Network Infrastructure Design for a Community Center Background: The "Greenwood Community Center" is a hub for local activities, events, and workshops. They have recently expanded their premises, adding a new main office and a community hall. Recognizing your expertise as a CTU student specializing in network infrastructure and security, they've approached you to design and simulate a Local Area Network (LAN) that caters to their growing needs. They've emphasized the importance of a secure, efficient, and scalable network. Objective: Your task is to use Packet Tracer to design a simulated network that meets the center's requirements. The simulation should be as close to a real-world setup as possible. Requirements: 1. Main Office Setup • Computers: Set up three computers named Office PC1, Office PC2, and Reception PC. These are essential workstations where daily administrative tasks are performed. • Connectivity: Use copper straight-through cables to establish connections between these computers. [8 Marks] • Switch: Integrate a modern switch to ensure efficient data transfer between these computers. • IP Addressing: Assign IP addresses from the 10.0.20.0/24 range. Ensure there's no IP conflict and that the addresses facilitate smooth communication. • Data Flow: Test and confirm that data packets can flow seamlessly between all three computers. • Diagram Labeling: Your simulation diagram should be clear, with devices and connections labeled appropriately. 2. Community Hall Setup • Computers: The hall has two computers named Hall PC1 and Hall PC2, mainly used for presentations and workshops. • Connectivity: Connect these computers using copper crossover cables to ensure direct communication. • Router: Incorporate a modern router to bridge the hall's network with the main office, ensuring both networks can communicate while maintaining distinct functionalities. • IP Addressing: Use the 10.0.30.0/24 range for these computers, ensuring they're on a separate subnet from the main office. • Data Flow: Ensure data packets can flow between the hall computers and the main office computers, but maintain a level of segmentation for security.
Network Infrastructure Design for a Community Center
Background: The "Greenwood Community Center" is a hub for local activities, events, and workshops. They have recently expanded their premises, adding a new main office and a community hall. Recognizing your expertise as a CTU student specializing in network infrastructure and security, they've approached you to design and simulate a Local Area Network (LAN) that caters to their growing needs. They've emphasized the importance of a secure, efficient, and scalable network.
Objective: Your task is to use Packet Tracer to design a simulated network that meets the center's requirements. The simulation should be as close to a real-world setup as possible.
Requirements:
1. Main Office Setup • Computers: Set up three computers named Office PC1, Office PC2, and Reception PC. These are essential workstations where daily administrative tasks are performed.
• Connectivity: Use copper straight-through cables to establish connections between these computers. [8 Marks] • Switch: Integrate a modern switch to ensure efficient data transfer between these computers. • IP Addressing: Assign IP addresses from the 10.0.20.0/24 range. Ensure there's no IP conflict and that the addresses facilitate smooth communication. • Data Flow: Test and confirm that data packets can flow seamlessly between all three computers. • Diagram Labeling: Your simulation diagram should be clear, with devices and connections labeled appropriately.
2. Community Hall Setup
• Computers: The hall has two computers named Hall PC1 and Hall PC2, mainly used for presentations and workshops. • Connectivity: Connect these computers using copper crossover cables to ensure direct communication. • Router: Incorporate a modern router to bridge the hall's network with the main office, ensuring both networks can communicate while maintaining distinct functionalities. • IP Addressing: Use the 10.0.30.0/24 range for these computers, ensuring they're on a separate subnet from the main office. • Data Flow: Ensure data packets can flow between the hall computers and the main office computers, but maintain a level of segmentation for security.
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