`define BUS_ICACHE 0
-module System(input clk, output wire bubbleshield, output wire [31:0] insn, output wire [31:0] pc);
+module System(input clk);
wire [7:0] bus_req;
wire [7:0] bus_ack;
wire [31:0] bus_addr;
wire [31:0] bus_wdata;
wire bus_rd, bus_wr;
wire bus_ready;
-
- wire bus_req_icache = bus_req[`BUS_ICACHE];
+
+ wire bus_req_icache;
+ assign bus_req = {7'b0, bus_req_icache};
wire bus_ack_icache = bus_ack[`BUS_ICACHE];
+
wire [31:0] bus_addr_icache;
wire [31:0] bus_wdata_icache;
wire bus_rd_icache;
wire icache_rd_req;
wire icache_rd_wait;
wire [31:0] icache_rd_data;
-
+
+ wire stall_cause_issue;
+ wire stall_cause_execute;
+
+ wire [31:0] decode_out_op0, decode_out_op1, decode_out_op2;
+ wire decode_out_carry;
+ wire [3:0] regfile_read_0, regfile_read_1, regfile_read_2;
+ wire [31:0] regfile_rdata_0, regfile_rdata_1, regfile_rdata_2;
+ wire execute_out_stall, execute_out_bubble;
+ wire execute_out_write_reg;
+ wire [3:0] execute_out_write_num;
+ wire [31:0] execute_out_write_data;
+
+ wire bubble_out_fetch;
+ wire bubble_out_issue;
+ wire [31:0] insn_out_fetch;
+ wire [31:0] insn_out_issue;
+ wire [31:0] pc_out_fetch;
+ wire [31:0] pc_out_issue;
+
BusArbiter busarbiter(.bus_req(bus_req), .bus_ack(bus_ack));
ICache icache(
.bus_addr(bus_addr_icache), .bus_rdata(bus_rdata),
.bus_wdata(bus_wdata_icache), .bus_rd(bus_rd_icache),
.bus_wr(bus_wr_icache), .bus_ready(bus_ready));
-
+
BlockRAM blockram(
.clk(clk),
.bus_addr(bus_addr), .bus_rdata(bus_rdata_blockram),
Fetch fetch(
.clk(clk),
- .Nrst(1 /* XXX */),
+ .Nrst(1'b1 /* XXX */),
.rd_addr(icache_rd_addr), .rd_req(icache_rd_req),
.rd_wait(icache_rd_wait), .rd_data(icache_rd_data),
- .stall(0 /* XXX */), .jmp(0 /* XXX */), .jmppc(0 /* XXX */),
- .bubble(bubbleshield), .insn(insn), .pc(pc));
-
+ .stall(stall_cause_issue), .jmp(1'b0 /* XXX */), .jmppc(32'b0 /* XXX */),
+ .bubble(bubble_out_fetch), .insn(insn_out_fetch),
+ .pc(pc_out_fetch));
+
+ Issue issue(
+ .clk(clk),
+ .Nrst(1'b1 /* XXX */),
+ .stall(stall_cause_execute), .flush(1'b0 /* XXX */),
+ .inbubble(bubble_out_fetch), .insn(insn_out_fetch),
+ .inpc(pc_out_fetch), .cpsr(32'b0 /* XXX */),
+ .outstall(stall_cause_issue), .outbubble(bubble_out_issue),
+ .outpc(pc_out_issue), .outinsn(insn_out_issue));
+
+ RegFile regfile(
+ .clk(clk),
+ .read_0(regfile_read_0), .read_1(regfile_read_1), .read_2(regfile_read_2),
+ .rdata_0(regfile_rdata_0), .rdata_1(regfile_rdata_1), .rdata_2(regfile_rdata_2),
+ .write(4'b0), .write_req(1'b0), .write_data(10 /* XXX */));
+
+ Decode decode(
+ .clk(clk),
+ .insn(insn_out_fetch), .inpc(pc_out_fetch), .incpsr(32'b0 /* XXX */),
+ .op0(decode_out_op0), .op1(decode_out_op1), .op2(decode_out_op2),
+ .carry(decode_out_carry),
+ .read_0(regfile_read_0), .read_1(regfile_read_1), .read_2(regfile_read_2),
+ .rdata_0(regfile_rdata_0), .rdata_1(regfile_rdata_1), .rdata_2(regfile_rdata_2));
+
+ Execute execute(
+ .clk(clk), .Nrst(1'b0),
+ .stall(1'b0 /* XXX */), .flush(1'b0 /* XXX */),
+ .inbubble(bubble_out_issue), .pc(pc_out_issue), .insn(insn_out_issue),
+ .cpsr(32'b0 /* XXX */), .op0(decode_out_op0), .op1(decode_out_op1),
+ .op2(decode_out_op2), .carry(decode_out_carry),
+ .outstall(stall_cause_execute), .outbubble(execute_out_bubble),
+ .write_reg(execute_out_write_reg), .write_num(execute_out_write_num),
+ .write_data(execute_out_write_data));
+
+ reg [31:0] clockno = 0;
+ always @(posedge clk)
+ begin
+ clockno <= clockno + 1;
+ $display("------------------------------------------------------------------------------");
+ $display("%3d: FETCH: Bubble: %d, Instruction: %08x, PC: %08x", clockno, bubble_out_fetch, insn_out_fetch, pc_out_fetch);
+ $display("%3d: ISSUE: Stall: %d, Bubble: %d, Instruction: %08x, PC: %08x", clockno, stall_cause_issue, bubble_out_issue, insn_out_issue, pc_out_issue);
+ $display("%3d: DECODE: op1 %08x, op2 %08x, op3 %08x, carry %d", clockno, decode_out_op0, decode_out_op1, decode_out_op2, decode_out_carry);
+ $display("%3d: EXEC: Stall: %d, Bubble: %d, Output: %d, [%08x -> %d]", clockno, stall_cause_execute, execute_out_bubble, execute_out_write_reg, execute_out_write_data, execute_out_write_num);
+ end
endmodule