1 / 13

Multicycle Control Unit

24. MDR. Multicycle Control Unit. PCWriteCond. PCWrite. PCSource. IorD. ALUOp. MemRead. Control. ALUSrcB. MemWrite. ALUSrcA. MemtoReg. RegWrite. IRWrite. RegDst. PC[31-28]. Instr[31-26]. Shift left 2. 28. Instr[25-0]. 2. 0. 1. Address. Memory. 0. PC. 0. Read Addr 1.

wendyhansen
Download Presentation

Multicycle Control Unit

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 24

  2. MDR Multicycle Control Unit PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  3. Multicycle Control Unit • Draw state transition diagram for corresponding FSM and implement it in hardware (DONE IN CLASS)

  4. MDR Step 1 (Instruction fetch) [state s0] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  5. MDR Step 2 (Instruction decode, register fetch) [state s1] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  6. MDR Step 3 (Memory reference) [state s2] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  7. MDR Step 4 (Loads access memory) [state s3] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  8. MDR Step 5 (write-back) [state s4] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  9. MDR Step 4 (Stores access memory) [state s5] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  10. MDR Step 3 (R-type) [state s6] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  11. MDR Step 4 (R-type instructions finish) [state s7] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  12. MDR Step 3 (Branch) [state s8] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

  13. MDR Step 3 (Jump) [state s9] PCWriteCond PCWrite PCSource IorD ALUOp MemRead Control ALUSrcB MemWrite ALUSrcA MemtoReg RegWrite IRWrite RegDst PC[31-28] Instr[31-26] Shift left 2 28 Instr[25-0] 2 0 1 Address Memory 0 PC 0 Read Addr 1 A Read Data 1 IR Register File 1 1 zero Read Addr 2 Read Data (Instr. or Data) 0 ALUout ALU Write Addr Write Data 1 Read Data 2 B 0 1 Write Data 4 1 0 2 Instr[15-0] Sign Extend Shift left 2 3 32 ALU control Instr[5-0]

More Related