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CIT 593 Introduction to Computer Systems - Module 07 Assignment: TRAPs and memory-mapped devices

CIT593Introduction to Computer SystemsTRAPsmemory-mapped devicesLC4

In this assignment, you will continue programming in LC4 Assembly. We will be working in the Operating System portion of memory, so you will learn about TRAPs and memory-mapped devices.

CS537 Introduction to Operating Systems - Project 3: Build a Unix Shell - wsh

CS537Introduction to Operating SystemsBuild a Unix ShellwshCC++

In this project, you’ll build a simple Unix shell. The shell is the heart of the command-line interface, and thus is central to the Unix/C programming environment. Mastering use of the shell is necessary to become proficient in this world; knowing how the shell itself is built is the focus of this project.

CS537 Introduction to Operating Systems - Project 2: xv6 System Call

CS537Introduction to Operating Systemsxv6 System CallCC++

In this assignment, you will create a system call in xv6 which returns the name of the parent process of the current process.

CS537 Introduction to Operating Systems - Project 1: Letter Boxed

CS537Introduction to Operating SystemsLetter BoxedCC++

In this assignment, you will write a program which checks solutions to the word game Letter Boxed. The rules of letter boxed are simple. Given a letter boxed board, you must use each letter in the board at least once to form words found in the dictionary. You can start on any letter, but the first character of each subsequent word must be the same as the last character of the previous word

DPST1092 Computer Systems Fundamentals - Assignment 1: Breakout in MIPS

DPST1092Computer Systems FundamentalsBreakout in MIPSMIPS

breakout.c is an implementation of a version of Breakout, a popular and influential video game. An example game of Breakout can be seen to the right. A game of Breakout takes place on a 2D grid, where the player must move a paddle to bounce a ball (*) into a group of bricks (digits). You can move the paddle left (a and A) and right (d and D). Hitting bricks with the ball will destory the bricks, and reward the player with score points. Every 10 bricks destroyed will spawn a new ball, with up to 3 balls on the screen at any given time.

Computer Systems, Data Structures and Data Management 4CM508 - Coursework 1: Design and analyse data management solutions

4CM508Computer SystemsData StructuresData ManagementDatabase

Design and analysis of a data engineering solution such as a database (table, structure, formats) for a given scenario.

COMP SCI 3004/7064 Operating Systems Practical 2 - Virtual Memory Simulation

COMP SCI 3004COMP SCI 7064COMP3004Operating SystemsCOMP7064Virtual Memory Simulation

By doing this practical work, you will learn how to implement page replacement algorithms, gain experience in creating and evaluating a simple simulator, and develop your skills in scientific writing.

48730-32548, Cyber Security Week-5 Understanding TCP/IP based Attacks

Cyber SecurityTCP/IPLinuxWiresharkNetwoxNetwork traffic sniffer

In this lab, you need to conduct attacks on the TCP/IP protocols. You can use the Netwox or Netwag, Wireshark, Tshark tools in the attacks. All the attacks are performed on Linux operating systems.

CS 480 OPERATING SYSTEMS Assignment 01: Page Trace

CS480OPERATING SYSTEMSPage TraceMemory ManagementMemory SpacePage Table

Operating systems manage memory space in pages or blocks, this is done for many reasons that we will discuss in the memory management topic later in the class. For this assignment, you are asked to implement a tree data structure to store the memory page (block) information and use it to track the memory page access stats in simulating memory accesses from a memory trace file. Assume a 32-bit system, each memory address has 32 bits.

18-213/18-613: Computer Systems, Summer 2024, Shell Lab: Writing Your Own Linux Shell

Computer SystemsShell LabCWriting Your Own Linux ShelltshProcess Control

The purpose of this assignment is to help you become more familiar with the concepts of process control and signalling. You’ll do this by writing a simple Linux shell program, tsh (tiny shell), that supports a simple form of job control and I/O redirection

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