remove descriptions
This commit is contained in:
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import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
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Core TGC_B provides RV32I, Zicsr, Zifencei {
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architectural_state {
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XLEN=32;
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// definitions for the architecture wrapper
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// XL ZYXWVUTSRQPONMLKJIHGFEDCBA
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unsigned MISA_VAL = 0b01000000000000000000000100000000;
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unsigned MARCHID_VAL = 0x80000002;
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}
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}
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import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
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Core TGC_D provides RV32I, Zicsr, Zifencei, RV32M, RV32IC {
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architectural_state {
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XLEN=32;
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// definitions for the architecture wrapper
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// XL ZYXWVUTSRQPONMLKJIHGFEDCBA
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unsigned MISA_VAL = 0b01000000000100000011000100000100;
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unsigned MARCHID_VAL = 0x80000004;
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}
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}
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import "CoreDSL-Instruction-Set-Description/RISCVBase.core_desc"
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import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
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InstructionSet X_RB_MAC extends RISCVBase {
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architectural_state {
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register unsigned<64> ACC;
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}
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instructions {
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RESET_ACC { // v-- funct7 v-- funct3
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encoding: 7'd0 :: 10'b0 :: 3'd0 :: 5'b0 :: 7'b0001011;
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behavior: ACC = 0;
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}
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GET_ACC_LO {
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encoding: 7'd1 :: 10'b0 :: 3'd0 :: rd[4:0] :: 7'b0001011;
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behavior: if (rd != 0) X[rd] = ACC[31:0];
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}
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GET_ACC_HI {
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encoding: 7'd2 :: 10'b0 :: 3'd0 :: rd[4:0] :: 7'b0001011;
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behavior: if (rd != 0) X[rd] = ACC[63:32];
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}
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MACU_32 {
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encoding: 7'd0 :: rs2[4:0] :: rs1[4:0] :: 3'd1 :: 5'b0 :: 7'b0001011;
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behavior: {
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unsigned<64> mul = X[rs1] * X[rs2];
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unsigned<33> add = mul[31:0] + ACC[31:0];
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ACC = add[31:0];
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}
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}
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MACS_32 {
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encoding: 7'd1 :: rs2[4:0] :: rs1[4:0] :: 3'd1 :: 5'b0 :: 7'b0001011;
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behavior: {
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signed<64> mul = ((signed) X[rs1]) * ((signed) X[rs2]);
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signed<33> add = ((signed) mul[31:0]) + ((signed) ACC[31:0]);
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ACC = add[31:0]; // bit range always yields unsigned type
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}
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}
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MACU_64 {
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encoding: 7'd0 :: rs2[4:0] :: rs1[4:0] :: 3'd2 :: 5'b0 :: 7'b0001011;
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behavior: {
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unsigned<64> mul = X[rs1] * X[rs2];
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unsigned<65> add = mul + ACC;
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ACC = add[63:0];
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}
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}
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MACS_64 {
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encoding: 7'd1 :: rs2[4:0] :: rs1[4:0] :: 3'd2 :: 5'b0 :: 7'b0001011;
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behavior: {
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signed<64> mul = ((signed) X[rs1]) * ((signed) X[rs2]);
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signed<65> add = mul + ((signed) ACC);
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ACC = add[63:0];
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}
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}
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}
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}
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Core TGC_D_XRB_MAC provides RV32I, Zicsr, Zifencei, RV32M, RV32IC, X_RB_MAC {
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architectural_state {
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XLEN=32;
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// definitions for the architecture wrapper
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// XL ZYXWVUTSRQPONMLKJIHGFEDCBA
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unsigned MISA_VAL = 0b01000000000000000001000100000100;
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unsigned MARCHID_VAL = 0x80000004;
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}
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}
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import "CoreDSL-Instruction-Set-Description/RISCVBase.core_desc"
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import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
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import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
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InstructionSet X_RB_NN extends RISCVBase {
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instructions {
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// signed saturate with pre-shift
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SSAT {
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// instruction format: R-type
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// opcode space: custom-1 (inst[6:2] = 01010)
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// opcode = 0b0101011, func3 = 0b000, func7 = <bit position to saturate to>
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encoding: sat_bit_pos[6:0] :: rs2[4:0] :: rs1[4:0] :: 0b000 :: rd[4:0] :: 0b0101011;
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args_disass:"{name(rd)}, {name(rs1)}, {name(rs2)}, {name(sat_bit_pos)}";
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behavior: {
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signed<XLEN> val_s = (signed<XLEN>)X[rs1];
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unsigned<XLEN> pre_shift = (unsigned<XLEN>)X[rs2];
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unsigned<XLEN> sat_limit;
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signed<XLEN> upper_limit;
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signed<XLEN> lower_limit;
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if((rd != 0) && (sat_bit_pos > 0) && (sat_bit_pos <= 32) && (pre_shift < 32)) {
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sat_limit = (unsigned<XLEN>)(1 << (sat_bit_pos - 1));
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upper_limit = (signed)sat_limit - 1;
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lower_limit = (signed)sat_limit * (-1);
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// important: arithmetical shift right
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val_s = val_s >> pre_shift;
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X[rd] = (val_s > upper_limit) ? (upper_limit) : ( (val_s < lower_limit) ? (lower_limit) : (val_s) );
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}
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}
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}
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// custom packed dot product with accumulation (4x8bit)
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PDOT8 {
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// instruction format: R-type
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// opcode space: custom-1 (inst[6:2] = 01010)
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// opcode = 0b0101011, func3 = 0b001, func7 = 0b0000000
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encoding: 0b0000000 :: rs2[4:0] :: rs1[4:0] :: 0b001 :: rd[4:0] :: 0b0101011;
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args_disass:"{name(rd)}, {name(rs1)}, {name(rs2)}";
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behavior: {
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signed<8> op1_0 = (signed<8>)X[rs1][ 7: 0];
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signed<8> op1_1 = (signed<8>)X[rs1][15: 8];
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signed<8> op1_2 = (signed<8>)X[rs1][23:16];
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signed<8> op1_3 = (signed<8>)X[rs1][31:24];
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signed<8> op2_0 = (signed<8>)X[rs2][ 7: 0];
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signed<8> op2_1 = (signed<8>)X[rs2][15: 8];
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signed<8> op2_2 = (signed<8>)X[rs2][23:16];
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signed<8> op2_3 = (signed<8>)X[rs2][31:24];
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signed<XLEN> op3 = (signed<XLEN>)X[rd];
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signed<16> mul0 = op1_0 * op2_0;
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signed<16> mul1 = op1_1 * op2_1;
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signed<16> mul2 = op1_2 * op2_2;
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signed<16> mul3 = op1_3 * op2_3;
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signed<19> sum_tmp = mul0 + mul1 + mul2 + mul3;
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signed<33> result = op3 + sum_tmp;
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if(rd != 0) X[rd] = result[31:0];
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}
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}
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// standard signed multiply accumulate with 32 bit operands and 32 bit result
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MAC {
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// instruction format: R-type
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// opcode space: custom-1 (inst[6:2] = 01010)
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// opcode = 0b0101011, func3 = 0b010, func7 = 0b0000000
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encoding: 0b0000000 :: rs2[4:0] :: rs1[4:0] :: 0b010 :: rd[4:0] :: 0b0101011;
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args_disass:"{name(rd)}, {name(rs1)}, {name(rs2)}";
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behavior: {
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signed<65> result = (signed)X[rs1] * (signed)X[rs2] + (signed)X[rd];
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if(rd != 0) X[rd] = result[31:0];
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}
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}
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// WARNING: The following two HW loop instructions are not fully specified or implemented. The idea is to design the HW loops identical to the RI5CY core (current naming: CV32E40P)
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// See "Short Hardware Loop Setup Instructions" from RI5CY specification document from April 2019, revision 4.0: https://www.pulp-platform.org/docs/ri5cy_user_manual.pdf -> page 38, chapter 14.2
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// Specific CSRs are introduced to support the HW loops (see page 17, chapter 7).
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// lp.setup HW loop (Short Hardware Loop Setup Instruction)
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LOOP {
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// instruction format: I-type
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// opcode space: custom-3 (inst[6:2] = 11110)
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// opcode = 0b1111011, func3 = 0b100
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// uimmL[11:0] src1 100 0000 L 111 1011 -> lp.setup L,rs1, uimmL
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encoding: imm[11:0] :: rs1[4:0] :: 0b100 :: 0b0000 :: L[0:0] :: 0b1111011;
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args_disass:"{name(L)}, {name(rs1)}, {imm}";
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behavior: {
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// L: loop level (two loop levels would be sufficient); L=0 has higher priority and is considered as the inner loop.
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/*
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lpstart[L] = PC + 4;
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lpend[L] = PC + ((unsigned<12>)imm << 1);
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lpcount[L] = rs1;
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*/
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}
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}
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// lp.setupi HW loop (Short Hardware Loop Setup Instruction with immediate value for loop count)
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LOOPI {
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// instruction format: I-type
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// opcode space: custom-3 (inst[6:2] = 11110)
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// opcode = 0b1111011, func3 = 0b101
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// uimmL[11:0] uimmS[4:0] 101 0000 L 111 1011 -> lp.setupi L, uimmS, uimmL
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encoding: imm2[11:0] :: imm1[4:0] :: 0b101 :: 0b0000 :: L[0:0] :: 0b1111011;
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args_disass:"{name(L)}, {imm1}, {imm2}";
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behavior: {
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// L: loop level (two loop levels would be sufficient); L=0 has higher priority and is considered as the inner loop.
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/*
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lpstart[L] = PC + 4;
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lpend[L] = PC + ((unsigned<5>)imm1 << 1);
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lpcount[L] = (unsigned<12>)imm2;
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*/
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}
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}
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}
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}
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Core TGC_D_XRB_NN provides RV32I, Zicsr, Zifencei, RV32M, RV32IC, X_RB_NN {
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architectural_state {
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XLEN=32;
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// definitions for the architecture wrapper
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// XL ZYXWVUTSRQPONMLKJIHGFEDCBA
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unsigned MISA_VAL = 0b01000000100100000011000100000100;
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unsigned MARCHID_VAL = 0x80000004;
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}
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}
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