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olofk.serv/rtl/serv_top.v
Olof Kindgren 2ff6fcbbd2 Make bufreg 4-bit compatible
2025-05-08 22:34:48 +02:00

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`default_nettype none
module serv_top
#(parameter WITH_CSR = 1,
parameter W = 1,
parameter B = W-1,
parameter PRE_REGISTER = 1,
parameter RESET_STRATEGY = "MINI",
parameter RESET_PC = 32'd0,
parameter [0:0] DEBUG = 1'b0,
parameter [0:0] MDU = 1'b0,
parameter [0:0] COMPRESSED=0,
parameter [0:0] ALIGN = COMPRESSED)
(
input wire clk,
input wire i_rst,
input wire i_timer_irq,
`ifdef RISCV_FORMAL
output wire rvfi_valid,
output wire [63:0] rvfi_order,
output wire [31:0] rvfi_insn,
output wire rvfi_trap,
output wire rvfi_halt,
output wire rvfi_intr,
output wire [1:0] rvfi_mode,
output wire [1:0] rvfi_ixl,
output wire [4:0] rvfi_rs1_addr,
output wire [4:0] rvfi_rs2_addr,
output wire [31:0] rvfi_rs1_rdata,
output wire [31:0] rvfi_rs2_rdata,
output wire [4:0] rvfi_rd_addr,
output wire [31:0] rvfi_rd_wdata,
output wire [31:0] rvfi_pc_rdata,
output wire [31:0] rvfi_pc_wdata,
output wire [31:0] rvfi_mem_addr,
output wire [3:0] rvfi_mem_rmask,
output wire [3:0] rvfi_mem_wmask,
output wire [31:0] rvfi_mem_rdata,
output wire [31:0] rvfi_mem_wdata,
`endif
//RF Interface
output wire o_rf_rreq,
output wire o_rf_wreq,
input wire i_rf_ready,
output wire [4+WITH_CSR:0] o_wreg0,
output wire [4+WITH_CSR:0] o_wreg1,
output wire o_wen0,
output wire o_wen1,
output wire [B:0] o_wdata0,
output wire [B:0] o_wdata1,
output wire [4+WITH_CSR:0] o_rreg0,
output wire [4+WITH_CSR:0] o_rreg1,
input wire [B:0] i_rdata0,
input wire [B:0] i_rdata1,
output wire [31:0] o_ibus_adr,
output wire o_ibus_cyc,
input wire [31:0] i_ibus_rdt,
input wire i_ibus_ack,
output wire [31:0] o_dbus_adr,
output wire [31:0] o_dbus_dat,
output wire [3:0] o_dbus_sel,
output wire o_dbus_we ,
output wire o_dbus_cyc,
input wire [31:0] i_dbus_rdt,
input wire i_dbus_ack,
//Extension
output wire [ 2:0] o_ext_funct3,
input wire i_ext_ready,
input wire [31:0] i_ext_rd,
output wire [31:0] o_ext_rs1,
output wire [31:0] o_ext_rs2,
//MDU
output wire o_mdu_valid);
wire [4:0] rd_addr;
wire [4:0] rs1_addr;
wire [4:0] rs2_addr;
wire [3:0] immdec_ctrl;
wire [3:0] immdec_en;
wire sh_right;
wire bne_or_bge;
wire cond_branch;
wire two_stage_op;
wire e_op;
wire ebreak;
wire branch_op;
wire shift_op;
wire rd_op;
wire mdu_op;
wire rd_alu_en;
wire rd_csr_en;
wire rd_mem_en;
wire [B:0] ctrl_rd;
wire [B:0] alu_rd;
wire [B:0] mem_rd;
wire [B:0] csr_rd;
wire mtval_pc;
wire ctrl_pc_en;
wire jump;
wire jal_or_jalr;
wire utype;
wire mret;
wire [B:0] imm;
wire trap;
wire pc_rel;
wire iscomp;
wire init;
wire cnt_en;
wire cnt0to3;
wire cnt12to31;
wire cnt0;
wire cnt1;
wire cnt2;
wire cnt3;
wire cnt7;
wire cnt11;
wire cnt12;
wire cnt_done;
wire bufreg_en;
wire bufreg_sh_signed;
wire bufreg_rs1_en;
wire bufreg_imm_en;
wire bufreg_clr_lsb;
wire [B:0] bufreg_q;
wire [B:0] bufreg2_q;
wire [31:0] dbus_rdt;
wire dbus_ack;
wire alu_sub;
wire [1:0] alu_bool_op;
wire alu_cmp_eq;
wire alu_cmp_sig;
wire alu_cmp;
wire [2:0] alu_rd_sel;
wire [B:0] rs1;
wire [B:0] rs2;
wire rd_en;
wire [B:0] op_b;
wire op_b_sel;
wire mem_signed;
wire mem_word;
wire mem_half;
wire [1:0] mem_bytecnt;
wire sh_done;
wire mem_misalign;
wire [B:0] bad_pc;
wire csr_mstatus_en;
wire csr_mie_en;
wire csr_mcause_en;
wire [1:0] csr_source;
wire [B:0] csr_imm;
wire csr_d_sel;
wire csr_en;
wire [1:0] csr_addr;
wire [B:0] csr_pc;
wire csr_imm_en;
wire [B:0] csr_in;
wire [B:0] rf_csr_out;
wire dbus_en;
wire new_irq;
wire [1:0] lsb;
wire [31:0] i_wb_rdt;
wire [31:0] wb_ibus_adr;
wire wb_ibus_cyc;
wire [31:0] wb_ibus_rdt;
wire wb_ibus_ack;
generate
if (ALIGN) begin : gen_align
serv_aligner align
(
.clk(clk),
.rst(i_rst),
// serv_rf_top
.i_ibus_adr(wb_ibus_adr),
.i_ibus_cyc(wb_ibus_cyc),
.o_ibus_rdt(wb_ibus_rdt),
.o_ibus_ack(wb_ibus_ack),
// servant_arbiter
.o_wb_ibus_adr(o_ibus_adr),
.o_wb_ibus_cyc(o_ibus_cyc),
.i_wb_ibus_rdt(i_ibus_rdt),
.i_wb_ibus_ack(i_ibus_ack));
end else begin : gen_no_align
assign o_ibus_adr = wb_ibus_adr;
assign o_ibus_cyc = wb_ibus_cyc;
assign wb_ibus_rdt = i_ibus_rdt;
assign wb_ibus_ack = i_ibus_ack;
end
endgenerate
generate
if (COMPRESSED) begin : gen_compressed
serv_compdec compdec
(
.i_clk(clk),
.i_instr(wb_ibus_rdt),
.i_ack(wb_ibus_ack),
.o_instr(i_wb_rdt),
.o_iscomp(iscomp));
end else begin : gen_no_compressed
assign i_wb_rdt = wb_ibus_rdt;
assign iscomp = 1'b0;
end
endgenerate
serv_state
#(.RESET_STRATEGY (RESET_STRATEGY),
.WITH_CSR (WITH_CSR[0:0]),
.MDU(MDU),
.ALIGN(ALIGN),
.W(W))
state
(
.i_clk (clk),
.i_rst (i_rst),
//State
.i_new_irq (new_irq),
.i_alu_cmp (alu_cmp),
.o_init (init),
.o_cnt_en (cnt_en),
.o_cnt0to3 (cnt0to3),
.o_cnt12to31 (cnt12to31),
.o_cnt0 (cnt0),
.o_cnt1 (cnt1),
.o_cnt2 (cnt2),
.o_cnt3 (cnt3),
.o_cnt7 (cnt7),
.o_cnt11 (cnt11),
.o_cnt12 (cnt12),
.o_cnt_done (cnt_done),
.o_bufreg_en (bufreg_en),
.o_ctrl_pc_en (ctrl_pc_en),
.o_ctrl_jump (jump),
.o_ctrl_trap (trap),
.i_ctrl_misalign(lsb[1]),
.i_sh_done (sh_done),
.o_mem_bytecnt (mem_bytecnt),
.i_mem_misalign (mem_misalign),
//Control
.i_bne_or_bge (bne_or_bge),
.i_cond_branch (cond_branch),
.i_dbus_en (dbus_en),
.i_two_stage_op (two_stage_op),
.i_branch_op (branch_op),
.i_shift_op (shift_op),
.i_sh_right (sh_right),
.i_alu_rd_sel1 (alu_rd_sel[1]),
.i_rd_alu_en (rd_alu_en),
.i_e_op (e_op),
.i_rd_op (rd_op),
//MDU
.i_mdu_op (mdu_op),
.o_mdu_valid (o_mdu_valid),
//Extension
.i_mdu_ready (i_ext_ready),
//External
.o_dbus_cyc (o_dbus_cyc),
.i_dbus_ack (i_dbus_ack),
.o_ibus_cyc (wb_ibus_cyc),
.i_ibus_ack (wb_ibus_ack),
//RF Interface
.o_rf_rreq (o_rf_rreq),
.o_rf_wreq (o_rf_wreq),
.i_rf_ready (i_rf_ready),
.o_rf_rd_en (rd_en));
serv_decode
#(.PRE_REGISTER (PRE_REGISTER),
.MDU(MDU))
decode
(
.clk (clk),
//Input
.i_wb_rdt (i_wb_rdt[31:2]),
.i_wb_en (wb_ibus_ack),
//To state
.o_bne_or_bge (bne_or_bge),
.o_cond_branch (cond_branch),
.o_dbus_en (dbus_en),
.o_e_op (e_op),
.o_ebreak (ebreak),
.o_branch_op (branch_op),
.o_shift_op (shift_op),
.o_rd_op (rd_op),
.o_sh_right (sh_right),
.o_mdu_op (mdu_op),
.o_two_stage_op (two_stage_op),
//Extension
.o_ext_funct3 (o_ext_funct3),
//To bufreg
.o_bufreg_rs1_en (bufreg_rs1_en),
.o_bufreg_imm_en (bufreg_imm_en),
.o_bufreg_clr_lsb (bufreg_clr_lsb),
.o_bufreg_sh_signed (bufreg_sh_signed),
//To bufreg2
.o_op_b_source (op_b_sel),
//To ctrl
.o_ctrl_jal_or_jalr (jal_or_jalr),
.o_ctrl_utype (utype),
.o_ctrl_pc_rel (pc_rel),
.o_ctrl_mret (mret),
//To alu
.o_alu_sub (alu_sub),
.o_alu_bool_op (alu_bool_op),
.o_alu_cmp_eq (alu_cmp_eq),
.o_alu_cmp_sig (alu_cmp_sig),
.o_alu_rd_sel (alu_rd_sel),
//To mem IF
.o_mem_cmd (o_dbus_we),
.o_mem_signed (mem_signed),
.o_mem_word (mem_word),
.o_mem_half (mem_half),
//To CSR
.o_csr_en (csr_en),
.o_csr_addr (csr_addr),
.o_csr_mstatus_en (csr_mstatus_en),
.o_csr_mie_en (csr_mie_en),
.o_csr_mcause_en (csr_mcause_en),
.o_csr_source (csr_source),
.o_csr_d_sel (csr_d_sel),
.o_csr_imm_en (csr_imm_en),
.o_mtval_pc (mtval_pc ),
//To top
.o_immdec_ctrl (immdec_ctrl),
.o_immdec_en (immdec_en),
//To RF IF
.o_rd_mem_en (rd_mem_en),
.o_rd_csr_en (rd_csr_en),
.o_rd_alu_en (rd_alu_en));
serv_immdec immdec
(
.i_clk (clk),
//State
.i_cnt_en (cnt_en),
.i_cnt_done (cnt_done),
//Control
.i_immdec_en (immdec_en),
.i_csr_imm_en (csr_imm_en),
.i_ctrl (immdec_ctrl),
.o_rd_addr (rd_addr),
.o_rs1_addr (rs1_addr),
.o_rs2_addr (rs2_addr),
//Data
.o_csr_imm (csr_imm),
.o_imm (imm),
//External
.i_wb_en (wb_ibus_ack),
.i_wb_rdt (i_wb_rdt[31:7]));
serv_bufreg
#(.MDU(MDU),
.W(W))
bufreg
(
.i_clk (clk),
//State
.i_cnt0 (cnt0),
.i_cnt1 (cnt1),
.i_cnt_done (cnt_done),
.i_en (bufreg_en),
.i_init (init),
.i_mdu_op (mdu_op),
.o_lsb (lsb),
//Control
.i_sh_signed (bufreg_sh_signed),
.i_rs1_en (bufreg_rs1_en),
.i_imm_en (bufreg_imm_en),
.i_clr_lsb (bufreg_clr_lsb),
.i_shift_op (shift_op),
.i_right_shift_op (sh_right),
.i_shamt (o_dbus_dat[26:24]),
//Data
.i_rs1 (rs1),
.i_imm (imm),
.o_q (bufreg_q),
//External
.o_dbus_adr (o_dbus_adr),
.o_ext_rs1 (o_ext_rs1));
serv_bufreg2 #(.W(W)) bufreg2
(
.i_clk (clk),
//State
.i_en (cnt_en),
.i_init (init),
.i_cnt7 (cnt7),
.i_cnt_done (cnt_done),
.i_sh_right (sh_right),
.i_lsb (lsb),
.i_bytecnt (mem_bytecnt),
.o_sh_done (sh_done),
//Control
.i_op_b_sel (op_b_sel),
.i_shift_op (shift_op),
//Data
.i_rs2 (rs2),
.i_imm (imm),
.o_op_b (op_b),
.o_q (bufreg2_q),
//External
.o_dat (o_dbus_dat),
.i_load (dbus_ack),
.i_dat (dbus_rdt));
serv_ctrl
#(.RESET_PC (RESET_PC),
.RESET_STRATEGY (RESET_STRATEGY),
.WITH_CSR (WITH_CSR),
.W (W))
ctrl
(
.clk (clk),
.i_rst (i_rst),
//State
.i_pc_en (ctrl_pc_en),
.i_cnt12to31 (cnt12to31),
.i_cnt0 (cnt0),
.i_cnt1 (cnt1),
.i_cnt2 (cnt2),
//Control
.i_jump (jump),
.i_jal_or_jalr (jal_or_jalr),
.i_utype (utype),
.i_pc_rel (pc_rel),
.i_trap (trap | mret),
.i_iscomp (iscomp),
//Data
.i_imm (imm),
.i_buf (bufreg_q),
.i_csr_pc (csr_pc),
.o_rd (ctrl_rd),
.o_bad_pc (bad_pc),
//External
.o_ibus_adr (wb_ibus_adr));
serv_alu #(.W (W)) alu
(
.clk (clk),
//State
.i_en (cnt_en),
.i_cnt0 (cnt0),
.o_cmp (alu_cmp),
//Control
.i_sub (alu_sub),
.i_bool_op (alu_bool_op),
.i_cmp_eq (alu_cmp_eq),
.i_cmp_sig (alu_cmp_sig),
.i_rd_sel (alu_rd_sel),
//Data
.i_rs1 (rs1),
.i_op_b (op_b),
.i_buf (bufreg_q),
.o_rd (alu_rd));
serv_rf_if
#(.WITH_CSR (WITH_CSR), .W(W))
rf_if
(//RF interface
.i_cnt_en (cnt_en),
.o_wreg0 (o_wreg0),
.o_wreg1 (o_wreg1),
.o_wen0 (o_wen0),
.o_wen1 (o_wen1),
.o_wdata0 (o_wdata0),
.o_wdata1 (o_wdata1),
.o_rreg0 (o_rreg0),
.o_rreg1 (o_rreg1),
.i_rdata0 (i_rdata0),
.i_rdata1 (i_rdata1),
//Trap interface
.i_trap (trap),
.i_mret (mret),
.i_mepc (wb_ibus_adr[B:0]),
.i_mtval_pc (mtval_pc),
.i_bufreg_q (bufreg_q),
.i_bad_pc (bad_pc),
.o_csr_pc (csr_pc),
//CSR write port
.i_csr_en (csr_en),
.i_csr_addr (csr_addr),
.i_csr (csr_in),
//RD write port
.i_rd_wen (rd_en),
.i_rd_waddr (rd_addr),
.i_ctrl_rd (ctrl_rd),
.i_alu_rd (alu_rd),
.i_rd_alu_en (rd_alu_en),
.i_csr_rd (csr_rd),
.i_rd_csr_en (rd_csr_en),
.i_mem_rd (mem_rd),
.i_rd_mem_en (rd_mem_en),
//RS1 read port
.i_rs1_raddr (rs1_addr),
.o_rs1 (rs1),
//RS2 read port
.i_rs2_raddr (rs2_addr),
.o_rs2 (rs2),
//CSR read port
.o_csr (rf_csr_out));
serv_mem_if
#(.WITH_CSR (WITH_CSR[0:0]),
.W (W))
mem_if
(
.i_clk (clk),
//State
.i_bytecnt (mem_bytecnt),
.i_lsb (lsb),
.o_misalign (mem_misalign),
//Control
.i_mdu_op (mdu_op),
.i_signed (mem_signed),
.i_word (mem_word),
.i_half (mem_half),
//Data
.i_bufreg2_q (bufreg2_q),
.o_rd (mem_rd),
//External interface
.o_wb_sel (o_dbus_sel));
generate
if (|WITH_CSR) begin : gen_csr
serv_csr
#(.RESET_STRATEGY (RESET_STRATEGY),
.W(W))
csr
(
.i_clk (clk),
.i_rst (i_rst),
//State
.i_trig_irq (wb_ibus_ack),
.i_en (cnt_en),
.i_cnt0to3 (cnt0to3),
.i_cnt3 (cnt3),
.i_cnt7 (cnt7),
.i_cnt11 (cnt11),
.i_cnt12 (cnt12),
.i_cnt_done (cnt_done),
.i_mem_op (!mtval_pc),
.i_mtip (i_timer_irq),
.i_trap (trap),
.o_new_irq (new_irq),
//Control
.i_e_op (e_op),
.i_ebreak (ebreak),
.i_mem_cmd (o_dbus_we),
.i_mstatus_en (csr_mstatus_en),
.i_mie_en (csr_mie_en ),
.i_mcause_en (csr_mcause_en ),
.i_csr_source (csr_source),
.i_mret (mret),
.i_csr_d_sel (csr_d_sel),
//Data
.i_rf_csr_out (rf_csr_out),
.o_csr_in (csr_in),
.i_csr_imm (csr_imm),
.i_rs1 (rs1),
.o_q (csr_rd));
end else begin : gen_no_csr
assign csr_in = {W{1'b0}};
assign csr_rd = {W{1'b0}};
assign new_irq = 1'b0;
end
endgenerate
generate
if (DEBUG) begin : gen_debug
serv_debug #(.W (W), .RESET_PC (RESET_PC)) debug
(
`ifdef RISCV_FORMAL
.rvfi_valid (rvfi_valid ),
.rvfi_order (rvfi_order ),
.rvfi_insn (rvfi_insn ),
.rvfi_trap (rvfi_trap ),
.rvfi_halt (rvfi_halt ),
.rvfi_intr (rvfi_intr ),
.rvfi_mode (rvfi_mode ),
.rvfi_ixl (rvfi_ixl ),
.rvfi_rs1_addr (rvfi_rs1_addr ),
.rvfi_rs2_addr (rvfi_rs2_addr ),
.rvfi_rs1_rdata (rvfi_rs1_rdata),
.rvfi_rs2_rdata (rvfi_rs2_rdata),
.rvfi_rd_addr (rvfi_rd_addr ),
.rvfi_rd_wdata (rvfi_rd_wdata ),
.rvfi_pc_rdata (rvfi_pc_rdata ),
.rvfi_pc_wdata (rvfi_pc_wdata ),
.rvfi_mem_addr (rvfi_mem_addr ),
.rvfi_mem_rmask (rvfi_mem_rmask),
.rvfi_mem_wmask (rvfi_mem_wmask),
.rvfi_mem_rdata (rvfi_mem_rdata),
.rvfi_mem_wdata (rvfi_mem_wdata),
.i_dbus_adr (o_dbus_adr),
.i_dbus_dat (o_dbus_dat),
.i_dbus_sel (o_dbus_sel),
.i_dbus_we (o_dbus_we ),
.i_dbus_rdt (i_dbus_rdt),
.i_dbus_ack (i_dbus_ack),
.i_ctrl_pc_en (ctrl_pc_en),
.rs1 (rs1),
.rs2 (rs2),
.rs1_addr (rs1_addr),
.rs2_addr (rs2_addr),
.immdec_en (immdec_en),
.rd_en (rd_en),
.trap (trap),
.i_rf_ready (i_rf_ready),
.i_ibus_cyc (o_ibus_cyc),
.two_stage_op (two_stage_op),
.init (init),
.i_ibus_adr (o_ibus_adr),
`endif
.i_clk (clk),
.i_rst (i_rst),
.i_ibus_rdt (i_ibus_rdt),
.i_ibus_ack (i_ibus_ack),
.i_rd_addr (rd_addr ),
.i_cnt_en (cnt_en ),
.i_csr_in (csr_in ),
.i_csr_mstatus_en (csr_mstatus_en),
.i_csr_mie_en (csr_mie_en ),
.i_csr_mcause_en (csr_mcause_en ),
.i_csr_en (csr_en ),
.i_csr_addr (csr_addr),
.i_wen0 (o_wen0),
.i_wdata0 (o_wdata0),
.i_cnt_done (cnt_done));
end
endgenerate
generate
if (MDU) begin: gen_mdu
assign dbus_rdt = i_ext_ready ? i_ext_rd:i_dbus_rdt;
assign dbus_ack = i_dbus_ack | i_ext_ready;
end else begin : gen_no_mdu
assign dbus_rdt = i_dbus_rdt;
assign dbus_ack = i_dbus_ack;
end
assign o_ext_rs2 = o_dbus_dat;
endgenerate
endmodule
`default_nettype wire
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