diff --git a/data_path.v b/data_path.v index 0ee8553..f9c89dd 100644 --- a/data_path.v +++ b/data_path.v @@ -75,6 +75,16 @@ buf (md_sel_1, CTRL[22]); buf alu_oprn_buf [5:0] (alu_oprn, CTRL[28:23]); +// variables +wire [31:0] ir; // Instruction Register +wire [31:0] r1, r2; // Register File +wire [31:0] pc, pc_inc; // Program Counter +wire [31:0] sp; // Stack Pointer +wire [31:0] alu_out; // ALU output + +// TODO: Why? +buf ir_buf [31:0] (INSTRUCTION, ir); + // Parse the instruction data wire [5:0] opcode; wire [4:0] rs; @@ -86,17 +96,80 @@ wire [15:0] imm; wire [25:0] addr; // common for all -buf opcode_buf [5:0] (opcode, DATA_IN[31:26]); +buf opcode_buf [5:0] (opcode, ir[31:26]); // common for R-type, I-type -buf rs_buf [4:0] (rs, DATA_IN[25:21]); -buf rt_buf [4:0] (rt, DATA_IN[20:16]); +buf rs_buf [4:0] (rs, ir[25:21]); +buf rt_buf [4:0] (rt, ir[20:16]); // for R-type -buf rd_buf [4:0] (rd, DATA_IN[15:11]); -buf shamt_buf [4:0] (shamt, DATA_IN[10:6]); -buf funct_buf [5:0] (funct, DATA_IN[5:0]); +buf rd_buf [4:0] (rd, ir[15:11]); +buf shamt_buf [4:0] (shamt, ir[10:6]); +buf funct_buf [5:0] (funct, ir[5:0]); // for I-type -buf imm_buf [15:0] (imm, DATA_IN[15:0]); +buf imm_buf [15:0] (imm, ir[15:0]); // for J-type -buf addr_buf [25:0] (addr, DATA_IN[25:0]); +buf addr_buf [25:0] (addr, ir[25:0]); + + +// Instruction Register input +// Instruction Register +REG32 ir_inst(.Q(ir), .D(DATA_IN), .LOAD(ir_load), .CLK(CLK), .RESET(RST)); + +// Register File Input +wire [31:0] r1_sel, wa_sel, wd_sel; +wire [31:0] wa_sel_p1, wa_sel_p2, wd_sel_p1, wd_sel_p2; +wire [31:0] imm_zx_lsb; +buf imm_zx_lsb_buf [31:0] (imm_zx_lsb, {imm, 16'b0}); +MUX32_2x1 mux_r1_sel(r1_sel, rs, 32'b0, r1_sel_1); +MUX32_2x1 mux_wa_sel_p1(wa_sel_p1, rd, rt, wa_sel_1); +// TODO: Why 31? +MUX32_2x1 mux_wa_sel_p2(wa_sel_p2, 32'b0, 31, wa_sel_2); +MUX32_2x1 mux_wa_sel(wa_sel, wa_sel_p2, wa_sel_p1, wa_sel_3); +MUX32_2x1 mux_wd_sel_p1(wd_sel_p1, alu_out,DATA_IN, wd_sel_1); +MUX32_2x1 mux_wd_sel_p2(wd_sel_p2, wd_sel_p1, imm_zx_lsb, wd_sel_2); +MUX32_2x1 mux_wd_sel(wd_sel, pc_inc, wd_sel_p2, wd_sel_3); +// Register File +REGISTER_FILE_32x32 rf_inst(.DATA_R1(r1), .DATA_R2(r2), .ADDR_R1(r1_sel), .ADDR_R2(rt), + .DATA_W(wd_sel), .ADDR_W(wa_sel), .READ(reg_r), .WRITE(reg_w), .CLK(CLK), .RST(RST)); + +// ALU Input +wire [31:0] op1_sel, op2_sel; +wire [31:0] op2_sel_p1, op2_sel_p2, op2_sel_p3; +wire [31:0] shamt_zx, imm_sx, imm_zx; +buf shamt_zx_buf [31:0] (shamt_zx, {27'b0, shamt}); +buf imm_sx_buf [31:0] (imm_sx, {{16{imm[15]}}, imm}); +buf imm_zx_buf [31:0] (imm_zx, {16'b0, imm}); +MUX32_2x1 mux_op1_sel(op1_sel, r1, sp, op1_sel_1); +MUX32_2x1 mux_op2_sel_p1(op2_sel_p1, 31'b1, shamt_zx, op2_sel_1); +MUX32_2x1 mux_op2_sel_p2(op2_sel_p2, imm_zx, imm_sx, op2_sel_2); +MUX32_2x1 mux_op2_sel_p3(op2_sel_p3, op2_sel_p2, op2_sel_p1, op2_sel_3); +MUX32_2x1 mux_op2_sel(op2_sel, op2_sel_p3, r2, op2_sel_4); +// ALU +ALU alu_inst(.Y(alu_out), .ZERO(ZERO), .OP1(op1_sel), .OP2(op2_sel), .OPRN(alu_oprn)); + +// Progam Counter Input +wire [31:0] pc_sel; +wire [31:0] pc_offset, pc_jump, pc_sel_p1, pc_sel_p2; +RC_ADD_SUB_32 pc_inc_inst(.Y(pc_inc), .A(pc), .B(32'b1), .SnA(1'b0)); +MUX32_2x1 mux_pc_sel_p1(pc_sel_p1, r1, pc_inc, pc_sel_1); +RC_ADD_SUB_32 pc_sel_2_inst(.Y(pc_offset), .A(pc), .B(imm_sx), .SnA(1'b0)); +MUX32_2x1 mux_pc_sel_p2(pc_sel_p2, pc_sel_p1, pc_offset, pc_sel_2); +buf pc_jump_buf [31:0] (pc_jump, {6'b0, addr}); +MUX32_2x1 mux_pc_sel(pc_sel, pc_jump, pc_sel_p2, pc_sel_3); +// Program Counter +defparam pc_inst.PATTERN = `INST_START_ADDR; +REG32_PP pc_inst(.Q(pc), .D(pc_sel), .LOAD(pc_load), .CLK(CLK), .RESET(RST)); + +// Stack Pointer +defparam sp_inst.PATTERN = `INIT_STACK_POINTER; +REG32_PP sp_inst(.Q(sp), .D(alu_out), .LOAD(sp_load), .CLK(CLK), .RESET(RST)); + +// Data out +MUX32_2x1 mux_data_out(DATA_OUT, r2, r1, md_sel_1); + +// Address out +wire [31:0] ma_sel_p1; +MUX32_2x1 mux_ma_sel_p1(ma_sel_p1, alu_out, sp, ma_sel_1); +// TODO: Check address calculation since it's 26 bit +MUX32_2x1 mux_ma_sel(ADDR, ma_sel_p1, pc, ma_sel_2); endmodule