FREE IGNOU MLI 001 Solved Assignment 2024-25 | Introduction to Computers Solved Assignment 2024-25: MLI 001 Solved Assignment 2024-25 , MLI 001 Assignment 2022 , FREE MLI 001 Assignment , IGNOU Assignment 2024-25- Gandhi National Open University had recently uploaded the assignments of this session for Management for the year 2024-25. Students are recommended to download their Assignments from this web page itself. MLI 001 Solved Assignment 2024-25 They don’t need to go anywhere else when everything regarding the Assignments are available during this text only.
FREE IGNOU MLI 001 Solved Assignment 2024-25 | Introduction to Computers
University | IGNOU (Indira Gandhi National Open University) |
Code | MLI 001 |
Title | Introduction to Computers |
Language | English |
Session | July 2024-January 2025 |
MLI 001 Solved Assignment 2024-25 : for college kids – MLI 001 Introduction to Computers Solved Assignment 2024-25, Students are advised that after successfully downloading their Assignments, you’ll find each and every course assignments of your downloaded. Candidates got to create separate assignment for the IGNOU Master Course, so as that it’s easy for Evaluators to ascertain your assignments.
I) Answer any two of the following in not more than 1000 words each
Q1) Describe memory hierarchy? Explain the types of memory hierarchy.
Memory hierarchy refers to the organization of computer memory in a hierarchical order based on their proximity to the CPU and their speed and size characteristics. The primary objective of memory hierarchy is to bridge the gap between the fast but expensive and limited CPU registers and the slower but larger and cheaper main memory (RAM) and secondary storage (such as hard disk drives or solid-state drives). This hierarchy aims to optimize the performance and efficiency of the computer system by storing and accessing data at different speeds and capacities according to their frequency of use and importance.
CPU Registers: These are the fastest and smallest form of memory, located directly in the CPU itself. Registers store data that the CPU is currently processing or about to process. Registers have the fastest access time, measured in nanoseconds, and are typically used to store temporary data and CPU instructions.
Cache Memory: Cache memory is a small-sized but faster form of volatile memory that sits between the CPU and main memory. It serves as a buffer between the CPU and RAM, holding frequently accessed data and instructions to reduce the latency of memory accesses. Cache memory is divided into multiple levels (L1, L2, L3), with each level being larger but slower than the previous one. L1 cache, the smallest and fastest cache, is usually integrated directly into the CPU, while L2 and L3 cache are located on the CPU die or on separate chips close to the CPU.
Main Memory (RAM): Random Access Memory (RAM) is the primary form of volatile memory in a computer system. It holds data and instructions that are actively being used or manipulated by the CPU. While RAM is faster than secondary storage devices like hard drives or SSDs, it is slower than CPU registers and cache memory. RAM is divided into dynamic RAM (DRAM) and static RAM (SRAM), with DRAM being more common due to its higher density and lower cost.
Secondary Storage: Secondary storage devices, such as hard disk drives (HDDs) and solid-state drives (SSDs), provide non-volatile storage for data and programs that are not actively being used by the CPU. Unlike RAM, secondary storage retains data even when the power is turned off. While secondary storage devices offer much larger storage capacities compared to RAM, they are significantly slower in terms of access time. However, they are essential for storing large amounts of data and persistent storage of programs and files.
The memory hierarchy is designed to exploit the principle of locality, which states that programs tend to access a small portion of their address space frequently (temporal locality) and access nearby memory locations in sequence (spatial locality). By organizing memory in a hierarchical manner, computer systems can optimize memory access times and overall performance while balancing the trade-offs between speed, size, and cost.
Q2) What are the technical features of Linux? Discuss its Kernel and its modules.
Q3) Discuss the impact of information society on information profession.
II) Answer any four of the following in not more than 500 words each
Q1) Describe the functions of system software.
Q2) Explain the types of charts in spread sheet.
Q3) Differentiate between fibre optic cables and microwave.
Q4) Discuss the input-output process of a computer.
Q5) What is secondary storage? Why is it needed?
Q6) Highlight the factors that determine the arrival of information society.
MLI 001 Introduction to Computers Solved Assignment 2024-25: Those students who had successfully submitted their Assignments to their allocated study centres can now check their Assignment Status. Alongside assignment status, they will also checkout their assignment marks & result. All this is often available in a web mode. After submitting the assignment, you’ll check you IGNOU Assignment Status only after 3-4 weeks. it’d take 40 days to declare. MLI 001 Solved Assignment 2024-25
Also Check:
MSD 016 Solved Assignment 2024-25
MSD 020 Solved Assignment 2024-25
Those students who had successfully submitted their Assignments to their allocated study centres can now check their Assignment Status. Along with assignment status, they can also checkout their assignment marks & result. MLI 001 Solved Assignment 2024-25 All this is available in an online mode. After submitting the assignment, you can check you IGNOU Assignment Status only after 3-4 weeks. It might take 40 days to declare.
For PDF and Handwritten
WhatsApp 8130208920