cores-swerv-el2/design/ifu/el2_ifu_compress_ctl.sv

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//********************************************************************************
// SPDX-License-Identifier: Apache-2.0
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// Copyright 2020 Western Digital Corporation or its affiliates.
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//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// 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.
//********************************************************************************
// purpose of this file is to convert 16b RISCV compressed instruction into 32b equivalent
module el2_ifu_compress_ctl
import el2_pkg::*;
#(
`include "el2_param.vh"
)
(
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input logic [15:0] din, // 16-bit compressed instruction
output logic [31:0] dout // 32-bit uncompressed instruction
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);
logic legal;
logic [15:0] i;
logic [31:0] o,l1,l2,l3;
assign i[15:0] = din[15:0];
logic [4:0] rs2d,rdd,rdpd,rs2pd;
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logic rdrd;
logic rdrs1;
logic rs2rs2;
logic rdprd;
logic rdprs1;
logic rs2prs2;
logic rs2prd;
logic uimm9_2;
logic ulwimm6_2;
logic ulwspimm7_2;
logic rdeq2;
logic rdeq1;
logic rs1eq2;
logic sbroffset8_1;
logic simm9_4;
logic simm5_0;
logic sjaloffset11_1;
logic sluimm17_12;
logic uimm5_0;
logic uswimm6_2;
logic uswspimm7_2;
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// form the opcodes
// formats
//
// c.add rd 11:7 rs2 6:2
// c.and rdp 9:7 rs2p 4:2
//
// add rs2 24:20 rs1 19:15 rd 11:7
assign rs2d[4:0] = i[6:2];
assign rdd[4:0] = i[11:7];
assign rdpd[4:0] = {2'b01, i[9:7]};
assign rs2pd[4:0] = {2'b01, i[4:2]};
// merge in rd, rs1, rs2
// rd
assign l1[6:0] = o[6:0];
assign l1[11:7] = o[11:7] |
({5{rdrd}} & rdd[4:0]) |
({5{rdprd}} & rdpd[4:0]) |
({5{rs2prd}} & rs2pd[4:0]) |
({5{rdeq1}} & 5'd1) |
({5{rdeq2}} & 5'd2);
// rs1
assign l1[14:12] = o[14:12];
assign l1[19:15] = o[19:15] |
({5{rdrs1}} & rdd[4:0]) |
({5{rdprs1}} & rdpd[4:0]) |
({5{rs1eq2}} & 5'd2);
// rs2
assign l1[24:20] = o[24:20] |
({5{rs2rs2}} & rs2d[4:0]) |
({5{rs2prs2}} & rs2pd[4:0]);
assign l1[31:25] = o[31:25];
logic [5:0] simm5d;
logic [9:2] uimm9d;
logic [9:4] simm9d;
logic [6:2] ulwimm6d;
logic [7:2] ulwspimm7d;
logic [5:0] uimm5d;
logic [20:1] sjald;
logic [31:12] sluimmd;
// merge in immediates + jal offset
assign simm5d[5:0] = { i[12], i[6:2] };
assign uimm9d[9:2] = { i[10:7], i[12:11], i[5], i[6] };
assign simm9d[9:4] = { i[12], i[4:3], i[5], i[2], i[6] };
assign ulwimm6d[6:2] = { i[5], i[12:10], i[6] };
assign ulwspimm7d[7:2] = { i[3:2], i[12], i[6:4] };
assign uimm5d[5:0] = { i[12], i[6:2] };
assign sjald[11:1] = { i[12], i[8], i[10:9], i[6], i[7], i[2], i[11], i[5:4], i[3] };
assign sjald[20:12] = {9{i[12]}};
assign sluimmd[31:12] = { {15{i[12]}}, i[6:2] };
assign l2[31:20] = ( l1[31:20] ) |
( {12{simm5_0}} & {{7{simm5d[5]}},simm5d[4:0]} ) |
( {12{uimm9_2}} & {2'b0,uimm9d[9:2],2'b0} ) |
( {12{simm9_4}} & {{3{simm9d[9]}},simm9d[8:4],4'b0} ) |
( {12{ulwimm6_2}} & {5'b0,ulwimm6d[6:2],2'b0} ) |
( {12{ulwspimm7_2}} & {4'b0,ulwspimm7d[7:2],2'b0} ) |
( {12{uimm5_0}} & {6'b0,uimm5d[5:0]} ) |
( {12{sjaloffset11_1}} & {sjald[20],sjald[10:1],sjald[11]} ) |
( {12{sluimm17_12}} & sluimmd[31:20] );
assign l2[19:12] = ( l1[19:12] ) |
( {8{sjaloffset11_1}} & sjald[19:12] ) |
( {8{sluimm17_12}} & sluimmd[19:12] );
assign l2[11:0] = l1[11:0];
// merge in branch offset and store immediates
logic [8:1] sbr8d;
logic [6:2] uswimm6d;
logic [7:2] uswspimm7d;
assign sbr8d[8:1] = { i[12], i[6], i[5], i[2], i[11], i[10], i[4], i[3] };
assign uswimm6d[6:2] = { i[5], i[12:10], i[6] };
assign uswspimm7d[7:2] = { i[8:7], i[12:9] };
assign l3[31:25] = ( l2[31:25] ) |
( {7{sbroffset8_1}} & { {4{sbr8d[8]}},sbr8d[7:5] } ) |
( {7{uswimm6_2}} & { 5'b0, uswimm6d[6:5] } ) |
( {7{uswspimm7_2}} & { 4'b0, uswspimm7d[7:5] } );
assign l3[24:12] = l2[24:12];
assign l3[11:7] = ( l2[11:7] ) |
( {5{sbroffset8_1}} & { sbr8d[4:1], sbr8d[8] } ) |
( {5{uswimm6_2}} & { uswimm6d[4:2], 2'b0 } ) |
( {5{uswspimm7_2}} & { uswspimm7d[4:2], 2'b0 } );
assign l3[6:0] = l2[6:0];
assign dout[31:0] = l3[31:0] & {32{legal}};
// file "cdecode" is human readable file that has all of the compressed instruction decodes defined and is part of git repo
// modify this file as needed
// to generate all the equations below from "cdecode" except legal equation:
// 1) coredecode -in cdecode > cdecode.e
// 2) espresso -Dso -oeqntott cdecode.e | addassign > compress_equations
// to generate the legal (16b compressed instruction is legal) equation below:
// 1) coredecode -in cdecode -legal > clegal.e
// 2) espresso -Dso -oeqntott clegal.e | addassign > clegal_equation
// espresso decodes
assign rdrd = (!i[14]&i[6]&i[1]) | (!i[15]&i[14]&i[11]&i[0]) | (!i[14]&i[5]&i[1]) | (
!i[15]&i[14]&i[10]&i[0]) | (!i[14]&i[4]&i[1]) | (!i[15]&i[14]&i[9]
&i[0]) | (!i[14]&i[3]&i[1]) | (!i[15]&i[14]&!i[8]&i[0]) | (!i[14]
&i[2]&i[1]) | (!i[15]&i[14]&i[7]&i[0]) | (!i[15]&i[1]) | (!i[15]
&!i[13]&i[0]);
assign rdrs1 = (!i[14]&i[12]&i[11]&i[1]) | (!i[14]&i[12]&i[10]&i[1]) | (!i[14]
&i[12]&i[9]&i[1]) | (!i[14]&i[12]&i[8]&i[1]) | (!i[14]&i[12]&i[7]
&i[1]) | (!i[14]&!i[12]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]
&i[12]&i[6]&i[1]) | (!i[14]&i[12]&i[5]&i[1]) | (!i[14]&i[12]&i[4]
&i[1]) | (!i[14]&i[12]&i[3]&i[1]) | (!i[14]&i[12]&i[2]&i[1]) | (
!i[15]&!i[14]&!i[13]&i[0]) | (!i[15]&!i[14]&i[1]);
assign rs2rs2 = (i[15]&i[6]&i[1]) | (i[15]&i[5]&i[1]) | (i[15]&i[4]&i[1]) | (
i[15]&i[3]&i[1]) | (i[15]&i[2]&i[1]) | (i[15]&i[14]&i[1]);
assign rdprd = (i[15]&!i[14]&!i[13]&i[0]);
assign rdprs1 = (i[15]&!i[13]&i[0]) | (i[15]&i[14]&i[0]) | (i[14]&!i[1]&!i[0]);
assign rs2prs2 = (i[15]&!i[14]&!i[13]&i[11]&i[10]&i[0]) | (i[15]&!i[1]&!i[0]);
assign rs2prd = (!i[15]&!i[1]&!i[0]);
assign uimm9_2 = (!i[14]&!i[1]&!i[0]);
assign ulwimm6_2 = (!i[15]&i[14]&!i[1]&!i[0]);
assign ulwspimm7_2 = (!i[15]&i[14]&i[1]);
assign rdeq2 = (!i[15]&i[14]&i[13]&!i[11]&!i[10]&!i[9]&i[8]&!i[7]);
assign rdeq1 = (!i[14]&i[12]&i[11]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]
&i[12]&i[10]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[9]
&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[8]&!i[6]&!i[5]
&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[7]&!i[6]&!i[5]&!i[4]&!i[3]
&!i[2]&i[1]) | (!i[15]&!i[14]&i[13]);
assign rs1eq2 = (!i[15]&i[14]&i[13]&!i[11]&!i[10]&!i[9]&i[8]&!i[7]) | (i[14]
&i[1]) | (!i[14]&!i[1]&!i[0]);
assign sbroffset8_1 = (i[15]&i[14]&i[0]);
assign simm9_4 = (!i[15]&i[14]&i[13]&!i[11]&!i[10]&!i[9]&i[8]&!i[7]);
assign simm5_0 = (!i[14]&!i[13]&i[11]&!i[10]&i[0]) | (!i[15]&!i[13]&i[0]);
assign sjaloffset11_1 = (!i[14]&i[13]);
assign sluimm17_12 = (!i[15]&i[14]&i[13]&i[7]) | (!i[15]&i[14]&i[13]&!i[8]) | (
!i[15]&i[14]&i[13]&i[9]) | (!i[15]&i[14]&i[13]&i[10]) | (!i[15]&i[14]
&i[13]&i[11]);
assign uimm5_0 = (i[15]&!i[14]&!i[13]&!i[11]&i[0]) | (!i[15]&!i[14]&i[1]);
assign uswimm6_2 = (i[15]&!i[1]&!i[0]);
assign uswspimm7_2 = (i[15]&i[14]&i[1]);
assign o[31] = 1'b0;
assign o[30] = (i[15]&!i[14]&!i[13]&i[10]&!i[6]&!i[5]&i[0]) | (i[15]&!i[14]
&!i[13]&!i[11]&i[10]&i[0]);
assign o[29] = 1'b0;
assign o[28] = 1'b0;
assign o[27] = 1'b0;
assign o[26] = 1'b0;
assign o[25] = 1'b0;
assign o[24] = 1'b0;
assign o[23] = 1'b0;
assign o[22] = 1'b0;
assign o[21] = 1'b0;
assign o[20] = (!i[14]&i[12]&!i[11]&!i[10]&!i[9]&!i[8]&!i[7]&!i[6]&!i[5]&!i[4]
&!i[3]&!i[2]&i[1]);
assign o[19] = 1'b0;
assign o[18] = 1'b0;
assign o[17] = 1'b0;
assign o[16] = 1'b0;
assign o[15] = 1'b0;
assign o[14] = (i[15]&!i[14]&!i[13]&!i[11]&i[0]) | (i[15]&!i[14]&!i[13]&!i[10]
&i[0]) | (i[15]&!i[14]&!i[13]&i[6]&i[0]) | (i[15]&!i[14]&!i[13]&i[5]
&i[0]);
assign o[13] = (i[15]&!i[14]&!i[13]&i[11]&!i[10]&i[0]) | (i[15]&!i[14]&!i[13]
&i[11]&i[6]&i[0]) | (i[14]&!i[0]);
assign o[12] = (i[15]&!i[14]&!i[13]&i[6]&i[5]&i[0]) | (i[15]&!i[14]&!i[13]&!i[11]
&i[0]) | (i[15]&!i[14]&!i[13]&!i[10]&i[0]) | (!i[15]&!i[14]&i[1]) | (
i[15]&i[14]&i[13]);
assign o[11] = 1'b0;
assign o[10] = 1'b0;
assign o[9] = 1'b0;
assign o[8] = 1'b0;
assign o[7] = 1'b0;
assign o[6] = (i[15]&!i[14]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&!i[0]) | (!i[14]&i[13]) | (
i[15]&i[14]&i[0]);
assign o[5] = (i[15]&!i[0]) | (i[15]&i[11]&i[10]) | (i[13]&!i[8]) | (i[13]&i[7]) | (
i[13]&i[9]) | (i[13]&i[10]) | (i[13]&i[11]) | (!i[14]&i[13]) | (
i[15]&i[14]);
assign o[4] = (!i[14]&!i[11]&!i[10]&!i[9]&!i[8]&!i[7]&!i[0]) | (!i[15]&!i[14]
&!i[0]) | (!i[14]&i[6]&!i[0]) | (!i[15]&i[14]&i[0]) | (!i[14]&i[5]
&!i[0]) | (!i[14]&i[4]&!i[0]) | (!i[14]&!i[13]&i[0]) | (!i[14]&i[3]
&!i[0]) | (!i[14]&i[2]&!i[0]);
assign o[3] = (!i[14]&i[13]);
assign o[2] = (!i[14]&i[12]&i[11]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]
&i[12]&i[10]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[9]
&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[8]&!i[6]&!i[5]
&!i[4]&!i[3]&!i[2]&i[1]) | (!i[14]&i[12]&i[7]&!i[6]&!i[5]&!i[4]&!i[3]
&!i[2]&i[1]) | (i[15]&!i[14]&!i[12]&!i[6]&!i[5]&!i[4]&!i[3]&!i[2]
&!i[0]) | (!i[15]&i[13]&!i[8]) | (!i[15]&i[13]&i[7]) | (!i[15]&i[13]
&i[9]) | (!i[15]&i[13]&i[10]) | (!i[15]&i[13]&i[11]) | (!i[14]&i[13]);
// 32b instruction has lower two bits 2'b11
assign o[1] = 1'b1;
assign o[0] = 1'b1;
assign legal = (!i[13]&!i[12]&i[11]&i[1]&!i[0]) | (!i[13]&!i[12]&i[6]&i[1]&!i[0]) | (
!i[15]&!i[13]&i[11]&!i[1]) | (!i[13]&!i[12]&i[5]&i[1]&!i[0]) | (
!i[13]&!i[12]&i[10]&i[1]&!i[0]) | (!i[15]&!i[13]&i[6]&!i[1]) | (
i[15]&!i[12]&!i[1]&i[0]) | (!i[13]&!i[12]&i[9]&i[1]&!i[0]) | (!i[12]
&i[6]&!i[1]&i[0]) | (!i[15]&!i[13]&i[5]&!i[1]) | (!i[13]&!i[12]&i[8]
&i[1]&!i[0]) | (!i[12]&i[5]&!i[1]&i[0]) | (!i[15]&!i[13]&i[10]&!i[1]) | (
!i[13]&!i[12]&i[7]&i[1]&!i[0]) | (i[12]&i[11]&!i[10]&!i[1]&i[0]) | (
!i[15]&!i[13]&i[9]&!i[1]) | (!i[13]&!i[12]&i[4]&i[1]&!i[0]) | (i[13]
&i[12]&!i[1]&i[0]) | (!i[15]&!i[13]&i[8]&!i[1]) | (!i[13]&!i[12]&i[3]
&i[1]&!i[0]) | (i[13]&i[4]&!i[1]&i[0]) | (!i[13]&!i[12]&i[2]&i[1]
&!i[0]) | (!i[15]&!i[13]&i[7]&!i[1]) | (i[13]&i[3]&!i[1]&i[0]) | (
i[13]&i[2]&!i[1]&i[0]) | (i[14]&!i[13]&!i[1]) | (!i[14]&!i[12]&!i[1]
&i[0]) | (i[15]&!i[13]&i[12]&i[1]&!i[0]) | (!i[15]&!i[13]&!i[12]&i[1]
&!i[0]) | (!i[15]&!i[13]&i[12]&!i[1]) | (i[14]&!i[13]&!i[0]);
endmodule