Nội dung text MPI IMP Analysis.pdf
MPI IMP Analysis ( W21 – W24 ) :-) Unit-1: Introduction to Microprocessor Differentiate between Microcontroller and Microprocessor. 3M S23 Explain the difference between a microprocessor and a microcomputer. 3M W23 List the key parts of a microprocessor and give a short explanation of their functions. 3M W24 Define (1) Microprocessor (2) System Bus (3) Instruction Cycle. 3M S24 Unit-2: Microprocessor Architecture & Operations Explain memory and I/O operations in a microprocessor. 4M W24
Unit-3: 8085 Microprocessor Explain 8085 Programming Model with a diagram. 4M S24 Explain 8085 Programming Model and Flag Register. 7M W21 Explain 8085 Programming model and classify instruction set on the basis of different addressing modes. 4M W22 Explain the 8085 Programming model and classify the instruction set on the basis of different addressing modes. 7M W23 Explain General purpose Data register. 3M W23 Draw the architectural diagram of 8085 microprocessor and list out the following: 1. General Purpose Registers 2. Special Purpose Registers with their functions 3. Flags in the flag register with required explanation 7M S23 Define (1) Accumulator (2) Program Counter (3) Stack Pointer. 3M S24 What is a flag Register? Enlist and explain various types of flags. 7M W22 Explain the flag register in 8085 microprocessor. 3M S22 Explain various flags used in 8085. 3M W23 Explain the function of the program counter and stack pointer in the 8085 microprocessor. 3M W24 Explain 8085 bus organization. 4M S22 Explain system bus of 8085 microprocessor. 3M W21 Draw and explain the Pin diagram of 8085. 7M W23 Draw and explain the Pin diagram of the 8085 Microprocessor. 7M S24 Explain the following pins of 8085: (1) INTR (2) HOLD (3) SOD (4) READY 4M S22 Explain following pins of an 8085 microprocessor in brief: 1. ALE 2. TRAP 3. READY 4. HLDA 4M W21 Describe the functions of: 1. READY PIN 2. ALE 3. HOLD 4. X1 and X2 5. SID and SOD 6. IO/M 7. HLDA 7M W22
Explain the purpose of the following signals in 8085: 1. READY 2. AD0-AD7 3. HOLD 4. IO/M 5. INTR 4M S23 Explain Read/Write control signals for memory and I/O. 4M W23 Explain Read/Write control signals for memory and I/O. 4M W24 Define significance of ALE pin with an example or a diagram. 4M S23 Define the significance of the ALE pin with an example or a diagram. 4M W23 Draw the block diagram of internal architecture of 8085 and explain its working. 7M S22 Describe the architecture of the 8085 microprocessor with a neat diagram. 7M W24 Draw and explain the block diagram of a microprocessor 8085. 7M W22 What is the role of the ALU and control unit in the 8085 microprocessor? 3M W24 Define the followings: Machine Cycle, T-state, JC, CMP, RET, SBB, STC 7M W21 Describe the instruction cycle and machine cycles of the 8085 microprocessor. 4M W24 Explain demultiplexing of data and address bus of 8085. 4M S22 Can you provide a diagram illustrating the de-multiplexing of the Address/Data bus (AD0- AD7) in the 8085 microprocessor? 4M S23 Explain the memory interfacing with the 8085 microprocessor. 4M W24 Draw the memory interface 4kB of EPROM with a starting address from 0000H and 2kB of RAM with a starting address followed by EPROM with 8085 Microprocessor. 7M S24 Explain interfacing of 4KB EPROM with 8085 using decoder and gates as required. Assume starting address as 0000H. 7M S22 Draw the interfacing of a 4KB EPROM having a starting address 0000H and two 2KB static RAMs having starting addresses 4000H and 8000H, respectively, with an 8085 microprocessor. Use demultiplexed address/data lines and use a 3-to-8 decoder (74LS138). 7M S23 Find the ending address of an 8K-byte memory if the starting address is '0'. 3M W23 What is the ending address of a 2K-byte memory whose starting address is 3000H? 3M W23 How many memory locations can be addressed by microprocessor with 14 address lines? Also specify how many address lines are required for 2KB memory. 3M S22 Explain the generation of control signals in 8085. 4M S22
Unit-4: Assembly Language Programming Basics Explain Machine level language and Assembly level language with examples. 3M S22 What are the advantages of an assembly language in comparison with high level languages? 4M W22 Explain Assembler, Debugger, and Linker with an example. 3M W23 Explain Assembler, Debugger, and Linker with an example. 3M W24 Explain the classification of instructions based on byte size with examples. 3M S24 Explain One byte, Two byte, Three byte and write a short note on different types of instruction sets. 4M W22 Explain One byte, Two byte, Three byte, and write a short note on different types of instruction sets. 7M W23 Explain instruction set of 8085. 3M S23 Explain the instruction format of 8085 instructions. 3M S24 Describe any four data transfer instructions in 8085 with examples. 4M S24 Explain arithmetic instructions of 8085. 4M S22 Describe any four arithmetic instructions in 8085 with examples. 4M S24 Explain various types of conditional jump instructions with examples. 4M W23 Explain the following instructions: 1. LHLD 2. RAL 3. DAA 3M S22 Difference between RLC and RAL instruction. 3M W22 Difference between RRC and RAR instruction. 3M W22 Explain various addressing modes of 8085 microprocessor. 7M W21 Discuss various types of addressing modes of 8085. 3M W22 Explain the different addressing modes available in the 8085 microprocessor, with examples to illustrate each mode. 7M S23 Elaborate on different addressing modes in 8085 with suitable examples. 7M S24 Explain Indirect and Immediate addressing mode with examples. 4M W23 State the addressing modes of the following instructions: 1. CMA 2. LDA 2500H 3. ANA M 4. LXI SP 3M S23 If an 8085 is an 8-bit microprocessor, how many bits can be loaded by the register pairs (BC, DE, HL, or SP) using LXI? 3M S23