| `define ASIC_SYNTHESIS |
| |
| module zeroriscy_cs_registers ( |
| clk, |
| rst_n, |
| core_id_i, |
| cluster_id_i, |
| boot_addr_i, |
| csr_access_i, |
| csr_addr_i, |
| csr_wdata_i, |
| csr_op_i, |
| csr_rdata_o, |
| m_irq_enable_o, |
| mepc_o, |
| pc_if_i, |
| pc_id_i, |
| csr_save_if_i, |
| csr_save_id_i, |
| csr_restore_mret_i, |
| csr_cause_i, |
| csr_save_cause_i, |
| if_valid_i, |
| id_valid_i, |
| is_compressed_i, |
| is_decoding_i, |
| imiss_i, |
| pc_set_i, |
| jump_i, |
| branch_i, |
| branch_taken_i, |
| mem_load_i, |
| mem_store_i, |
| ext_counters_i |
| ); |
| parameter OPCODE_SYSTEM = 7'h73; |
| parameter OPCODE_FENCE = 7'h0f; |
| parameter OPCODE_OP = 7'h33; |
| parameter OPCODE_OPIMM = 7'h13; |
| parameter OPCODE_STORE = 7'h23; |
| parameter OPCODE_LOAD = 7'h03; |
| parameter OPCODE_BRANCH = 7'h63; |
| parameter OPCODE_JALR = 7'h67; |
| parameter OPCODE_JAL = 7'h6f; |
| parameter OPCODE_AUIPC = 7'h17; |
| parameter OPCODE_LUI = 7'h37; |
| |
| // those opcodes are now used for PULP custom instructions |
| // parameter OPCODE_CUST0 = 7'h0b |
| // parameter OPCODE_CUST1 = 7'h2b |
| |
| // PULP custom |
| parameter OPCODE_LOAD_POST = 7'h0b; |
| parameter OPCODE_STORE_POST = 7'h2b; |
| parameter OPCODE_PULP_OP = 7'h5b; |
| parameter OPCODE_VECOP = 7'h57; |
| parameter OPCODE_HWLOOP = 7'h7b; |
| |
| parameter REGC_S1 = 2'b10; |
| parameter REGC_RD = 2'b01; |
| parameter REGC_ZERO = 2'b11; |
| |
| |
| ////////////////////////////////////////////////////////////////////////////// |
| // _ _ _ _ ___ _ _ // |
| // / \ | | | | | | / _ \ _ __ ___ _ __ __ _| |_(_) ___ _ __ ___ // |
| // / _ \ | | | | | | | | | | '_ \ / _ \ '__/ _` | __| |/ _ \| '_ \/ __| // |
| // / ___ \| |__| |_| | | |_| | |_) | __/ | | (_| | |_| | (_) | | | \__ \ // |
| // /_/ \_\_____\___/ \___/| .__/ \___|_| \__,_|\__|_|\___/|_| |_|___/ // |
| // |_| // |
| ////////////////////////////////////////////////////////////////////////////// |
| |
| parameter ALU_OP_WIDTH = 6; |
| |
| parameter ALU_ADD = 6'b011000; |
| parameter ALU_SUB = 6'b011001; |
| parameter ALU_ADDU = 6'b011010; |
| parameter ALU_SUBU = 6'b011011; |
| parameter ALU_ADDR = 6'b011100; |
| parameter ALU_SUBR = 6'b011101; |
| parameter ALU_ADDUR = 6'b011110; |
| parameter ALU_SUBUR = 6'b011111; |
| |
| parameter ALU_XOR = 6'b101111; |
| parameter ALU_OR = 6'b101110; |
| parameter ALU_AND = 6'b010101; |
| |
| // Shifts |
| parameter ALU_SRA = 6'b100100; |
| parameter ALU_SRL = 6'b100101; |
| parameter ALU_ROR = 6'b100110; |
| parameter ALU_SLL = 6'b100111; |
| |
| // bit manipulation |
| parameter ALU_BEXT = 6'b101000; |
| parameter ALU_BEXTU = 6'b101001; |
| parameter ALU_BINS = 6'b101010; |
| parameter ALU_BCLR = 6'b101011; |
| parameter ALU_BSET = 6'b101100; |
| |
| // Bit counting |
| parameter ALU_FF1 = 6'b110110; |
| parameter ALU_FL1 = 6'b110111; |
| parameter ALU_CNT = 6'b110100; |
| parameter ALU_CLB = 6'b110101; |
| |
| // Sign-/zero-extensions |
| parameter ALU_EXTS = 6'b111110; |
| parameter ALU_EXT = 6'b111111; |
| |
| // Comparisons |
| parameter ALU_LTS = 6'b000000; |
| parameter ALU_LTU = 6'b000001; |
| parameter ALU_LES = 6'b000100; |
| parameter ALU_LEU = 6'b000101; |
| parameter ALU_GTS = 6'b001000; |
| parameter ALU_GTU = 6'b001001; |
| parameter ALU_GES = 6'b001010; |
| parameter ALU_GEU = 6'b001011; |
| parameter ALU_EQ = 6'b001100; |
| parameter ALU_NE = 6'b001101; |
| |
| // Set Lower Than operations |
| parameter ALU_SLTS = 6'b000010; |
| parameter ALU_SLTU = 6'b000011; |
| parameter ALU_SLETS = 6'b000110; |
| parameter ALU_SLETU = 6'b000111; |
| |
| // Absolute value |
| parameter ALU_ABS = 6'b010100; |
| parameter ALU_CLIP = 6'b010110; |
| parameter ALU_CLIPU = 6'b010111; |
| |
| // Insert/extract |
| parameter ALU_INS = 6'b101101; |
| |
| // min/max |
| parameter ALU_MIN = 6'b010000; |
| parameter ALU_MINU = 6'b010001; |
| parameter ALU_MAX = 6'b010010; |
| parameter ALU_MAXU = 6'b010011; |
| |
| // div/rem |
| parameter ALU_DIVU = 6'b110000; // bit 0 is used for signed mode, bit 1 is used for remdiv |
| parameter ALU_DIV = 6'b110001; // bit 0 is used for signed mode, bit 1 is used for remdiv |
| parameter ALU_REMU = 6'b110010; // bit 0 is used for signed mode, bit 1 is used for remdiv |
| parameter ALU_REM = 6'b110011; // bit 0 is used for signed mode, bit 1 is used for remdiv |
| |
| parameter ALU_SHUF = 6'b111010; |
| parameter ALU_SHUF2 = 6'b111011; |
| parameter ALU_PCKLO = 6'b111000; |
| parameter ALU_PCKHI = 6'b111001; |
| |
| |
| parameter MD_OP_MULL = 2'b00; |
| parameter MD_OP_MULH = 2'b01; |
| parameter MD_OP_DIV = 2'b10; |
| parameter MD_OP_REM = 2'b11; |
| |
| // vector modes |
| parameter VEC_MODE32 = 2'b00; |
| parameter VEC_MODE16 = 2'b10; |
| parameter VEC_MODE8 = 2'b11; |
| |
| |
| ///////////////////////////////////////////////////////// |
| // ____ ____ ____ _ _ // |
| // / ___/ ___| | _ \ ___ __ _(_)___| |_ ___ _ __ // |
| // | | \___ \ | |_) / _ \/ _` | / __| __/ _ \ '__| // |
| // | |___ ___) | | _ < __/ (_| | \__ \ || __/ | // |
| // \____|____/ |_| \_\___|\__, |_|___/\__\___|_| // |
| // |___/ // |
| ///////////////////////////////////////////////////////// |
| |
| // CSR operations |
| parameter CSR_OP_NONE = 2'b00; |
| parameter CSR_OP_WRITE = 2'b01; |
| parameter CSR_OP_SET = 2'b10; |
| parameter CSR_OP_CLEAR = 2'b11; |
| |
| |
| // SPR for debugger, not accessible by CPU |
| parameter SP_DVR0 = 16'h3000; |
| parameter SP_DCR0 = 16'h3008; |
| parameter SP_DMR1 = 16'h3010; |
| parameter SP_DMR2 = 16'h3011; |
| |
| parameter SP_DVR_MSB = 8'h00; |
| parameter SP_DCR_MSB = 8'h01; |
| parameter SP_DMR_MSB = 8'h02; |
| parameter SP_DSR_MSB = 8'h04; |
| |
| // Privileged mode |
| typedef enum logic[1:0] { |
| PRIV_LVL_M = 2'b11, |
| PRIV_LVL_H = 2'b10, |
| PRIV_LVL_S = 2'b01, |
| PRIV_LVL_U = 2'b00 |
| } PrivLvl_t; |
| |
| /////////////////////////////////////////////// |
| // ___ ____ ____ _ // |
| // |_ _| _ \ / ___|| |_ __ _ __ _ ___ // |
| // | || | | | \___ \| __/ _` |/ _` |/ _ \ // |
| // | || |_| | ___) | || (_| | (_| | __/ // |
| // |___|____/ |____/ \__\__,_|\__, |\___| // |
| // |___/ // |
| /////////////////////////////////////////////// |
| |
| // forwarding operand mux |
| parameter SEL_REGFILE = 2'b00; |
| parameter SEL_FW_EX = 2'b01; |
| parameter SEL_FW_WB = 2'b10; |
| parameter SEL_MISALIGNED = 2'b11; |
| |
| // operand a selection |
| parameter OP_A_REGA_OR_FWD = 3'b000; |
| parameter OP_A_CURRPC = 3'b001; |
| parameter OP_A_IMM = 3'b010; |
| parameter OP_A_REGB_OR_FWD = 3'b011; |
| parameter OP_A_REGC_OR_FWD = 3'b100; |
| |
| // immediate a selection |
| parameter IMMA_Z = 1'b0; |
| parameter IMMA_ZERO = 1'b1; |
| |
| // operand b selection |
| parameter OP_B_REGB_OR_FWD = 3'b000; |
| parameter OP_B_REGC_OR_FWD = 3'b001; |
| parameter OP_B_IMM = 3'b010; |
| parameter OP_B_REGA_OR_FWD = 3'b011; |
| parameter OP_B_BMASK = 3'b100; |
| parameter OP_B_ZERO = 3'b101; |
| |
| // immediate b selection |
| parameter IMMB_I = 4'b0000; |
| parameter IMMB_S = 4'b0001; |
| parameter IMMB_U = 4'b0010; |
| parameter IMMB_PCINCR = 4'b0011; |
| parameter IMMB_S2 = 4'b0100; |
| parameter IMMB_S3 = 4'b0101; |
| parameter IMMB_VS = 4'b0110; |
| parameter IMMB_VU = 4'b0111; |
| parameter IMMB_SHUF = 4'b1000; |
| parameter IMMB_CLIP = 4'b1001; |
| parameter IMMB_BI = 4'b1011; |
| parameter IMMB_UJ = 4'b1100; |
| parameter IMMB_SB = 4'b1101; |
| |
| // bit mask selection |
| parameter BMASK_A_ZERO = 1'b0; |
| parameter BMASK_A_S3 = 1'b1; |
| |
| parameter BMASK_B_S2 = 2'b00; |
| parameter BMASK_B_S3 = 2'b01; |
| parameter BMASK_B_ZERO = 2'b10; |
| parameter BMASK_B_ONE = 2'b11; |
| |
| parameter BMASK_A_REG = 1'b0; |
| parameter BMASK_A_IMM = 1'b1; |
| parameter BMASK_B_REG = 1'b0; |
| parameter BMASK_B_IMM = 1'b1; |
| |
| |
| |
| /////////////////////////////////////////////// |
| // ___ _____ ____ _ // |
| // |_ _| ___| / ___|| |_ __ _ __ _ ___ // |
| // | || |_ \___ \| __/ _` |/ _` |/ _ \ // |
| // | || _| ___) | || (_| | (_| | __/ // |
| // |___|_| |____/ \__\__,_|\__, |\___| // |
| // |___/ // |
| /////////////////////////////////////////////// |
| |
| // PC mux selector defines |
| parameter PC_BOOT = 3'b000; |
| parameter PC_JUMP = 3'b010; |
| parameter PC_EXCEPTION = 3'b100; |
| parameter PC_ERET = 3'b101; |
| parameter PC_DBG_NPC = 3'b111; |
| |
| // Exception PC mux selector defines |
| parameter EXC_PC_ILLINSN = 2'b00; |
| parameter EXC_PC_ECALL = 2'b01; |
| parameter EXC_PC_LOAD = 2'b10; |
| parameter EXC_PC_STORE = 2'b10; |
| parameter EXC_PC_IRQ = 2'b11; |
| |
| // Exception Cause |
| parameter EXC_CAUSE_ILLEGAL_INSN = 6'h02; |
| parameter EXC_CAUSE_BREAKPOINT = 6'h03; |
| parameter EXC_CAUSE_ECALL_MMODE = 6'h0B; |
| |
| // Exceptions offsets |
| // target address = {boot_addr[31:8], EXC_OFF} (boot_addr must be 32 BYTE aligned!) |
| // offset 00 to 7e is used for external interrupts |
| parameter EXC_OFF_RST = 8'h80; |
| parameter EXC_OFF_ILLINSN = 8'h84; |
| parameter EXC_OFF_ECALL = 8'h88; |
| parameter EXC_OFF_LSUERR = 8'h8c; |
| |
| |
| // Debug module |
| parameter DBG_SETS_W = 6; |
| |
| parameter DBG_SETS_IRQ = 5; |
| parameter DBG_SETS_ECALL = 4; |
| parameter DBG_SETS_EILL = 3; |
| parameter DBG_SETS_ELSU = 2; |
| parameter DBG_SETS_EBRK = 1; |
| parameter DBG_SETS_SSTE = 0; |
| |
| parameter DBG_CAUSE_HALT = 6'h1F; |
| parameter N_EXT_CNT = 0; |
| input wire clk; |
| input wire rst_n; |
| input wire [3:0] core_id_i; |
| input wire [5:0] cluster_id_i; |
| input wire [23:0] boot_addr_i; |
| input wire csr_access_i; |
| input wire [11:0] csr_addr_i; |
| input wire [31:0] csr_wdata_i; |
| input wire [1:0] csr_op_i; |
| output reg [31:0] csr_rdata_o; |
| output wire m_irq_enable_o; |
| output wire [31:0] mepc_o; |
| input wire [31:0] pc_if_i; |
| input wire [31:0] pc_id_i; |
| input wire csr_save_if_i; |
| input wire csr_save_id_i; |
| input wire csr_restore_mret_i; |
| input wire [5:0] csr_cause_i; |
| input wire csr_save_cause_i; |
| input wire if_valid_i; |
| input wire id_valid_i; |
| input wire is_compressed_i; |
| input wire is_decoding_i; |
| input wire imiss_i; |
| input wire pc_set_i; |
| input wire jump_i; |
| input wire branch_i; |
| input wire branch_taken_i; |
| input wire mem_load_i; |
| input wire mem_store_i; |
| input wire [N_EXT_CNT - 1:0] ext_counters_i; |
| localparam N_PERF_COUNTERS = 11 + N_EXT_CNT; |
| localparam N_PERF_REGS = 1; |
| reg id_valid_q; |
| wire [N_PERF_COUNTERS - 1:0] PCCR_in; |
| wire [N_PERF_COUNTERS - 1:0] PCCR_inc; |
| reg [N_PERF_COUNTERS - 1:0] PCCR_inc_q; |
| reg [31:0] PCCR_q; |
| reg [31:0] PCCR_n; |
| reg [1:0] PCMR_n; |
| reg [1:0] PCMR_q; |
| reg [N_PERF_COUNTERS - 1:0] PCER_n; |
| reg [N_PERF_COUNTERS - 1:0] PCER_q; |
| reg [31:0] perf_rdata; |
| reg [4:0] pccr_index; |
| reg pccr_all_sel; |
| reg is_pccr; |
| reg is_pcer; |
| reg is_pcmr; |
| reg [31:0] csr_wdata_int; |
| reg [31:0] csr_rdata_int; |
| reg csr_we_int; |
| reg [31:0] mepc_q; |
| reg [31:0] mepc_n; |
| reg [5:0] mcause_q; |
| reg [5:0] mcause_n; |
| struct packed { |
| logic mie; |
| logic mpie; |
| PrivLvl_t mpp; |
| } mstatus_q; |
| struct packed { |
| logic mie; |
| logic mpie; |
| PrivLvl_t mpp; |
| } mstatus_n; |
| always @(*) begin |
| csr_rdata_int = 1'sb0; |
| case (csr_addr_i) |
| 12'h300: csr_rdata_int = {19'b0000000000000000000, mstatus_q.mpp, 3'b000, mstatus_q.mpie, 3'h0, mstatus_q.mie, 3'h0}; |
| 12'h305: csr_rdata_int = {boot_addr_i, 8'h00}; |
| 12'h341: csr_rdata_int = mepc_q; |
| 12'h342: csr_rdata_int = {mcause_q[5], 26'b00000000000000000000000000, mcause_q[4:0]}; |
| 12'hf14: csr_rdata_int = {21'b000000000000000000000, cluster_id_i[5:0], 1'b0, core_id_i[3:0]}; |
| default: |
| ; |
| endcase |
| end |
| always @(*) begin |
| mepc_n = mepc_q; |
| mstatus_n = mstatus_q; |
| mcause_n = mcause_q; |
| case (csr_addr_i) |
| 12'h300: |
| if (csr_we_int) |
| mstatus_n = { |
| csr_wdata_int[3], |
| csr_wdata_int[7], |
| 1'b0 |
| }; |
| 12'h341: |
| if (csr_we_int) |
| mepc_n = csr_wdata_int; |
| 12'h342: |
| if (csr_we_int) |
| mcause_n = {csr_wdata_int[31], csr_wdata_int[4:0]}; |
| default: |
| ; |
| endcase |
| case (1'b1) |
| csr_save_cause_i: begin |
| case (1'b1) |
| csr_save_if_i: mepc_n = pc_if_i; |
| csr_save_id_i: mepc_n = pc_id_i; |
| default: |
| ; |
| endcase |
| mstatus_n.mpie = mstatus_q.mie; |
| mstatus_n.mie = 1'b0; |
| mcause_n = csr_cause_i; |
| end |
| csr_restore_mret_i: begin |
| mstatus_n.mie = mstatus_q.mpie; |
| mstatus_n.mpie = 1'b1; |
| end |
| default: |
| ; |
| endcase |
| end |
| always @(*) begin |
| csr_wdata_int = csr_wdata_i; |
| csr_we_int = 1'b1; |
| case (csr_op_i) |
| CSR_OP_WRITE: csr_wdata_int = csr_wdata_i; |
| CSR_OP_SET: csr_wdata_int = csr_wdata_i | csr_rdata_o; |
| CSR_OP_CLEAR: csr_wdata_int = ~csr_wdata_i & csr_rdata_o; |
| CSR_OP_NONE: begin |
| csr_wdata_int = csr_wdata_i; |
| csr_we_int = 1'b0; |
| end |
| default: |
| ; |
| endcase |
| end |
| always @(*) begin |
| csr_rdata_o = csr_rdata_int; |
| if ((is_pccr || is_pcer) || is_pcmr) |
| csr_rdata_o = perf_rdata; |
| end |
| assign m_irq_enable_o = mstatus_q.mie; |
| assign mepc_o = mepc_q; |
| always @(posedge clk or negedge rst_n) |
| if (rst_n == 1'b0) begin |
| mstatus_q <= { |
| 1'b0, |
| 1'b0, |
| PRIV_LVL_M |
| }; |
| mepc_q <= 1'sb0; |
| mcause_q <= 1'sb0; |
| end |
| else begin |
| mstatus_q <= { |
| mstatus_n.mie, |
| mstatus_n.mpie, |
| PRIV_LVL_M |
| }; |
| mepc_q <= mepc_n; |
| mcause_q <= mcause_n; |
| end |
| assign PCCR_in[0] = 1'b1; |
| assign PCCR_in[1] = if_valid_i; |
| assign PCCR_in[2] = 1'b0; |
| assign PCCR_in[3] = 1'b0; |
| assign PCCR_in[4] = imiss_i & ~pc_set_i; |
| assign PCCR_in[5] = mem_load_i; |
| assign PCCR_in[6] = mem_store_i; |
| assign PCCR_in[7] = jump_i; |
| assign PCCR_in[8] = branch_i; |
| assign PCCR_in[9] = branch_taken_i; |
| assign PCCR_in[10] = (id_valid_i & is_decoding_i) & is_compressed_i; |
| genvar i; |
| generate |
| for (i = 0; i < N_EXT_CNT; i = i + 1) begin : g_extcounters |
| assign PCCR_in[(N_PERF_COUNTERS - N_EXT_CNT) + i] = ext_counters_i[i]; |
| end |
| endgenerate |
| always @(*) begin |
| is_pccr = 1'b0; |
| is_pcmr = 1'b0; |
| is_pcer = 1'b0; |
| pccr_all_sel = 1'b0; |
| pccr_index = 1'sb0; |
| perf_rdata = 1'sb0; |
| if (csr_access_i) begin |
| case (csr_addr_i) |
| 12'h7a0: begin |
| is_pcer = 1'b1; |
| perf_rdata[15:0] = PCER_q; |
| end |
| 12'h7a1: begin |
| is_pcmr = 1'b1; |
| perf_rdata[1:0] = PCMR_q; |
| end |
| 12'h79f: begin |
| is_pccr = 1'b1; |
| pccr_all_sel = 1'b1; |
| end |
| default: |
| ; |
| endcase |
| if (csr_addr_i[11:5] == 7'b0111100) begin |
| is_pccr = 1'b1; |
| pccr_index = csr_addr_i[4:0]; |
| perf_rdata = PCCR_q[0+:32]; |
| end |
| end |
| end |
| assign PCCR_inc[0] = |(PCCR_in & PCER_q) & PCMR_q[0]; |
| always @(*) begin |
| PCCR_n[0+:32] = PCCR_q[0+:32]; |
| if ((PCCR_inc_q[0] == 1'b1) && ((PCCR_q[0+:32] != 32'hffffffff) || (PCMR_q[1] == 1'b0))) |
| PCCR_n[0+:32] = PCCR_q[0+:32] + 1; |
| if (is_pccr == 1'b1) |
| case (csr_op_i) |
| CSR_OP_NONE: |
| ; |
| CSR_OP_WRITE: PCCR_n[0+:32] = csr_wdata_i; |
| CSR_OP_SET: PCCR_n[0+:32] = csr_wdata_i | PCCR_q[0+:32]; |
| CSR_OP_CLEAR: PCCR_n[0+:32] = csr_wdata_i & ~PCCR_q[0+:32]; |
| endcase |
| end |
| always @(*) begin |
| PCMR_n = PCMR_q; |
| PCER_n = PCER_q; |
| if (is_pcmr) |
| case (csr_op_i) |
| CSR_OP_NONE: |
| ; |
| CSR_OP_WRITE: PCMR_n = csr_wdata_i[1:0]; |
| CSR_OP_SET: PCMR_n = csr_wdata_i[1:0] | PCMR_q; |
| CSR_OP_CLEAR: PCMR_n = csr_wdata_i[1:0] & ~PCMR_q; |
| endcase |
| if (is_pcer) |
| case (csr_op_i) |
| CSR_OP_NONE: |
| ; |
| CSR_OP_WRITE: PCER_n = csr_wdata_i[N_PERF_COUNTERS - 1:0]; |
| CSR_OP_SET: PCER_n = csr_wdata_i[N_PERF_COUNTERS - 1:0] | PCER_q; |
| CSR_OP_CLEAR: PCER_n = csr_wdata_i[N_PERF_COUNTERS - 1:0] & ~PCER_q; |
| endcase |
| end |
| always @(posedge clk or negedge rst_n) |
| if (rst_n == 1'b0) begin |
| id_valid_q <= 1'b0; |
| PCER_q <= 1'sb0; |
| PCMR_q <= 2'h3; |
| begin : sv2v_autoblock_1 |
| reg signed [31:0] i; |
| for (i = 0; i < N_PERF_REGS; i = i + 1) |
| begin |
| PCCR_q[i * 32+:32] <= 1'sb0; |
| PCCR_inc_q[i] <= 1'sb0; |
| end |
| end |
| end |
| else begin |
| id_valid_q <= id_valid_i; |
| PCER_q <= PCER_n; |
| PCMR_q <= PCMR_n; |
| begin : sv2v_autoblock_2 |
| reg signed [31:0] i; |
| for (i = 0; i < N_PERF_REGS; i = i + 1) |
| begin |
| PCCR_q[i * 32+:32] <= PCCR_n[i * 32+:32]; |
| PCCR_inc_q[i] <= PCCR_inc[i]; |
| end |
| end |
| end |
| endmodule |