\m4_TLV_version 1d: tl-x.org
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\SV
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// This code can be found in: https://github.com/stevehoover/LF-Building-a-RISC-V-CPU-Core/risc-v_shell.tlv
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m4_include_lib(['https://raw.githubusercontent.com/stevehoover/warp-v_includes/1d1023ccf8e7b0a8cf8e8fc4f0a823ebb61008e3/risc-v_defs.tlv'])
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m4_include_lib(['https://raw.githubusercontent.com/stevehoover/LF-Building-a-RISC-V-CPU-Core/main/lib/risc-v_shell_lib.tlv'])
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//---------------------------------------------------------------------------------
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m4_test_prog()
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//---------------------------------------------------------------------------------
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\SV
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m4_makerchip_module // (Expanded in Nav-TLV pane.)
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/* verilator lint_on WIDTH */
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\TLV
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$reset = *reset;
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// Program counter
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$next_pc[31:0] = $reset ? 32'b0 :
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$taken_br || $is_jal ? $br_tgt_br :
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$is_jalr ? $jalr_tgt_pc :
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$pc + 4;
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$pc[31:0] = >>1$next_pc;
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// Instruction memory
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`READONLY_MEM($pc, $$instr[31:0])
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// Decode
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// Decode instruction type
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$is_r_instr = $instr[6:2] == 5'b01011 ||
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$instr[6:2] == 5'b01100 ||
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$instr[6:2] == 5'b01110 ||
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$instr[6:2] == 5'b10100;
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$is_i_instr = $instr[6:2] ==? 5'b0000x ||
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$instr[6:2] ==? 5'b001x0 ||
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$instr[6:2] == 5'b11001;
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$is_s_instr = $instr[6:2] ==? 5'b0100x;
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$is_b_instr = $instr[6:2] == 5'b11000;
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$is_u_instr = $instr[6:2] ==? 5'b0x101;
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$is_j_instr = $instr[6:2] == 5'b11011;
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// Extract instruction fields
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$opcode[6:0] = $instr[6:0];
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$rd[4:0] = $instr[11:7];
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$funct3[2:0] = $instr[14:12];
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$rs1[4:0] = $instr[19:15];
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$rs2[4:0] = $instr[24:20];
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$funct7[6:0] = $instr[31:25];
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$imm[31:0] = $is_i_instr ? { {21{$instr[31]}}, $instr[30:20] } :
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$is_s_instr ? { {21{$instr[31]}}, $instr[30:25], $instr[11:7] } :
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$is_b_instr ? { {20{$instr[31]}}, $instr[7], $instr[30:25],
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$instr[11:8], 1'b0 } :
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$is_u_instr ? { $instr[31], $instr[30:12], 12'b0 } :
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$is_j_instr ? { {12{$instr[31]}}, $instr[19:12], $instr[20],
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$instr[30:21], 1'b0 } :
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32'b0;
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// Calculate instruction fields valids
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$rd_valid = $is_r_instr || $is_i_instr || $is_u_instr || $is_j_instr;
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$funct3_valid = $is_r_instr || $is_i_instr || $is_s_instr || $is_b_instr;
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$rs1_valid = $funct3_valid;
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$rs2_valid = $is_r_instr || $is_s_instr || $is_b_instr;
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$funct7_valid = $is_r_instr;
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$imm_valid = !$is_r_instr;
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// Instruction code decoding
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$dec_bits[10:0] = { $funct7[5], $funct3, $opcode };
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$is_beq = $dec_bits ==? 11'bx_000_1100011;
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$is_bne = $dec_bits ==? 11'bx_001_1100011;
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$is_blt = $dec_bits ==? 11'bx_100_1100011;
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$is_bge = $dec_bits ==? 11'bx_101_1100011;
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$is_bltu = $dec_bits ==? 11'bx_110_1100011;
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$is_bgeu = $dec_bits ==? 11'bx_111_1100011;
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$is_addi = $dec_bits ==? 11'bx_000_0010011;
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$is_add = $dec_bits == 11'b0_000_0110011;
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$is_lui = $dec_bits ==? 11'bx_xxx_0110111;
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$is_auipc = $dec_bits ==? 11'bx_xxx_0010111;
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$is_jal = $dec_bits ==? 11'bx_xxx_1101111;
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$is_jalr = $dec_bits ==? 11'bx_000_1100111;
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$is_slti = $dec_bits ==? 11'bx_010_0010011;
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$is_sltiu = $dec_bits ==? 11'bx_011_0010011;
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$is_xori = $dec_bits ==? 11'bx_100_0010011;
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$is_ori = $dec_bits ==? 11'bx_110_0010011;
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$is_andi = $dec_bits ==? 11'bx_111_0010011;
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$is_slli = $dec_bits ==? 11'b0_001_0010011;
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$is_srli = $dec_bits ==? 11'b0_101_0010011;
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$is_srai = $dec_bits ==? 11'b1_101_0010011;
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$is_sub = $dec_bits ==? 11'b1_000_0110011;
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$is_sll = $dec_bits ==? 11'b0_001_0110011;
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$is_slt = $dec_bits ==? 11'b0_010_0110011;
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$is_sltu = $dec_bits ==? 11'b0_011_0110011;
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$is_xor = $dec_bits ==? 11'b0_100_0110011;
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$is_srl = $dec_bits ==? 11'b0_101_0110011;
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$is_sra = $dec_bits ==? 11'b1_101_0110011;
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$is_or = $dec_bits ==? 11'b0_110_0110011;
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$is_and = $dec_bits ==? 11'b0_111_0110011;
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// LB, LH, LW, LBU, LHU
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$is_load = $opcode == 7'b0000011;
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// SB, SH, SW
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$is_store = $is_s_instr;
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// ALU
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// Some subexpressions
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// SLTU & SLTI (set if less than, unsigned)
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$sltu_rslt[31:0] = {31'b0, $src1_value < $src2_value};
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$sltiu_rslt[31:0] = {31'b0, $src1_value < $imm};
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// SRA & SRAI (shift right, arithmetic)
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// sign-extended src1
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$sext_src1[63:0] = { {32{$src1_value[31]}}, $src1_value };
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// 64-bit sign-extended result
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$sra_rslt[63:0] = $sext_src1 >> $src2_value[4:0];
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$srai_rslt[63:0] = $sext_src1 >> $imm[4:0];
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// ALU
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$result[31:0] = $is_andi ? $src1_value & $imm :
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$is_ori ? $src1_value | $imm :
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$is_xori ? $src1_value ^ $imm :
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$is_addi | $is_load | $is_store ? $src1_value + $imm :
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$is_slli ? $src1_value << $imm[5:0] :
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$is_srli ? $src1_value >> $imm[5:0] :
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$is_and ? $src1_value & $src2_value :
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$is_or ? $src1_value | $src2_value :
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$is_xor ? $src1_value ^ $src2_value :
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$is_add ? $src1_value + $src2_value :
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$is_sub ? $src1_value - $src2_value :
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$is_sll ? $src1_value << $src2_value[4:0] :
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$is_srl ? $src1_value >> $src2_value[4:0] :
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$is_sltu ? $sltu_rslt :
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$is_sltiu ? $sltiu_rslt :
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$is_lui ? {$imm[31:12], 12'b0} :
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$is_auipc ? $pc + $imm :
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$is_jal ? $pc + 4 :
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$is_jalr ? $pc + 4 :
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$is_slt ? (($src1_value[31] == $src2_value[31]) ?
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$sltu_rslt :
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{31'b0, $src1_value[31]}) :
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$is_slti ? (($src1_value[31] == $imm[31]) ?
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$sltiu_rslt :
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{31'b0, $src1_value[31]}) :
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$is_sra ? $sra_rslt[31:0] :
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$is_srai ? $srai_rslt[31:0] :
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32'b0;
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// Branch logic
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$taken_br = $is_beq ? $src1_value == $src2_value :
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$is_bne ? $src1_value != $src2_value :
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$is_blt ? ($src1_value < $src2_value) ^
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($src1_value[31] != $src2_value[31]) :
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$is_bge ? ($src1_value >= $src2_value) ^
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($src1_value[31] != $src2_value[31]) :
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$is_bltu ? $src1_value < $src2_value :
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$is_bgeu ? $src1_value >= $src2_value :
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1'b0;
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$br_tgt_br[31:0] = $pc + $imm;
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$jalr_tgt_pc[31:0] = $src1_value + $imm;
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// Assert these to end simulation (before Makerchip cycle limit).
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m4+tb();
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*failed = *cyc_cnt > M4_MAX_CYC;
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m4+rf(32, 32, $reset, $rd != 5'b00000 ? $rd_valid : 1'b0, $rd, $is_load ? $ld_data : $result, $rs1_valid, $rs1, $src1_value, $rs2_valid, $rs2, $src2_value)
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m4+dmem(32, 32, $reset, $result[6:2], $is_store, $src2_value, $is_load, $ld_data)
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m4+cpu_viz()
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\SV
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endmodule
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