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Tutorial 11

Tutorial 11. The Microprocessor and its Architecture. Objectives. Revision on lecture note(CPU Architecture) Intel x86. CPU. What is CPU? one central unit that executes program instructions communicates with and controls the operation of other subsystems within the computer

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Tutorial 11

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  1. Tutorial 11 The Microprocessor and its Architecture

  2. Objectives • Revision on lecture note(CPU Architecture) • Intel x86 By Ivan Leung

  3. CPU • What is CPU? • one central unit that executes program instructions • communicates with and controls the operation of other subsystems within the computer • its main function – to fetch and execute instructions By Ivan Leung

  4. CPU By Ivan Leung

  5. CPU Fundamental • As you know, fetching and execution are broken down into smaller steps(e.g. movement between registers, addition by using ALU, etc…) • Each of these smaller steps is a machine code, i.e. an assembly instruction • Assembly program will be assembled to machine instructions and then put in the main memory (You should know that already, Right?) By Ivan Leung

  6. CPU Fundamental • Depends on the machine instruction, the CPU will generate a set of control signals to control other subsystem (You also known that) • CPU bus(What is bus?) • The bus is internal to the CPU • connected the components in the CPU (e.g. ALU, GPR, MAR, MDR, PC, …) By Ivan Leung

  7. CPU Memory Function Completion: indicates the operation in memory is completed CPU with Single-bus CPU internal bus From control unit To main memory Y,Z and TEMP are registers. That are transparent to programmers. CPU will use it by itself. From control unit By Ivan Leung

  8. Example of Bus organization • Fetch a Word from MM • Assume the address of the memory location to be accessed is in R1 and the memory data are to be loaded into R2 • Write a Word to MM CPU idle By Ivan Leung

  9. Control signals • To MM: • Read, Write, Reset, etc • To Registers: • Riin – input data to Ri from CPU bus if ‘1’ • Riout – output data in Ri to CPU bus if ‘1’; ‘0’: bus is used by others • reset, etc… • To ALU: • Add, Sub, Mul, Div, etc… By Ivan Leung

  10. Example of Control Signals • Add data in R1 and R2 registers and put the result to R3 Electronic switch: In control ‘1’ will get input else will not Out control ‘1’ will output the data else ‘0’ will not By Ivan Leung

  11. 1-bit register with Switch Z means the tri-state is in high impedance mode Control to SR latch SR latch (God! What is it?) By Ivan Leung

  12. Control Sequence • ADD A,R1 Fetch Execution By Ivan Leung

  13. Control Sequence • BRN(conditional/unconditional) For step 4, if not satisfy branch condition, then End branch address = [PC] + Offset By Ivan Leung

  14. CPU with 3 internal buses • required significantly fewer control steps ADD R1,R2,R3 (one clock cycle) • execution phase to be performed in one clock cycle • Y is not required because ALU can take two inputs from two registers from two data buses • Z is not required because ALU can write the result to the destination register by 3rd bus • performs register-to-register operations in a single clock cycle By Ivan Leung

  15. CPU Architecture By Ivan Leung

  16. Control Signal • But how to generate the control signals as the control sequence discussed before? • By microprogramming • What is microprogramming? • Using a sequence of microinstructions to generates a sequence of control signals By Ivan Leung

  17. Microprogramming • A control word(CW) is a word whose individual bits represent the various control signals • Each CW represents a set of control signals in one step of control sequence of an instruction, which is called microinstruction • A sequence of CWs, which is referring to the control sequence of a machine instruction, is called microroutine • Microprogram memory contains the microroutine of all instructions • Depends on [IR], a starting address of corresponding microroutine is given to microprogram counter • MicroPC will be incremented and then a sequence of CWs will be given out By Ivan Leung

  18. Hand-shaking with Memory • In the control sequence, there are steps that have to wait for MFC from memory. A signal WMFC is used. By Ivan Leung

  19. Hand-shaking with Memory • Why MR? • if • But, if it starts at (i+1)-th pulse, However, after the drop of (i+1)-th pulse and before the raise of (i+2)-th pulse, It is wrong! By Ivan Leung

  20. 80x86 By Ivan Leung

  21. 8086 (Review) • 16-bit processor with 20-bit address bus • Direct mode addressing with memory space of 1MByte • 14 words by 16-bit register set (You should be familiar with them) • Byte addressable • For address and data operands, the least significant byte of the word is stored in the lower valued address location and the most significant byte in the next higher address location By Ivan Leung

  22. 8086 (Review) By Ivan Leung

  23. 8086 • Why there is no Program Counter(PC)? • How to indicate the next instruction to be executed? • How stack works? • What is the function of SP? • What is the starting position of SP? • How “CALL” works? • How to jump to other procedure? • How to return(RET) to previous procedure? By Ivan Leung

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