| module ibex_multdiv_fast ( |
| clk_i, |
| rst_ni, |
| mult_en_i, |
| div_en_i, |
| mult_sel_i, |
| div_sel_i, |
| operator_i, |
| signed_mode_i, |
| op_a_i, |
| op_b_i, |
| alu_adder_ext_i, |
| alu_adder_i, |
| equal_to_zero_i, |
| data_ind_timing_i, |
| alu_operand_a_o, |
| alu_operand_b_o, |
| imd_val_q_i, |
| imd_val_d_o, |
| imd_val_we_o, |
| multdiv_ready_id_i, |
| multdiv_result_o, |
| valid_o |
| ); |
| localparam integer ibex_pkg_RV32MFast = 2; |
| parameter integer RV32M = ibex_pkg_RV32MFast; |
| input wire clk_i; |
| input wire rst_ni; |
| input wire mult_en_i; |
| input wire div_en_i; |
| input wire mult_sel_i; |
| input wire div_sel_i; |
| input wire [1:0] operator_i; |
| input wire [1:0] signed_mode_i; |
| input wire [31:0] op_a_i; |
| input wire [31:0] op_b_i; |
| input wire [33:0] alu_adder_ext_i; |
| input wire [31:0] alu_adder_i; |
| input wire equal_to_zero_i; |
| input wire data_ind_timing_i; |
| output reg [32:0] alu_operand_a_o; |
| output reg [32:0] alu_operand_b_o; |
| input wire [67:0] imd_val_q_i; |
| output wire [67:0] imd_val_d_o; |
| output wire [1:0] imd_val_we_o; |
| input wire multdiv_ready_id_i; |
| output wire [31:0] multdiv_result_o; |
| output wire valid_o; |
| localparam integer RegFileFF = 0; |
| localparam integer RegFileFPGA = 1; |
| localparam integer RegFileLatch = 2; |
| localparam integer RV32MNone = 0; |
| localparam integer RV32MSlow = 1; |
| localparam integer RV32MFast = 2; |
| localparam integer RV32MSingleCycle = 3; |
| localparam integer RV32BNone = 0; |
| localparam integer RV32BBalanced = 1; |
| localparam integer RV32BFull = 2; |
| localparam [6:0] OPCODE_LOAD = 7'h03; |
| localparam [6:0] OPCODE_MISC_MEM = 7'h0f; |
| localparam [6:0] OPCODE_OP_IMM = 7'h13; |
| localparam [6:0] OPCODE_AUIPC = 7'h17; |
| localparam [6:0] OPCODE_STORE = 7'h23; |
| localparam [6:0] OPCODE_OP = 7'h33; |
| localparam [6:0] OPCODE_LUI = 7'h37; |
| localparam [6:0] OPCODE_BRANCH = 7'h63; |
| localparam [6:0] OPCODE_JALR = 7'h67; |
| localparam [6:0] OPCODE_JAL = 7'h6f; |
| localparam [6:0] OPCODE_SYSTEM = 7'h73; |
| localparam [5:0] ALU_ADD = 0; |
| localparam [5:0] ALU_SUB = 1; |
| localparam [5:0] ALU_XOR = 2; |
| localparam [5:0] ALU_OR = 3; |
| localparam [5:0] ALU_AND = 4; |
| localparam [5:0] ALU_XNOR = 5; |
| localparam [5:0] ALU_ORN = 6; |
| localparam [5:0] ALU_ANDN = 7; |
| localparam [5:0] ALU_SRA = 8; |
| localparam [5:0] ALU_SRL = 9; |
| localparam [5:0] ALU_SLL = 10; |
| localparam [5:0] ALU_SRO = 11; |
| localparam [5:0] ALU_SLO = 12; |
| localparam [5:0] ALU_ROR = 13; |
| localparam [5:0] ALU_ROL = 14; |
| localparam [5:0] ALU_GREV = 15; |
| localparam [5:0] ALU_GORC = 16; |
| localparam [5:0] ALU_SHFL = 17; |
| localparam [5:0] ALU_UNSHFL = 18; |
| localparam [5:0] ALU_LT = 19; |
| localparam [5:0] ALU_LTU = 20; |
| localparam [5:0] ALU_GE = 21; |
| localparam [5:0] ALU_GEU = 22; |
| localparam [5:0] ALU_EQ = 23; |
| localparam [5:0] ALU_NE = 24; |
| localparam [5:0] ALU_MIN = 25; |
| localparam [5:0] ALU_MINU = 26; |
| localparam [5:0] ALU_MAX = 27; |
| localparam [5:0] ALU_MAXU = 28; |
| localparam [5:0] ALU_PACK = 29; |
| localparam [5:0] ALU_PACKU = 30; |
| localparam [5:0] ALU_PACKH = 31; |
| localparam [5:0] ALU_SEXTB = 32; |
| localparam [5:0] ALU_SEXTH = 33; |
| localparam [5:0] ALU_CLZ = 34; |
| localparam [5:0] ALU_CTZ = 35; |
| localparam [5:0] ALU_PCNT = 36; |
| localparam [5:0] ALU_SLT = 37; |
| localparam [5:0] ALU_SLTU = 38; |
| localparam [5:0] ALU_CMOV = 39; |
| localparam [5:0] ALU_CMIX = 40; |
| localparam [5:0] ALU_FSL = 41; |
| localparam [5:0] ALU_FSR = 42; |
| localparam [5:0] ALU_SBSET = 43; |
| localparam [5:0] ALU_SBCLR = 44; |
| localparam [5:0] ALU_SBINV = 45; |
| localparam [5:0] ALU_SBEXT = 46; |
| localparam [5:0] ALU_BEXT = 47; |
| localparam [5:0] ALU_BDEP = 48; |
| localparam [5:0] ALU_BFP = 49; |
| localparam [5:0] ALU_CLMUL = 50; |
| localparam [5:0] ALU_CLMULR = 51; |
| localparam [5:0] ALU_CLMULH = 52; |
| localparam [5:0] ALU_CRC32_B = 53; |
| localparam [5:0] ALU_CRC32C_B = 54; |
| localparam [5:0] ALU_CRC32_H = 55; |
| localparam [5:0] ALU_CRC32C_H = 56; |
| localparam [5:0] ALU_CRC32_W = 57; |
| localparam [5:0] ALU_CRC32C_W = 58; |
| localparam [1:0] MD_OP_MULL = 0; |
| localparam [1:0] MD_OP_MULH = 1; |
| localparam [1:0] MD_OP_DIV = 2; |
| localparam [1:0] MD_OP_REM = 3; |
| localparam [1:0] CSR_OP_READ = 0; |
| localparam [1:0] CSR_OP_WRITE = 1; |
| localparam [1:0] CSR_OP_SET = 2; |
| localparam [1:0] CSR_OP_CLEAR = 3; |
| localparam [1:0] PRIV_LVL_M = 2'b11; |
| localparam [1:0] PRIV_LVL_H = 2'b10; |
| localparam [1:0] PRIV_LVL_S = 2'b01; |
| localparam [1:0] PRIV_LVL_U = 2'b00; |
| localparam [3:0] XDEBUGVER_NO = 4'd0; |
| localparam [3:0] XDEBUGVER_STD = 4'd4; |
| localparam [3:0] XDEBUGVER_NONSTD = 4'd15; |
| localparam [1:0] WB_INSTR_LOAD = 0; |
| localparam [1:0] WB_INSTR_STORE = 1; |
| localparam [1:0] WB_INSTR_OTHER = 2; |
| localparam [1:0] OP_A_REG_A = 0; |
| localparam [1:0] OP_A_FWD = 1; |
| localparam [1:0] OP_A_CURRPC = 2; |
| localparam [1:0] OP_A_IMM = 3; |
| localparam [0:0] IMM_A_Z = 0; |
| localparam [0:0] IMM_A_ZERO = 1; |
| localparam [0:0] OP_B_REG_B = 0; |
| localparam [0:0] OP_B_IMM = 1; |
| localparam [2:0] IMM_B_I = 0; |
| localparam [2:0] IMM_B_S = 1; |
| localparam [2:0] IMM_B_B = 2; |
| localparam [2:0] IMM_B_U = 3; |
| localparam [2:0] IMM_B_J = 4; |
| localparam [2:0] IMM_B_INCR_PC = 5; |
| localparam [2:0] IMM_B_INCR_ADDR = 6; |
| localparam [0:0] RF_WD_EX = 0; |
| localparam [0:0] RF_WD_CSR = 1; |
| localparam [2:0] PC_BOOT = 0; |
| localparam [2:0] PC_JUMP = 1; |
| localparam [2:0] PC_EXC = 2; |
| localparam [2:0] PC_ERET = 3; |
| localparam [2:0] PC_DRET = 4; |
| localparam [2:0] PC_BP = 5; |
| localparam [1:0] EXC_PC_EXC = 0; |
| localparam [1:0] EXC_PC_IRQ = 1; |
| localparam [1:0] EXC_PC_DBD = 2; |
| localparam [1:0] EXC_PC_DBG_EXC = 3; |
| localparam [5:0] EXC_CAUSE_IRQ_SOFTWARE_M = {1'b1, 5'd3}; |
| localparam [5:0] EXC_CAUSE_IRQ_TIMER_M = {1'b1, 5'd7}; |
| localparam [5:0] EXC_CAUSE_IRQ_EXTERNAL_M = {1'b1, 5'd11}; |
| localparam [5:0] EXC_CAUSE_IRQ_NM = {1'b1, 5'd31}; |
| localparam [5:0] EXC_CAUSE_INSN_ADDR_MISA = {1'b0, 5'd0}; |
| localparam [5:0] EXC_CAUSE_INSTR_ACCESS_FAULT = {1'b0, 5'd1}; |
| localparam [5:0] EXC_CAUSE_ILLEGAL_INSN = {1'b0, 5'd2}; |
| localparam [5:0] EXC_CAUSE_BREAKPOINT = {1'b0, 5'd3}; |
| localparam [5:0] EXC_CAUSE_LOAD_ACCESS_FAULT = {1'b0, 5'd5}; |
| localparam [5:0] EXC_CAUSE_STORE_ACCESS_FAULT = {1'b0, 5'd7}; |
| localparam [5:0] EXC_CAUSE_ECALL_UMODE = {1'b0, 5'd8}; |
| localparam [5:0] EXC_CAUSE_ECALL_MMODE = {1'b0, 5'd11}; |
| localparam [2:0] DBG_CAUSE_NONE = 3'h0; |
| localparam [2:0] DBG_CAUSE_EBREAK = 3'h1; |
| localparam [2:0] DBG_CAUSE_TRIGGER = 3'h2; |
| localparam [2:0] DBG_CAUSE_HALTREQ = 3'h3; |
| localparam [2:0] DBG_CAUSE_STEP = 3'h4; |
| localparam [31:0] PMP_MAX_REGIONS = 16; |
| localparam [31:0] PMP_CFG_W = 8; |
| localparam [31:0] PMP_I = 0; |
| localparam [31:0] PMP_D = 1; |
| localparam [1:0] PMP_ACC_EXEC = 2'b00; |
| localparam [1:0] PMP_ACC_WRITE = 2'b01; |
| localparam [1:0] PMP_ACC_READ = 2'b10; |
| localparam [1:0] PMP_MODE_OFF = 2'b00; |
| localparam [1:0] PMP_MODE_TOR = 2'b01; |
| localparam [1:0] PMP_MODE_NA4 = 2'b10; |
| localparam [1:0] PMP_MODE_NAPOT = 2'b11; |
| localparam [11:0] CSR_MHARTID = 12'hf14; |
| localparam [11:0] CSR_MSTATUS = 12'h300; |
| localparam [11:0] CSR_MISA = 12'h301; |
| localparam [11:0] CSR_MIE = 12'h304; |
| localparam [11:0] CSR_MTVEC = 12'h305; |
| localparam [11:0] CSR_MSCRATCH = 12'h340; |
| localparam [11:0] CSR_MEPC = 12'h341; |
| localparam [11:0] CSR_MCAUSE = 12'h342; |
| localparam [11:0] CSR_MTVAL = 12'h343; |
| localparam [11:0] CSR_MIP = 12'h344; |
| localparam [11:0] CSR_PMPCFG0 = 12'h3a0; |
| localparam [11:0] CSR_PMPCFG1 = 12'h3a1; |
| localparam [11:0] CSR_PMPCFG2 = 12'h3a2; |
| localparam [11:0] CSR_PMPCFG3 = 12'h3a3; |
| localparam [11:0] CSR_PMPADDR0 = 12'h3b0; |
| localparam [11:0] CSR_PMPADDR1 = 12'h3b1; |
| localparam [11:0] CSR_PMPADDR2 = 12'h3b2; |
| localparam [11:0] CSR_PMPADDR3 = 12'h3b3; |
| localparam [11:0] CSR_PMPADDR4 = 12'h3b4; |
| localparam [11:0] CSR_PMPADDR5 = 12'h3b5; |
| localparam [11:0] CSR_PMPADDR6 = 12'h3b6; |
| localparam [11:0] CSR_PMPADDR7 = 12'h3b7; |
| localparam [11:0] CSR_PMPADDR8 = 12'h3b8; |
| localparam [11:0] CSR_PMPADDR9 = 12'h3b9; |
| localparam [11:0] CSR_PMPADDR10 = 12'h3ba; |
| localparam [11:0] CSR_PMPADDR11 = 12'h3bb; |
| localparam [11:0] CSR_PMPADDR12 = 12'h3bc; |
| localparam [11:0] CSR_PMPADDR13 = 12'h3bd; |
| localparam [11:0] CSR_PMPADDR14 = 12'h3be; |
| localparam [11:0] CSR_PMPADDR15 = 12'h3bf; |
| localparam [11:0] CSR_TSELECT = 12'h7a0; |
| localparam [11:0] CSR_TDATA1 = 12'h7a1; |
| localparam [11:0] CSR_TDATA2 = 12'h7a2; |
| localparam [11:0] CSR_TDATA3 = 12'h7a3; |
| localparam [11:0] CSR_MCONTEXT = 12'h7a8; |
| localparam [11:0] CSR_SCONTEXT = 12'h7aa; |
| localparam [11:0] CSR_DCSR = 12'h7b0; |
| localparam [11:0] CSR_DPC = 12'h7b1; |
| localparam [11:0] CSR_DSCRATCH0 = 12'h7b2; |
| localparam [11:0] CSR_DSCRATCH1 = 12'h7b3; |
| localparam [11:0] CSR_MCOUNTINHIBIT = 12'h320; |
| localparam [11:0] CSR_MHPMEVENT3 = 12'h323; |
| localparam [11:0] CSR_MHPMEVENT4 = 12'h324; |
| localparam [11:0] CSR_MHPMEVENT5 = 12'h325; |
| localparam [11:0] CSR_MHPMEVENT6 = 12'h326; |
| localparam [11:0] CSR_MHPMEVENT7 = 12'h327; |
| localparam [11:0] CSR_MHPMEVENT8 = 12'h328; |
| localparam [11:0] CSR_MHPMEVENT9 = 12'h329; |
| localparam [11:0] CSR_MHPMEVENT10 = 12'h32a; |
| localparam [11:0] CSR_MHPMEVENT11 = 12'h32b; |
| localparam [11:0] CSR_MHPMEVENT12 = 12'h32c; |
| localparam [11:0] CSR_MHPMEVENT13 = 12'h32d; |
| localparam [11:0] CSR_MHPMEVENT14 = 12'h32e; |
| localparam [11:0] CSR_MHPMEVENT15 = 12'h32f; |
| localparam [11:0] CSR_MHPMEVENT16 = 12'h330; |
| localparam [11:0] CSR_MHPMEVENT17 = 12'h331; |
| localparam [11:0] CSR_MHPMEVENT18 = 12'h332; |
| localparam [11:0] CSR_MHPMEVENT19 = 12'h333; |
| localparam [11:0] CSR_MHPMEVENT20 = 12'h334; |
| localparam [11:0] CSR_MHPMEVENT21 = 12'h335; |
| localparam [11:0] CSR_MHPMEVENT22 = 12'h336; |
| localparam [11:0] CSR_MHPMEVENT23 = 12'h337; |
| localparam [11:0] CSR_MHPMEVENT24 = 12'h338; |
| localparam [11:0] CSR_MHPMEVENT25 = 12'h339; |
| localparam [11:0] CSR_MHPMEVENT26 = 12'h33a; |
| localparam [11:0] CSR_MHPMEVENT27 = 12'h33b; |
| localparam [11:0] CSR_MHPMEVENT28 = 12'h33c; |
| localparam [11:0] CSR_MHPMEVENT29 = 12'h33d; |
| localparam [11:0] CSR_MHPMEVENT30 = 12'h33e; |
| localparam [11:0] CSR_MHPMEVENT31 = 12'h33f; |
| localparam [11:0] CSR_MCYCLE = 12'hb00; |
| localparam [11:0] CSR_MINSTRET = 12'hb02; |
| localparam [11:0] CSR_MHPMCOUNTER3 = 12'hb03; |
| localparam [11:0] CSR_MHPMCOUNTER4 = 12'hb04; |
| localparam [11:0] CSR_MHPMCOUNTER5 = 12'hb05; |
| localparam [11:0] CSR_MHPMCOUNTER6 = 12'hb06; |
| localparam [11:0] CSR_MHPMCOUNTER7 = 12'hb07; |
| localparam [11:0] CSR_MHPMCOUNTER8 = 12'hb08; |
| localparam [11:0] CSR_MHPMCOUNTER9 = 12'hb09; |
| localparam [11:0] CSR_MHPMCOUNTER10 = 12'hb0a; |
| localparam [11:0] CSR_MHPMCOUNTER11 = 12'hb0b; |
| localparam [11:0] CSR_MHPMCOUNTER12 = 12'hb0c; |
| localparam [11:0] CSR_MHPMCOUNTER13 = 12'hb0d; |
| localparam [11:0] CSR_MHPMCOUNTER14 = 12'hb0e; |
| localparam [11:0] CSR_MHPMCOUNTER15 = 12'hb0f; |
| localparam [11:0] CSR_MHPMCOUNTER16 = 12'hb10; |
| localparam [11:0] CSR_MHPMCOUNTER17 = 12'hb11; |
| localparam [11:0] CSR_MHPMCOUNTER18 = 12'hb12; |
| localparam [11:0] CSR_MHPMCOUNTER19 = 12'hb13; |
| localparam [11:0] CSR_MHPMCOUNTER20 = 12'hb14; |
| localparam [11:0] CSR_MHPMCOUNTER21 = 12'hb15; |
| localparam [11:0] CSR_MHPMCOUNTER22 = 12'hb16; |
| localparam [11:0] CSR_MHPMCOUNTER23 = 12'hb17; |
| localparam [11:0] CSR_MHPMCOUNTER24 = 12'hb18; |
| localparam [11:0] CSR_MHPMCOUNTER25 = 12'hb19; |
| localparam [11:0] CSR_MHPMCOUNTER26 = 12'hb1a; |
| localparam [11:0] CSR_MHPMCOUNTER27 = 12'hb1b; |
| localparam [11:0] CSR_MHPMCOUNTER28 = 12'hb1c; |
| localparam [11:0] CSR_MHPMCOUNTER29 = 12'hb1d; |
| localparam [11:0] CSR_MHPMCOUNTER30 = 12'hb1e; |
| localparam [11:0] CSR_MHPMCOUNTER31 = 12'hb1f; |
| localparam [11:0] CSR_MCYCLEH = 12'hb80; |
| localparam [11:0] CSR_MINSTRETH = 12'hb82; |
| localparam [11:0] CSR_MHPMCOUNTER3H = 12'hb83; |
| localparam [11:0] CSR_MHPMCOUNTER4H = 12'hb84; |
| localparam [11:0] CSR_MHPMCOUNTER5H = 12'hb85; |
| localparam [11:0] CSR_MHPMCOUNTER6H = 12'hb86; |
| localparam [11:0] CSR_MHPMCOUNTER7H = 12'hb87; |
| localparam [11:0] CSR_MHPMCOUNTER8H = 12'hb88; |
| localparam [11:0] CSR_MHPMCOUNTER9H = 12'hb89; |
| localparam [11:0] CSR_MHPMCOUNTER10H = 12'hb8a; |
| localparam [11:0] CSR_MHPMCOUNTER11H = 12'hb8b; |
| localparam [11:0] CSR_MHPMCOUNTER12H = 12'hb8c; |
| localparam [11:0] CSR_MHPMCOUNTER13H = 12'hb8d; |
| localparam [11:0] CSR_MHPMCOUNTER14H = 12'hb8e; |
| localparam [11:0] CSR_MHPMCOUNTER15H = 12'hb8f; |
| localparam [11:0] CSR_MHPMCOUNTER16H = 12'hb90; |
| localparam [11:0] CSR_MHPMCOUNTER17H = 12'hb91; |
| localparam [11:0] CSR_MHPMCOUNTER18H = 12'hb92; |
| localparam [11:0] CSR_MHPMCOUNTER19H = 12'hb93; |
| localparam [11:0] CSR_MHPMCOUNTER20H = 12'hb94; |
| localparam [11:0] CSR_MHPMCOUNTER21H = 12'hb95; |
| localparam [11:0] CSR_MHPMCOUNTER22H = 12'hb96; |
| localparam [11:0] CSR_MHPMCOUNTER23H = 12'hb97; |
| localparam [11:0] CSR_MHPMCOUNTER24H = 12'hb98; |
| localparam [11:0] CSR_MHPMCOUNTER25H = 12'hb99; |
| localparam [11:0] CSR_MHPMCOUNTER26H = 12'hb9a; |
| localparam [11:0] CSR_MHPMCOUNTER27H = 12'hb9b; |
| localparam [11:0] CSR_MHPMCOUNTER28H = 12'hb9c; |
| localparam [11:0] CSR_MHPMCOUNTER29H = 12'hb9d; |
| localparam [11:0] CSR_MHPMCOUNTER30H = 12'hb9e; |
| localparam [11:0] CSR_MHPMCOUNTER31H = 12'hb9f; |
| localparam [11:0] CSR_CPUCTRL = 12'h7c0; |
| localparam [11:0] CSR_SECURESEED = 12'h7c1; |
| localparam [11:0] CSR_OFF_PMP_CFG = 12'h3a0; |
| localparam [11:0] CSR_OFF_PMP_ADDR = 12'h3b0; |
| localparam [31:0] CSR_MSTATUS_MIE_BIT = 3; |
| localparam [31:0] CSR_MSTATUS_MPIE_BIT = 7; |
| localparam [31:0] CSR_MSTATUS_MPP_BIT_LOW = 11; |
| localparam [31:0] CSR_MSTATUS_MPP_BIT_HIGH = 12; |
| localparam [31:0] CSR_MSTATUS_MPRV_BIT = 17; |
| localparam [31:0] CSR_MSTATUS_TW_BIT = 21; |
| localparam [1:0] CSR_MISA_MXL = 2'd1; |
| localparam [31:0] CSR_MSIX_BIT = 3; |
| localparam [31:0] CSR_MTIX_BIT = 7; |
| localparam [31:0] CSR_MEIX_BIT = 11; |
| localparam [31:0] CSR_MFIX_BIT_LOW = 16; |
| localparam [31:0] CSR_MFIX_BIT_HIGH = 30; |
| wire signed [34:0] mac_res_signed; |
| wire [34:0] mac_res_ext; |
| reg [33:0] accum; |
| reg sign_a; |
| reg sign_b; |
| reg mult_valid; |
| wire signed_mult; |
| reg [33:0] mac_res_d; |
| reg [33:0] op_remainder_d; |
| wire [33:0] mac_res; |
| wire div_sign_a; |
| wire div_sign_b; |
| reg is_greater_equal; |
| wire div_change_sign; |
| wire rem_change_sign; |
| wire [31:0] one_shift; |
| wire [31:0] op_denominator_q; |
| reg [31:0] op_numerator_q; |
| reg [31:0] op_quotient_q; |
| reg [31:0] op_denominator_d; |
| reg [31:0] op_numerator_d; |
| reg [31:0] op_quotient_d; |
| wire [31:0] next_remainder; |
| wire [32:0] next_quotient; |
| wire [31:0] res_adder_h; |
| reg div_valid; |
| reg [4:0] div_counter_q; |
| reg [4:0] div_counter_d; |
| wire multdiv_en; |
| reg mult_hold; |
| reg div_hold; |
| reg div_by_zero_d; |
| reg div_by_zero_q; |
| wire mult_en_internal; |
| wire div_en_internal; |
| reg [2:0] md_state_q; |
| reg [2:0] md_state_d; |
| wire unused_mult_sel_i; |
| assign unused_mult_sel_i = mult_sel_i; |
| assign mult_en_internal = mult_en_i & ~mult_hold; |
| assign div_en_internal = div_en_i & ~div_hold; |
| localparam [2:0] MD_IDLE = 0; |
| always @(posedge clk_i or negedge rst_ni) |
| if (!rst_ni) begin |
| div_counter_q <= {5 {1'sb0}}; |
| md_state_q <= MD_IDLE; |
| op_numerator_q <= {32 {1'sb0}}; |
| op_quotient_q <= {32 {1'sb0}}; |
| div_by_zero_q <= 1'sb0; |
| end |
| else if (div_en_internal) begin |
| div_counter_q <= div_counter_d; |
| op_numerator_q <= op_numerator_d; |
| op_quotient_q <= op_quotient_d; |
| md_state_q <= md_state_d; |
| div_by_zero_q <= div_by_zero_d; |
| end |
| assign multdiv_en = mult_en_internal | div_en_internal; |
| assign imd_val_d_o[34+:34] = (div_sel_i ? op_remainder_d : mac_res_d); |
| assign imd_val_we_o[0] = multdiv_en; |
| assign imd_val_d_o[0+:34] = {2'b00, op_denominator_d}; |
| assign imd_val_we_o[1] = div_en_internal; |
| assign op_denominator_q = imd_val_q_i[31-:32]; |
| wire [1:0] unused_imd_val; |
| assign unused_imd_val = imd_val_q_i[33-:2]; |
| wire unused_mac_res_ext; |
| assign unused_mac_res_ext = mac_res_ext[34]; |
| assign signed_mult = signed_mode_i != 2'b00; |
| assign multdiv_result_o = (div_sel_i ? imd_val_q_i[65-:32] : mac_res_d[31:0]); |
| localparam [1:0] AHBH = 3; |
| localparam [1:0] AHBL = 2; |
| localparam [1:0] ALBH = 1; |
| localparam [1:0] ALBL = 0; |
| localparam [0:0] MULH = 1; |
| localparam [0:0] MULL = 0; |
| generate |
| if (RV32M == RV32MSingleCycle) begin : gen_mult_single_cycle |
| reg mult_state_q; |
| reg mult_state_d; |
| wire signed [33:0] mult1_res; |
| wire signed [33:0] mult2_res; |
| wire signed [33:0] mult3_res; |
| wire [33:0] mult1_res_uns; |
| wire [33:32] unused_mult1_res_uns; |
| wire [15:0] mult1_op_a; |
| wire [15:0] mult1_op_b; |
| wire [15:0] mult2_op_a; |
| wire [15:0] mult2_op_b; |
| reg [15:0] mult3_op_a; |
| reg [15:0] mult3_op_b; |
| wire mult1_sign_a; |
| wire mult1_sign_b; |
| wire mult2_sign_a; |
| wire mult2_sign_b; |
| reg mult3_sign_a; |
| reg mult3_sign_b; |
| reg [33:0] summand1; |
| reg [33:0] summand2; |
| reg [33:0] summand3; |
| assign mult1_res = $signed({mult1_sign_a, mult1_op_a}) * $signed({mult1_sign_b, mult1_op_b}); |
| assign mult2_res = $signed({mult2_sign_a, mult2_op_a}) * $signed({mult2_sign_b, mult2_op_b}); |
| assign mult3_res = $signed({mult3_sign_a, mult3_op_a}) * $signed({mult3_sign_b, mult3_op_b}); |
| assign mac_res_signed = ($signed(summand1) + $signed(summand2)) + $signed(summand3); |
| assign mult1_res_uns = $unsigned(mult1_res); |
| assign mac_res_ext = $unsigned(mac_res_signed); |
| assign mac_res = mac_res_ext[33:0]; |
| always @(*) sign_a = signed_mode_i[0] & op_a_i[31]; |
| always @(*) sign_b = signed_mode_i[1] & op_b_i[31]; |
| assign mult1_sign_a = 1'b0; |
| assign mult1_sign_b = 1'b0; |
| assign mult1_op_a = op_a_i[15:0]; |
| assign mult1_op_b = op_b_i[15:0]; |
| assign mult2_sign_a = 1'b0; |
| assign mult2_sign_b = sign_b; |
| assign mult2_op_a = op_a_i[15:0]; |
| assign mult2_op_b = op_b_i[31:16]; |
| always @(*) accum[17:0] = imd_val_q_i[67-:18]; |
| always @(*) accum[33:18] = {16 {signed_mult & imd_val_q_i[67]}}; |
| always @(*) begin |
| mult3_sign_a = sign_a; |
| mult3_sign_b = 1'b0; |
| mult3_op_a = op_a_i[31:16]; |
| mult3_op_b = op_b_i[15:0]; |
| summand1 = {18'h00000, mult1_res_uns[31:16]}; |
| summand2 = $unsigned(mult2_res); |
| summand3 = $unsigned(mult3_res); |
| mac_res_d = {2'b00, mac_res[15:0], mult1_res_uns[15:0]}; |
| mult_valid = mult_en_i; |
| mult_state_d = MULL; |
| mult_hold = 1'b0; |
| case (mult_state_q) |
| MULL: |
| if (operator_i != MD_OP_MULL) begin |
| mac_res_d = mac_res; |
| mult_valid = 1'b0; |
| mult_state_d = MULH; |
| end |
| else |
| mult_hold = ~multdiv_ready_id_i; |
| MULH: begin |
| mult3_sign_a = sign_a; |
| mult3_sign_b = sign_b; |
| mult3_op_a = op_a_i[31:16]; |
| mult3_op_b = op_b_i[31:16]; |
| mac_res_d = mac_res; |
| summand1 = {34 {1'sb0}}; |
| summand2 = accum; |
| summand3 = mult3_res; |
| mult_state_d = MULL; |
| mult_valid = 1'b1; |
| mult_hold = ~multdiv_ready_id_i; |
| end |
| default: mult_state_d = MULL; |
| endcase |
| end |
| always @(posedge clk_i or negedge rst_ni) |
| if (!rst_ni) |
| mult_state_q <= MULL; |
| else if (mult_en_internal) |
| mult_state_q <= mult_state_d; |
| assign unused_mult1_res_uns = mult1_res_uns[33:32]; |
| end |
| else begin : gen_mult_fast |
| reg [15:0] mult_op_a; |
| reg [15:0] mult_op_b; |
| reg [1:0] mult_state_q; |
| reg [1:0] mult_state_d; |
| assign mac_res_signed = ($signed({sign_a, mult_op_a}) * $signed({sign_b, mult_op_b})) + $signed(accum); |
| assign mac_res_ext = $unsigned(mac_res_signed); |
| assign mac_res = mac_res_ext[33:0]; |
| always @(*) begin |
| mult_op_a = op_a_i[15:0]; |
| mult_op_b = op_b_i[15:0]; |
| sign_a = 1'b0; |
| sign_b = 1'b0; |
| accum = imd_val_q_i[34+:34]; |
| mac_res_d = mac_res; |
| mult_state_d = mult_state_q; |
| mult_valid = 1'b0; |
| mult_hold = 1'b0; |
| case (mult_state_q) |
| ALBL: begin |
| mult_op_a = op_a_i[15:0]; |
| mult_op_b = op_b_i[15:0]; |
| sign_a = 1'b0; |
| sign_b = 1'b0; |
| accum = {34 {1'sb0}}; |
| mac_res_d = mac_res; |
| mult_state_d = ALBH; |
| end |
| ALBH: begin |
| mult_op_a = op_a_i[15:0]; |
| mult_op_b = op_b_i[31:16]; |
| sign_a = 1'b0; |
| sign_b = signed_mode_i[1] & op_b_i[31]; |
| accum = {18'b000000000000000000, imd_val_q_i[65-:16]}; |
| if (operator_i == MD_OP_MULL) |
| mac_res_d = {2'b00, mac_res[15:0], imd_val_q_i[49-:16]}; |
| else |
| mac_res_d = mac_res; |
| mult_state_d = AHBL; |
| end |
| AHBL: begin |
| mult_op_a = op_a_i[31:16]; |
| mult_op_b = op_b_i[15:0]; |
| sign_a = signed_mode_i[0] & op_a_i[31]; |
| sign_b = 1'b0; |
| if (operator_i == MD_OP_MULL) begin |
| accum = {18'b000000000000000000, imd_val_q_i[65-:16]}; |
| mac_res_d = {2'b00, mac_res[15:0], imd_val_q_i[49-:16]}; |
| mult_valid = 1'b1; |
| mult_state_d = ALBL; |
| mult_hold = ~multdiv_ready_id_i; |
| end |
| else begin |
| accum = imd_val_q_i[34+:34]; |
| mac_res_d = mac_res; |
| mult_state_d = AHBH; |
| end |
| end |
| AHBH: begin |
| mult_op_a = op_a_i[31:16]; |
| mult_op_b = op_b_i[31:16]; |
| sign_a = signed_mode_i[0] & op_a_i[31]; |
| sign_b = signed_mode_i[1] & op_b_i[31]; |
| accum[17:0] = imd_val_q_i[67-:18]; |
| accum[33:18] = {16 {signed_mult & imd_val_q_i[67]}}; |
| mac_res_d = mac_res; |
| mult_valid = 1'b1; |
| mult_state_d = ALBL; |
| mult_hold = ~multdiv_ready_id_i; |
| end |
| default: mult_state_d = ALBL; |
| endcase |
| end |
| always @(posedge clk_i or negedge rst_ni) |
| if (!rst_ni) |
| mult_state_q <= ALBL; |
| else if (mult_en_internal) |
| mult_state_q <= mult_state_d; |
| end |
| endgenerate |
| assign res_adder_h = alu_adder_ext_i[32:1]; |
| wire [1:0] unused_alu_adder_ext; |
| assign unused_alu_adder_ext = {alu_adder_ext_i[33], alu_adder_ext_i[0]}; |
| assign next_remainder = (is_greater_equal ? res_adder_h[31:0] : imd_val_q_i[65-:32]); |
| assign next_quotient = (is_greater_equal ? {1'b0, op_quotient_q} | {1'b0, one_shift} : {1'b0, op_quotient_q}); |
| assign one_shift = {31'b0000000000000000000000000000000, 1'b1} << div_counter_q; |
| always @(*) |
| if ((imd_val_q_i[65] ^ op_denominator_q[31]) == 1'b0) |
| is_greater_equal = res_adder_h[31] == 1'b0; |
| else |
| is_greater_equal = imd_val_q_i[65]; |
| assign div_sign_a = op_a_i[31] & signed_mode_i[0]; |
| assign div_sign_b = op_b_i[31] & signed_mode_i[1]; |
| assign div_change_sign = (div_sign_a ^ div_sign_b) & ~div_by_zero_q; |
| assign rem_change_sign = div_sign_a; |
| localparam [2:0] MD_ABS_A = 1; |
| localparam [2:0] MD_ABS_B = 2; |
| localparam [2:0] MD_CHANGE_SIGN = 5; |
| localparam [2:0] MD_COMP = 3; |
| localparam [2:0] MD_FINISH = 6; |
| localparam [2:0] MD_LAST = 4; |
| always @(*) begin |
| div_counter_d = div_counter_q - 5'h01; |
| op_remainder_d = imd_val_q_i[34+:34]; |
| op_quotient_d = op_quotient_q; |
| md_state_d = md_state_q; |
| op_numerator_d = op_numerator_q; |
| op_denominator_d = op_denominator_q; |
| alu_operand_a_o = {32'h00000000, 1'b1}; |
| alu_operand_b_o = {~op_b_i, 1'b1}; |
| div_valid = 1'b0; |
| div_hold = 1'b0; |
| div_by_zero_d = div_by_zero_q; |
| case (md_state_q) |
| MD_IDLE: begin |
| if (operator_i == MD_OP_DIV) begin |
| op_remainder_d = {34 {1'sb1}}; |
| md_state_d = (!data_ind_timing_i && equal_to_zero_i ? MD_FINISH : MD_ABS_A); |
| div_by_zero_d = equal_to_zero_i; |
| end |
| else begin |
| op_remainder_d = {2'b00, op_a_i}; |
| md_state_d = (!data_ind_timing_i && equal_to_zero_i ? MD_FINISH : MD_ABS_A); |
| end |
| alu_operand_a_o = {32'h00000000, 1'b1}; |
| alu_operand_b_o = {~op_b_i, 1'b1}; |
| div_counter_d = 5'd31; |
| end |
| MD_ABS_A: begin |
| op_quotient_d = {32 {1'sb0}}; |
| op_numerator_d = (div_sign_a ? alu_adder_i : op_a_i); |
| md_state_d = MD_ABS_B; |
| div_counter_d = 5'd31; |
| alu_operand_a_o = {32'h00000000, 1'b1}; |
| alu_operand_b_o = {~op_a_i, 1'b1}; |
| end |
| MD_ABS_B: begin |
| op_remainder_d = {33'h000000000, op_numerator_q[31]}; |
| op_denominator_d = (div_sign_b ? alu_adder_i : op_b_i); |
| md_state_d = MD_COMP; |
| div_counter_d = 5'd31; |
| alu_operand_a_o = {32'h00000000, 1'b1}; |
| alu_operand_b_o = {~op_b_i, 1'b1}; |
| end |
| MD_COMP: begin |
| op_remainder_d = {1'b0, next_remainder[31:0], op_numerator_q[div_counter_d]}; |
| op_quotient_d = next_quotient[31:0]; |
| md_state_d = (div_counter_q == 5'd1 ? MD_LAST : MD_COMP); |
| alu_operand_a_o = {imd_val_q_i[65-:32], 1'b1}; |
| alu_operand_b_o = {~op_denominator_q[31:0], 1'b1}; |
| end |
| MD_LAST: begin |
| if (operator_i == MD_OP_DIV) |
| op_remainder_d = {1'b0, next_quotient}; |
| else |
| op_remainder_d = {2'b00, next_remainder[31:0]}; |
| alu_operand_a_o = {imd_val_q_i[65-:32], 1'b1}; |
| alu_operand_b_o = {~op_denominator_q[31:0], 1'b1}; |
| md_state_d = MD_CHANGE_SIGN; |
| end |
| MD_CHANGE_SIGN: begin |
| md_state_d = MD_FINISH; |
| if (operator_i == MD_OP_DIV) |
| op_remainder_d = (div_change_sign ? {2'h0, alu_adder_i} : imd_val_q_i[34+:34]); |
| else |
| op_remainder_d = (rem_change_sign ? {2'h0, alu_adder_i} : imd_val_q_i[34+:34]); |
| alu_operand_a_o = {32'h00000000, 1'b1}; |
| alu_operand_b_o = {~imd_val_q_i[65-:32], 1'b1}; |
| end |
| MD_FINISH: begin |
| md_state_d = MD_IDLE; |
| div_hold = ~multdiv_ready_id_i; |
| div_valid = 1'b1; |
| end |
| default: md_state_d = MD_IDLE; |
| endcase |
| end |
| assign valid_o = mult_valid | div_valid; |
| endmodule |