel_sel_q[3], `GPR_WIDTH)) |
(exx_rel4_rt_q & fanout(ex1_gpr_s1_rel_sel_q[4], `GPR_WIDTH)) |
(gpr_xu1_ex1_r1d & fanout(ex1_gpr_s1_reg_sel_q, `GPR_WIDTH));
assign ex1_rs2 = (dec_byp_ex1_imm & fanout(ex1_gpr_s2_imm_sel_q, `GPR_WIDTH)) |
(ex1_rs2_noimm & (~fanout(ex1_gpr_s2_imm_sel_q, `GPR_WIDTH)));
assign ex1_rs2_noimm =
(alu_byp_ex2_add_rt & fanout(ex1_gpr_s2_xu1_sel_q[2], `GPR_WIDTH)) |
(alu_byp_ex3_rt & fanout(ex1_gpr_s2_xu1_sel_q[3], `GPR_WIDTH)) |
(ex4_xu1_rt_q & fanout(ex1_gpr_s2_xu1_sel_q[4], `GPR_WIDTH)) |
(ex5_xu1_rt_q & fanout(ex1_gpr_s2_xu1_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex2_rt & fanout(ex1_gpr_s2_xu0_sel_q[2], `GPR_WIDTH)) |
(xu0_xu1_ex3_rt & fanout(ex1_gpr_s2_xu0_sel_q[3], `GPR_WIDTH)) |
(xu0_xu1_ex4_rt & fanout(ex1_gpr_s2_xu0_sel_q[4], `GPR_WIDTH)) |
(xu0_xu1_ex5_rt & fanout(ex1_gpr_s2_xu0_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex6_rt & fanout(ex1_gpr_s2_xu0_sel_q[6], `GPR_WIDTH)) |
(xu0_xu1_ex7_rt & fanout(ex1_gpr_s2_xu0_sel_q[7], `GPR_WIDTH)) |
(xu0_xu1_ex8_rt & fanout(ex1_gpr_s2_xu0_sel_q[8], `GPR_WIDTH)) |
(lq_xu_ex5_rt & fanout(ex1_gpr_s2_lq_sel_q[5], `GPR_WIDTH)) |
(xu0_xu1_ex6_lq_rt & fanout(ex1_gpr_s2_lq_sel_q[6], `GPR_WIDTH)) |
(xu0_xu1_ex7_lq_rt & fanout(ex1_gpr_s2_lq_sel_q[7], `GPR_WIDTH)) |
(xu0_xu1_ex8_lq_rt & fanout(ex1_gpr_s2_lq_sel_q[8], `GPR_WIDTH)) |
(exx_rel3_rt_q & fanout(ex1_gpr_s2_rel_sel_q[3], `GPR_WIDTH)) |
(exx_rel4_rt_q & fanout(ex1_gpr_s2_rel_sel_q[4], `GPR_WIDTH)) |
(gpr_xu1_ex1_r2d & fanout(ex1_gpr_s2_reg_sel_q, `GPR_WIDTH));
//------------------------------------------------------------------------------------------
// Abort Bypass
//------------------------------------------------------------------------------------------
assign exx_xu0_abort_d[3:6] = {xu0_xu1_ex2_abort, exx_xu0_abort_q[3:5]};
assign exx_xu0_abort_d[7] = xu0_xu1_ex6_abort;
assign exx_xu0_abort_d[8:12] = exx_xu0_abort_q[7:11];
assign exx_xu1_abort_d = {ex1_abort, exx_xu1_abort_q[2:6]};
assign exx_lq_abort_d = {lq_xu_ex5_abort, exx_lq_abort_q[6:8]};
assign ex1_abort = ex1_rs1_abort | ex1_rs2_abort | ex1_rs3_abort;
assign ex1_rs1_abort = exx_xu1_act[1] & ex1_s1_v_q &
((exx_xu1_abort_q[2] & ex1_gpr_s1_xu1_sel_q[2][0]) |
(exx_xu1_abort_q[3] & ex1_gpr_s1_xu1_sel_q[3][0]) |
(exx_xu1_abort_q[4] & ex1_gpr_s1_xu1_sel_q[4][0]) |
(exx_xu1_abort_q[5] & ex1_gpr_s1_xu1_sel_q[5][0]) |
(exx_xu1_abort_q[6] & ex1_abt_s1_xu1_sel_q[6]) |
(exx_xu1_abort_q[7] & ex1_abt_s1_xu1_sel_q[7]) |
(xu0_xu1_ex2_abort & ex1_gpr_s1_xu0_sel_q[2][0]) |
(exx_xu0_abort_q[3] & ex1_gpr_s1_xu0_sel_q[3][0]) |
(exx_xu0_abort_q[4] & ex1_gpr_s1_xu0_sel_q[4][0]) |
(exx_xu0_abort_q[5] & ex1_gpr_s1_xu0_sel_q[5][0]) |
(xu0_xu1_ex6_abort & ex1_gpr_s1_xu0_sel_q[6][0]) | //mul abort
(exx_xu0_abort_q[7] & ex1_gpr_s1_xu0_sel_q[7][0]) |
(exx_xu0_abort_q[8] & ex1_gpr_s1_xu0_sel_q[8][0]) |
(exx_xu0_abort_q[9] & ex1_abt_s1_xu0_sel_q[9] ) |
(exx_xu0_abort_q[10] & ex1_abt_s1_xu0_sel_q[10] ) |
(exx_xu0_abort_q[11] & ex1_abt_s1_xu0_sel_q[11] ) |
(exx_xu0_abort_q[12] & ex1_abt_s1_xu0_sel_q[12] ) |
(lq_xu_ex5_abort & ex1_gpr_s1_lq_sel_q[5][0]) |
(exx_lq_abort_q[6] & ex1_gpr_s1_lq_sel_q[6][0]) |
(exx_lq_abort_q[7] & ex1_gpr_s1_lq_sel_q[7][0]) |
(exx_lq_abort_q[8] & ex1_gpr_s1_lq_sel_q[8][0]) |
(exx_lq_abort_q[9] & ex1_abt_s1_lq_sel_q[9] ));
assign ex1_rs2_abort = exx_xu1_act[1] & ex1_s2_v_q &
(ex1_rs2_noimm_abort);
assign ex1_rs2_noimm_abort =
(exx_xu1_abort_q[2] & ex1_gpr_s2_xu1_sel_q[2][0]) |
(exx_xu1_abort_q[3] & ex1_gpr_s2_xu1_sel_q[3][0]) |
(exx_xu1_abort_q[4] & ex1_gpr_s2_xu1_sel_q[4][0]) |
(exx_xu1_abort_q[5] & ex1_gpr_s2_xu1_sel_q[5][0]) |
(exx_xu1_abort_q[6] & ex1_abt_s2_xu1_sel_q[6]) |
(exx_xu1_abort_q[7] & ex1_abt_s2_xu1_sel_q[7]) |
(xu0_xu1_ex2_abort & ex1_gpr_s2_xu0_sel_q[2][0]) |
(exx_xu0_abort_q[3] & ex1_gpr_s2_xu0_sel_q[3][0]) |
(exx_xu0_abort_q[4] & ex1_gpr_s2_xu0_sel_q[4][0]) |
(exx_xu0_abort_q[5] & ex1_gpr_s2_xu0_sel_q[5][0]) |
(xu0_xu1_ex6_abort & ex1_gpr_s2_xu0_sel_q[6][0]) |
(exx_xu0_abort_q[7] & ex1_gpr_s2_xu0_sel_q[7][0]) |
(exx_xu0_abort_q[8] & ex1_gpr_s2_xu0_sel_q[8][0]) |
(exx_xu0_abort_q[9] & ex1_abt_s2_xu0_sel_q[9] ) |
(exx_xu0_abort_q[10] & ex1_abt_s2_xu0_sel_q[10] ) |
(exx_xu0_abort_q[11] & ex1_abt_s2_xu0_sel_q[11] ) |
(exx_xu0_abort_q[12] & ex1_abt_s2_xu0_sel_q[12] ) |
(lq_xu_ex5_abort & ex1_gpr_s2_lq_sel_q[5][0]) |
(exx_lq_abort_q[6] & ex1_gpr_s2_lq_sel_q[6][0]) |
(exx_lq_abort_q[7] & ex1_gpr_s2_lq_sel_q[7][0]) |
(exx_lq_abort_q[8] & ex1_gpr_s2_lq_sel_q[8][0]) |
(exx_lq_abort_q[9] & ex1_abt_s2_lq_sel_q[9] );
assign ex1_rs3_abort = exx_xu1_act[1] & ex1_s3_v_q &
((exx_xu1_abort_q[3] & ex1_spr_s3_xu1_sel_q[3]) |
(exx_xu1_abort_q[4] & ex1_spr_s3_xu1_sel_q[4]) |
(exx_xu1_abort_q[5] & ex1_spr_s3_xu1_sel_q[5]) |
(exx_xu1_abort_q[6] & ex1_abt_s3_xu1_sel_q[6]) |
(exx_xu1_abort_q[7] & ex1_abt_s3_xu1_sel_q[7]) |
(exx_xu0_abort_q[3] & ex1_spr_s3_xu0_sel_q[3]) |
(exx_xu0_abort_q[4] & ex1_spr_s3_xu0_sel_q[4]) |
(exx_xu0_abort_q[5] & ex1_spr_s3_xu0_sel_q[5]) |
(xu0_xu1_ex6_abort & ex1_spr_s3_xu0_sel_q[6]) |
(exx_xu0_abort_q[7] & ex1_spr_s3_xu0_sel_q[7]) |
(exx_xu0_abort_q[8] & ex1_spr_s3_xu0_sel_q[8]) |
(exx_xu0_abort_q[9] & ex1_abt_s3_xu0_sel_q[9] ) |
(exx_xu0_abort_q[10] & ex1_abt_s3_xu0_sel_q[10] ) |
(exx_xu0_abort_q[11] & ex1_abt_s3_xu0_sel_q[11] ) |
(exx_xu0_abort_q[12] & ex1_abt_s3_xu0_sel_q[12] ) |
(lq_xu_ex5_abort & ex1_spr_s3_lq_sel_q[5]) |
(exx_lq_abort_q[6] & ex1_spr_s3_lq_sel_q[6]) |
(exx_lq_abort_q[7] & ex1_abt_s3_lq_sel_q[7]) |
(exx_lq_abort_q[8] & ex1_abt_s3_lq_sel_q[8]) |
(exx_lq_abort_q[9] & ex1_abt_s3_lq_sel_q[9]) );
//------------------------------------------------------------------------------------------
// CR Bypass
//------------------------------------------------------------------------------------------
assign ex1_cr3 = (alu_byp_ex3_cr & {4{ex1_spr_s3_xu1_sel_q[3]}}) |
(xu0_xu1_ex3_cr & {4{ex1_spr_s3_xu0_sel_q[3]}}) |
(xu0_xu1_ex4_cr & {4{ex1_spr_s3_xu0_sel_q[4]}}) |
(ex5_xu0_cr_q & {4{ex1_spr_s3_xu0_sel_q[5]}}) |
(xu0_xu1_ex6_cr & {4{ex1_spr_s3_xu0_sel_q[6]}}) |
(lq_xu_ex5_cr & {4{ex1_spr_s3_lq_sel_q[5]}}) |
(ex6_lq_cr_q & {4{ex1_spr_s3_lq_sel_q[6]}}) |
(cr_xu1_ex1_r3d & {4{ex1_spr_s3_reg_sel_q[0]}});
//------------------------------------------------------------------------------------------
// XER Bypass
//------------------------------------------------------------------------------------------
assign ex1_cr_bit = (dec_byp_ex1_instr[24:25] == 2'b11) ? ex1_cr3[3] :
(dec_byp_ex1_instr[24:25] == 2'b10) ? ex1_cr3[2] :
(dec_byp_ex1_instr[24:25] == 2'b01) ? ex1_cr3[1] :
ex1_cr3[0];
assign ex1_xer3 =
(alu_byp_ex3_xer & {10{ex1_spr_s3_xu1_sel_q[3]}}) |
(xu0_xu1_ex3_xer & {10{ex1_spr_s3_xu0_sel_q[3]}}) |
(xu0_xu1_ex4_xer & {10{ex1_spr_s3_xu0_sel_q[4]}}) |
(ex5_xu0_xer_q & {10{ex1_spr_s3_xu0_sel_q[5]}}) |
(xu0_xu1_ex6_xer & {10{ex1_spr_s3_xu0_sel_q[6]}}) |
(xer_xu1_ex1_r3d & {10{ex1_spr_s3_reg_sel_q[1]}});
//------------------------------------------------------------------------------------------
// Parity Gen
//------------------------------------------------------------------------------------------
generate begin : ex3ParGen
genvar i;
for (i=8-`GPR_WIDTH/8;i<=7;i=i+1) begin : ex3ParGen
assign ex3_parity[i] = ^(alu_byp_ex3_rt[8*i:8*i+7]);
end
end
endgenerate
//------------------------------------------------------------------------------------------
// DVC Compare
//------------------------------------------------------------------------------------------
`ifdef THREADS1
generate begin : dvc_1t
genvar b;
for (b=(64-`GPR_WIDTH)/8;b<=7;b=b+1) begin : dvc_byte
assign ex2_stq_dvc1_t0_cmpr[b] = (spr_dvc1_t0[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign ex2_stq_dvc2_t0_cmpr[b] = (spr_dvc2_t0[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign xu1_lq_ex2_stq_dvc1_cmp[b] = ex2_stq_dvc1_t0_cmpr[b] & dec_byp_ex2_dvc_mask[b] & dec_byp_ex2_tid[0];
assign xu1_lq_ex2_stq_dvc2_cmp[b] = ex2_stq_dvc2_t0_cmpr[b] & dec_byp_ex2_dvc_mask[b] & dec_byp_ex2_tid[0];
end
end
endgenerate
`endif
`ifndef THREADS1
generate begin : dvc_2t
genvar b;
for (b=(64-`GPR_WIDTH)/8;b<=7;b=b+1) begin : dvc_byte
assign ex2_stq_dvc1_t0_cmpr[b] = (spr_dvc1_t0[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign ex2_stq_dvc2_t0_cmpr[b] = (spr_dvc2_t0[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign ex2_stq_dvc1_t1_cmpr[b] = (spr_dvc1_t1[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign ex2_stq_dvc2_t1_cmpr[b] = (spr_dvc2_t1[8*b:8*b+7] == ex2_rs1_q[8*b:8*b+7]);
assign xu1_lq_ex2_stq_dvc1_cmp[b] = ((ex2_stq_dvc1_t0_cmpr[b] & dec_byp_ex2_tid[0]) |
(ex2_stq_dvc1_t1_cmpr[b] & dec_byp_ex2_tid[1])) & dec_byp_ex2_dvc_mask[b];
assign xu1_lq_ex2_stq_dvc2_cmp[b] = ((ex2_stq_dvc2_t0_cmpr[b] & dec_byp_ex2_tid[0]) |
(ex2_stq_dvc2_t1_cmpr[b] & dec_byp_ex2_tid[1])) & dec_byp_ex2_dvc_mask[b];
end
end
endgenerate
`endif
//------------------------------------------------------------------------------------------
// IO / Buffering
//------------------------------------------------------------------------------------------
// GPR
assign byp_alu_ex2_rs1 = ex2_rs1_q;
assign byp_alu_ex2_rs2 = ex2_rs2_q;
assign xu1_gpr_ex3_wd = {alu_byp_ex3_rt, ex3_parity, 2'b01};
assign xu1_xu0_ex2_abort = exx_xu1_abort_q[2];
assign xu1_lq_ex3_abort = exx_xu1_abort_q[3];
assign xu1_xu0_ex2_rt = alu_byp_ex2_add_rt;
assign xu1_xu0_ex3_rt = alu_byp_ex3_rt;
assign xu1_xu0_ex4_rt = ex4_xu1_rt_q;
assign xu1_xu0_ex5_rt = ex5_xu1_rt_q;
assign xu1_lq_ex3_rt = alu_byp_ex3_rt;
assign xu1_pc_ram_data = alu_byp_ex3_rt;
// CR
assign byp_alu_ex2_cr_bit = ex2_cr_bit_q;
assign xu1_cr_ex3_w0d = alu_byp_ex3_cr;
assign xu1_xu0_ex3_cr = alu_byp_ex3_cr;
// XER
assign xu_iu_ucode_xer = ex2_xer3_q[3:9];
assign byp_alu_ex2_xer = ex2_xer3_q;
assign byp_dec_ex2_xer = ex2_xer3_q[3:9];
assign xu1_xer_ex3_w0d = alu_byp_ex3_xer;
assign xu1_xu0_ex3_xer = alu_byp_ex3_xer;
// Abort
assign xu1_rv_ex2_s1_abort = ex2_rs1_abort_q;
assign xu1_rv_ex2_s2_abort = ex2_rs2_abort_q;
assign xu1_rv_ex2_s3_abort = ex2_rs3_abort_q;
assign byp_dec_ex2_abort = ex2_rs1_abort_q | ex2_rs2_abort_q | ex2_rs3_abort_q;
//------------------------------------------------------------------------------------------
// Clock Gating
//------------------------------------------------------------------------------------------
assign exx_xu1_act = {dec_byp_ex0_act, exx_xu1_act_q[1:6]};
assign exx_xu0_act = {xu0_xu1_ex3_act, exx_xu0_act_q[4:7]};
assign exx_lq_act = {lq_xu_ex5_act, exx_lq_act_q[6:8]};
assign exx_xu1_act_d[1:6] = exx_xu1_act[0:5];
assign exx_xu0_act_d[4:7] = exx_xu0_act[3:6];
assign exx_lq_act_d[6:8] = exx_lq_act[5:7];
//------------------------------------------------------------------------------------------
// Latches
//------------------------------------------------------------------------------------------
tri_rlmreg_p #(.WIDTH(4), .OFFSET(4),.INIT(0), .NEEDS_SRESET(1)) exx_xu0_act_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_xu0_act_offset : exx_xu0_act_offset + 4-1]),
.scout(sov[exx_xu0_act_offset : exx_xu0_act_offset + 4-1]),
.din(exx_xu0_act_d),
.dout(exx_xu0_act_q)
);
tri_rlmreg_p #(.WIDTH(6), .OFFSET(1),.INIT(0), .NEEDS_SRESET(1)) exx_xu1_act_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_xu1_act_offset : exx_xu1_act_offset + 6-1]),
.scout(sov[exx_xu1_act_offset : exx_xu1_act_offset + 6-1]),
.din(exx_xu1_act_d),
.dout(exx_xu1_act_q)
);
tri_rlmreg_p #(.WIDTH(3), .OFFSET(6),.INIT(0), .NEEDS_SRESET(1)) exx_lq_act_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_lq_act_offset : exx_lq_act_offset + 3-1]),
.scout(sov[exx_lq_act_offset : exx_lq_act_offset + 3-1]),
.din(exx_lq_act_d),
.dout(exx_lq_act_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex0_s1_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX0]),
.mpw1_b(mpw1_dc_b[DEX0]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex0_s1_v_offset]),
.scout(sov[ex0_s1_v_offset]),
.din(rv_xu1_s1_v),
.dout(ex0_s1_v_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex0_s2_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX0]),
.mpw1_b(mpw1_dc_b[DEX0]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex0_s2_v_offset]),
.scout(sov[ex0_s2_v_offset]),
.din(rv_xu1_s2_v),
.dout(ex0_s2_v_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex0_s3_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX0]),
.mpw1_b(mpw1_dc_b[DEX0]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex0_s3_v_offset]),
.scout(sov[ex0_s3_v_offset]),
.din(rv_xu1_s3_v),
.dout(ex0_s3_v_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex1_s1_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex1_s1_v_offset]),
.scout(sov[ex1_s1_v_offset]),
.din(ex0_s1_v_q),
.dout(ex1_s1_v_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex1_s2_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex1_s2_v_offset]),
.scout(sov[ex1_s2_v_offset]),
.din(ex0_s2_v_q),
.dout(ex1_s2_v_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex1_s3_v_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex1_s3_v_offset]),
.scout(sov[ex1_s3_v_offset]),
.din(ex0_s3_v_q),
.dout(ex1_s3_v_q)
);
generate begin : ex1_gpr_s1_xu0_sel_gen
genvar i;
for (i=2;i<=8;i=i+1) begin : ex1_gpr_s1_xu0_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s1_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s1_xu0_sel_offset + (i-2)*8 : ex1_gpr_s1_xu0_sel_offset + (i-2+1)*8-1]),
.scout(sov[ex1_gpr_s1_xu0_sel_offset + (i-2)*8 : ex1_gpr_s1_xu0_sel_offset + (i-2+1)*8-1]),
.din({8{ex0_gpr_s1_xu0_sel[i-1]}}),
.dout(ex1_gpr_s1_xu0_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s2_xu0_sel_gen
genvar i;
for (i=2;i<=8;i=i+1) begin : ex1_gpr_s2_xu0_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_xu0_sel_offset + (i-2)*8 : ex1_gpr_s2_xu0_sel_offset + (i-2+1)*8-1]),
.scout(sov[ex1_gpr_s2_xu0_sel_offset + (i-2)*8 : ex1_gpr_s2_xu0_sel_offset + (i-2+1)*8-1]),
.din({8{ex0_gpr_s2_xu0_sel[i-1]}}),
.dout(ex1_gpr_s2_xu0_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s1_xu1_sel_gen
genvar i;
for (i=2;i<=5;i=i+1) begin : ex1_gpr_s1_xu1_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s1_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s1_xu1_sel_offset + (i-2)*8 : ex1_gpr_s1_xu1_sel_offset + (i-2+1)*8-1]),
.scout(sov[ex1_gpr_s1_xu1_sel_offset + (i-2)*8 : ex1_gpr_s1_xu1_sel_offset + (i-2+1)*8-1]),
.din({8{ex0_gpr_s1_xu1_sel[i-1]}}),
.dout(ex1_gpr_s1_xu1_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s2_xu1_sel_gen
genvar i;
for (i=2;i<=5;i=i+1) begin : ex1_gpr_s2_xu1_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_xu1_sel_offset + (i-2)*8 : ex1_gpr_s2_xu1_sel_offset + (i-2+1)*8-1]),
.scout(sov[ex1_gpr_s2_xu1_sel_offset + (i-2)*8 : ex1_gpr_s2_xu1_sel_offset + (i-2+1)*8-1]),
.din({8{ex0_gpr_s2_xu1_sel[i-1]}}),
.dout(ex1_gpr_s2_xu1_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s1_lq_sel_gen
genvar i;
for (i=5;i<=8;i=i+1) begin : ex1_gpr_s1_lq_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s1_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s1_lq_sel_offset + (i-5)*8 : ex1_gpr_s1_lq_sel_offset + (i-5+1)*8-1]),
.scout(sov[ex1_gpr_s1_lq_sel_offset + (i-5)*8 : ex1_gpr_s1_lq_sel_offset + (i-5+1)*8-1]),
.din({8{ex0_gpr_s1_lq_sel[i-1]}}),
.dout(ex1_gpr_s1_lq_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s2_lq_sel_gen
genvar i;
for (i=5;i<=8;i=i+1) begin : ex1_gpr_s2_lq_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_lq_sel_offset + (i-5)*8 : ex1_gpr_s2_lq_sel_offset + (i-5+1)*8-1]),
.scout(sov[ex1_gpr_s2_lq_sel_offset + (i-5)*8 : ex1_gpr_s2_lq_sel_offset + (i-5+1)*8-1]),
.din({8{ex0_gpr_s2_lq_sel[i-1]}}),
.dout(ex1_gpr_s2_lq_sel_q[i])
);
end
end
endgenerate
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_imm_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_imm_sel_offset : ex1_gpr_s2_imm_sel_offset + 8-1]),
.scout(sov[ex1_gpr_s2_imm_sel_offset : ex1_gpr_s2_imm_sel_offset + 8-1]),
.din({8{dec_byp_ex0_rs2_sel_imm}}),
.dout(ex1_gpr_s2_imm_sel_q)
);
generate begin : ex1_spr_s3_xu0_sel_gen
genvar i;
for (i=3;i<=8;i=i+1) begin : ex1_spr_s3_xu0_sel_entry
tri_rlmreg_p #(.WIDTH(1), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_spr_s3_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_spr_s3_xu0_sel_offset + (i-3)*1 : ex1_spr_s3_xu0_sel_offset + (i-3+1)*1-1]),
.scout(sov[ex1_spr_s3_xu0_sel_offset + (i-3)*1 : ex1_spr_s3_xu0_sel_offset + (i-3+1)*1-1]),
.din(rv_xu1_s3_fxu0_sel[i-1]),
.dout(ex1_spr_s3_xu0_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_spr_s3_xu1_sel_gen
genvar i;
for (i=3;i<=5;i=i+1) begin : ex1_spr_s3_xu1_sel_entry
tri_rlmreg_p #(.WIDTH(1), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_spr_s3_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_spr_s3_xu1_sel_offset + (i-3)*1 : ex1_spr_s3_xu1_sel_offset + (i-3+1)*1-1]),
.scout(sov[ex1_spr_s3_xu1_sel_offset + (i-3)*1 : ex1_spr_s3_xu1_sel_offset + (i-3+1)*1-1]),
.din(rv_xu1_s3_fxu1_sel[i-1]),
.dout(ex1_spr_s3_xu1_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_spr_s3_lq_sel_gen
genvar i;
for (i=5;i<=6;i=i+1) begin : ex1_spr_s3_lq_sel_entry
tri_rlmreg_p #(.WIDTH(1), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_spr_s3_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_spr_s3_lq_sel_offset + (i-5)*1 : ex1_spr_s3_lq_sel_offset + (i-5+1)*1-1]),
.scout(sov[ex1_spr_s3_lq_sel_offset + (i-5)*1 : ex1_spr_s3_lq_sel_offset + (i-5+1)*1-1]),
.din(rv_xu1_s3_lq_sel[i-1]),
.dout(ex1_spr_s3_lq_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s1_rel_sel_gen
genvar i;
for (i=3;i<=4;i=i+1) begin : ex1_gpr_s1_rel_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s1_rel_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s1_rel_sel_offset + (i-3)*8 : ex1_gpr_s1_rel_sel_offset + (i-3+1)*8-1]),
.scout(sov[ex1_gpr_s1_rel_sel_offset + (i-3)*8 : ex1_gpr_s1_rel_sel_offset + (i-3+1)*8-1]),
.din({8{ex0_gpr_s1_rel_sel[i-1]}}),
.dout(ex1_gpr_s1_rel_sel_q[i])
);
end
end
endgenerate
generate begin : ex1_gpr_s2_rel_sel_gen
genvar i;
for (i=3;i<=4;i=i+1) begin : ex1_gpr_s2_rel_sel_entry
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_rel_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_rel_sel_offset + (i-3)*8 : ex1_gpr_s2_rel_sel_offset + (i-3+1)*8-1]),
.scout(sov[ex1_gpr_s2_rel_sel_offset + (i-3)*8 : ex1_gpr_s2_rel_sel_offset + (i-3+1)*8-1]),
.din({8{ex0_gpr_s2_rel_sel[i-1]}}),
.dout(ex1_gpr_s2_rel_sel_q[i])
);
end
end
endgenerate
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s1_reg_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s1_reg_sel_offset : ex1_gpr_s1_reg_sel_offset + 8-1]),
.scout(sov[ex1_gpr_s1_reg_sel_offset : ex1_gpr_s1_reg_sel_offset + 8-1]),
.din({8{ex0_gpr_s1_reg_sel}}),
.dout(ex1_gpr_s1_reg_sel_q)
);
tri_rlmreg_p #(.WIDTH(8), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_gpr_s2_reg_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_gpr_s2_reg_sel_offset : ex1_gpr_s2_reg_sel_offset + 8-1]),
.scout(sov[ex1_gpr_s2_reg_sel_offset : ex1_gpr_s2_reg_sel_offset + 8-1]),
.din({8{ex0_gpr_s2_reg_sel}}),
.dout(ex1_gpr_s2_reg_sel_q)
);
tri_rlmreg_p #(.WIDTH(2), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex1_spr_s3_reg_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_spr_s3_reg_sel_offset : ex1_spr_s3_reg_sel_offset + 2-1]),
.scout(sov[ex1_spr_s3_reg_sel_offset : ex1_spr_s3_reg_sel_offset + 2-1]),
.din({2{ex0_spr_s3_reg_sel}}),
.dout(ex1_spr_s3_reg_sel_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s1_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex1_abt_s1_lq_sel_offset]),
.scout(sov[ex1_abt_s1_lq_sel_offset]),
.din(ex0_gpr_s1_lq_sel[8]),
.dout(ex1_abt_s1_lq_sel_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s2_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex1_abt_s2_lq_sel_offset]),
.scout(sov[ex1_abt_s2_lq_sel_offset]),
.din(ex0_gpr_s2_lq_sel[8]),
.dout(ex1_abt_s2_lq_sel_q)
);
tri_rlmreg_p #(.WIDTH(3), .OFFSET(7),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s3_lq_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s3_lq_sel_offset : ex1_abt_s3_lq_sel_offset + 3-1]),
.scout(sov[ex1_abt_s3_lq_sel_offset : ex1_abt_s3_lq_sel_offset + 3-1]),
.din(rv_xu1_s3_lq_sel[6:8]),
.dout(ex1_abt_s3_lq_sel_q)
);
tri_rlmreg_p #(.WIDTH(2), .OFFSET(6),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s1_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s1_xu1_sel_offset : ex1_abt_s1_xu1_sel_offset + 2-1]),
.scout(sov[ex1_abt_s1_xu1_sel_offset : ex1_abt_s1_xu1_sel_offset + 2-1]),
.din(ex0_gpr_s1_xu1_sel[5:6]),
.dout(ex1_abt_s1_xu1_sel_q)
);
tri_rlmreg_p #(.WIDTH(2), .OFFSET(6),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s2_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s2_xu1_sel_offset : ex1_abt_s2_xu1_sel_offset + 2-1]),
.scout(sov[ex1_abt_s2_xu1_sel_offset : ex1_abt_s2_xu1_sel_offset + 2-1]),
.din(ex0_gpr_s2_xu1_sel[5:6]),
.dout(ex1_abt_s2_xu1_sel_q)
);
tri_rlmreg_p #(.WIDTH(2), .OFFSET(6),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s3_xu1_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s3_xu1_sel_offset : ex1_abt_s3_xu1_sel_offset + 2-1]),
.scout(sov[ex1_abt_s3_xu1_sel_offset : ex1_abt_s3_xu1_sel_offset + 2-1]),
.din(rv_xu1_s3_fxu1_sel[5:6]),
.dout(ex1_abt_s3_xu1_sel_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(9),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s1_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s1_xu0_sel_offset : ex1_abt_s1_xu0_sel_offset + 4-1]),
.scout(sov[ex1_abt_s1_xu0_sel_offset : ex1_abt_s1_xu0_sel_offset + 4-1]),
.din(ex0_gpr_s1_xu0_sel[8:11]),
.dout(ex1_abt_s1_xu0_sel_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(9),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s2_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s2_xu0_sel_offset : ex1_abt_s2_xu0_sel_offset + 4-1]),
.scout(sov[ex1_abt_s2_xu0_sel_offset : ex1_abt_s2_xu0_sel_offset + 4-1]),
.din(ex0_gpr_s2_xu0_sel[8:11]),
.dout(ex1_abt_s2_xu0_sel_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(9),.INIT(0), .NEEDS_SRESET(1)) ex1_abt_s3_xu0_sel_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[0]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX1]),
.mpw1_b(mpw1_dc_b[DEX1]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex1_abt_s3_xu0_sel_offset : ex1_abt_s3_xu0_sel_offset + 4-1]),
.scout(sov[ex1_abt_s3_xu0_sel_offset : ex1_abt_s3_xu0_sel_offset + 4-1]),
.din(rv_xu1_s3_fxu0_sel[8:11]),
.dout(ex1_abt_s3_xu0_sel_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) ex4_xu1_rt_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[3]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX4]),
.mpw1_b(mpw1_dc_b[DEX4]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex4_xu1_rt_offset : ex4_xu1_rt_offset + `GPR_WIDTH-1]),
.scout(sov[ex4_xu1_rt_offset : ex4_xu1_rt_offset + `GPR_WIDTH-1]),
.din(alu_byp_ex3_rt),
.dout(ex4_xu1_rt_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) ex5_xu1_rt_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[4]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX5]),
.mpw1_b(mpw1_dc_b[DEX5]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex5_xu1_rt_offset : ex5_xu1_rt_offset + `GPR_WIDTH-1]),
.scout(sov[ex5_xu1_rt_offset : ex5_xu1_rt_offset + `GPR_WIDTH-1]),
.din(ex4_xu1_rt_q),
.dout(ex5_xu1_rt_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex5_xu0_cr_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu0_act[4]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX5]),
.mpw1_b(mpw1_dc_b[DEX5]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex5_xu0_cr_offset : ex5_xu0_cr_offset + 4-1]),
.scout(sov[ex5_xu0_cr_offset : ex5_xu0_cr_offset + 4-1]),
.din(xu0_xu1_ex4_cr),
.dout(ex5_xu0_cr_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex6_lq_cr_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_lq_act[5]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX6]),
.mpw1_b(mpw1_dc_b[DEX6]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex6_lq_cr_offset : ex6_lq_cr_offset + 4-1]),
.scout(sov[ex6_lq_cr_offset : ex6_lq_cr_offset + 4-1]),
.din(lq_xu_ex5_cr),
.dout(ex6_lq_cr_q)
);
tri_rlmreg_p #(.WIDTH(10), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex5_xu0_xer_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu0_act[4]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX5]),
.mpw1_b(mpw1_dc_b[DEX5]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex5_xu0_xer_offset : ex5_xu0_xer_offset + 10-1]),
.scout(sov[ex5_xu0_xer_offset : ex5_xu0_xer_offset + 10-1]),
.din(xu0_xu1_ex4_xer),
.dout(ex5_xu0_xer_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) ex2_rs1_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[1]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex2_rs1_offset : ex2_rs1_offset + `GPR_WIDTH-1]),
.scout(sov[ex2_rs1_offset : ex2_rs1_offset + `GPR_WIDTH-1]),
.din(ex1_rs1),
.dout(ex2_rs1_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) ex2_rs2_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[1]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex2_rs2_offset : ex2_rs2_offset + `GPR_WIDTH-1]),
.scout(sov[ex2_rs2_offset : ex2_rs2_offset + `GPR_WIDTH-1]),
.din(ex1_rs2),
.dout(ex2_rs2_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex2_cr_bit_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[1]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex2_cr_bit_offset]),
.scout(sov[ex2_cr_bit_offset]),
.din(ex1_cr_bit),
.dout(ex2_cr_bit_q)
);
tri_rlmreg_p #(.WIDTH(10), .OFFSET(0),.INIT(0), .NEEDS_SRESET(1)) ex2_xer3_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_xu1_act[1]),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[ex2_xer3_offset : ex2_xer3_offset + 10-1]),
.scout(sov[ex2_xer3_offset : ex2_xer3_offset + 10-1]),
.din(ex1_xer3),
.dout(ex2_xer3_q)
);
tri_rlmreg_p #(.WIDTH(10), .OFFSET(3),.INIT(0), .NEEDS_SRESET(1)) exx_xu0_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_xu0_abort_offset : exx_xu0_abort_offset + 10-1]),
.scout(sov[exx_xu0_abort_offset : exx_xu0_abort_offset + 10-1]),
.din(exx_xu0_abort_d),
.dout(exx_xu0_abort_q)
);
tri_rlmreg_p #(.WIDTH(6), .OFFSET(2),.INIT(0), .NEEDS_SRESET(1)) exx_xu1_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_xu1_abort_offset : exx_xu1_abort_offset + 6-1]),
.scout(sov[exx_xu1_abort_offset : exx_xu1_abort_offset + 6-1]),
.din(exx_xu1_abort_d),
.dout(exx_xu1_abort_q)
);
tri_rlmreg_p #(.WIDTH(4), .OFFSET(6),.INIT(0), .NEEDS_SRESET(1)) exx_lq_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_lq_abort_offset : exx_lq_abort_offset + 4-1]),
.scout(sov[exx_lq_abort_offset : exx_lq_abort_offset + 4-1]),
.din(exx_lq_abort_d),
.dout(exx_lq_abort_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex2_rs1_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex2_rs1_abort_offset]),
.scout(sov[ex2_rs1_abort_offset]),
.din(ex1_rs1_abort),
.dout(ex2_rs1_abort_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex2_rs2_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex2_rs2_abort_offset]),
.scout(sov[ex2_rs2_abort_offset]),
.din(ex1_rs2_abort),
.dout(ex2_rs2_abort_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) ex2_rs3_abort_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DEX2]),
.mpw1_b(mpw1_dc_b[DEX2]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin(siv[ex2_rs3_abort_offset]),
.scout(sov[ex2_rs3_abort_offset]),
.din(ex1_rs3_abort),
.dout(ex2_rs3_abort_q)
);
tri_rlmlatch_p #(.INIT(0), .NEEDS_SRESET(1)) exx_rel3_act_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(1'b1),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_rel3_act_offset]),
.scout(sov[exx_rel3_act_offset]),
.din(lq_xu_rel_act),
.dout(exx_rel3_act_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) exx_rel3_rt_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(lq_xu_rel_act),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_rel3_rt_offset : exx_rel3_rt_offset + `GPR_WIDTH-1]),
.scout(sov[exx_rel3_rt_offset : exx_rel3_rt_offset + `GPR_WIDTH-1]),
.din(lq_xu_rel_rt),
.dout(exx_rel3_rt_q)
);
tri_rlmreg_p #(.WIDTH(`GPR_WIDTH), .OFFSET(64-`GPR_WIDTH),.INIT(0), .NEEDS_SRESET(1)) exx_rel4_rt_latch(
.clk(clk),
.rst(rst), .vd(vdd), .gd(gnd),
.act(exx_rel3_act_q),
.force_t(func_sl_force),
.d_mode(d_mode_dc), .delay_lclkr(delay_lclkr_dc[DX]),
.mpw1_b(mpw1_dc_b[DX]), .mpw2_b(mpw2_dc_b),
.thold_b(func_sl_thold_0_b),
.sg(sg_0),
.scin (siv[exx_rel4_rt_offset : exx_rel4_rt_offset + `GPR_WIDTH-1]),
.scout(sov[exx_rel4_rt_offset : exx_rel4_rt_offset + `GPR_WIDTH-1]),
.din(exx_rel3_rt_q),
.dout(exx_rel4_rt_q)
);
assign siv[0:scan_right-1] = {sov[1:scan_right-1], scan_in};
assign scan_out = sov[0];
function [0:`GPR_WIDTH-1] fanout;
input [0:7] a;
input integer s;
integer t;
begin
for (t=0;t<`GPR_WIDTH;t=t+1)
begin : loop
fanout[t] = a[t % 8];
end
end
endfunction
endmodule