How to Simulate Static Routing Projects using OPNET

To Simulate a static routing project in OPNET Modeler it includes the configuration of connection through predefined and fixed routes among nodes. Different dynamic routing protocols and static routing does not automatically adjust to network changes; instead, every router has manually setting the routes. This technique is simple and often utilized in minimum or stable networks in which routes rarely variation. Here’s a step-by-step procedure to setting up a static routing simulation in OPNET:

Steps to Simulate Static Routing Projects using OPNET

1. Set Up the OPNET Project

• Open OPNET Modeler we build a new project for static routing.
• State the workspace has includes the replication of  duration and the parameter metrics we need to analyse, such as delay, packet delivery, and connection utilization.

2. Design the Network Topology

• Generate a network topology with routers, switches, and endpoint nodes like as clients and servers.
• Model the topology with a few modification paths among nodes to follow on how tuning the static routing utilized the organized paths without rerouting.
• Enhance clients and servers on several subnets we build a routing requirement among them.

3. Disable Dynamic Routing Protocols

• Enable no dynamic routing protocols for samples OSPF, RIP, or EIGRP are assured as the static routing does not rely on automatic route discovery or updates.
• Configure the network without many protocol-based routes analysis which routes are setting manually.

4. Configure Static Routes on Each Router

• For every router in the network:
  • Go to the router’s IP Routing Table and manually improve static routes.
  • State every route through specifying the destination network, subnet mask, and next-hop IP address or outgoing interface.
  • Configure the routes we cover all necessary paths among source and destination nodes. Assure each router has routes for all networks it requires to reach the static routing does not bring up-to-date its new routes are needed.
• For redundancy, we can enhance the several static routes to a destination by various metrics or costs. This assigns we to control the path selection and state backup routes it’s a primary route fails.

5. Set Up Link Characteristics

• State a connection features like as bandwidth, delay, and error rates for every connection in the network.
• This is main to replicate a consistency network behaviour, as static routing does not adapt to this parameter. Though, which would still impact the performance of data communication.

6. Add Application Traffic

• Setting the application traffic such as HTTP, FTP, VoIP among clients and servers to create a data flows with the statically setting routes.
• In Application Config and Profile Config:
  • State the traffic features like as file sizes, page request intervals, or session duration.
  • Assign this profile to the client and server nodes on follow the traffic flow and analyse on how well static routes maintain the data.

7. Add Background Traffic for Congestion Analysis (Optional)

• To validate a static routing performance under load, improve background traffic on specific connection of replication in traffic.
• Since static routing does not reroute automatically, this could be supports to you analyse on how well network performance destroys under high traffic environements.

8. Configure Simulation Parameters

• Ensure the parameter metrics gathered for relevant data, such as link utilization, latency, packet delivery ratio, and routing table stability.
• Ensure the logging for packet forwarding activities to observe on how packets traverse the network using the predefined static routes.

9. Run the Simulation

• Initially the replication and follow on how well data flows terms on to the static routes setting on every router.
• Track the network to illustrative the traffic follows the expected paths and if all packets reach their intended destinations.

10. Analyse Results

• After the replication done to utilized an OPNET’s analysis tools to estimate static routing performance:
  • Link Utilization: Evaluate the connection utilization to show it many connections become congested and analyse if static routing is efficiently utilized available bandwidth.
  • Latency and Packet Delay: Follow on delay and packet delays on the static routes for particularly under high traffic loads.
  • Packet Delivery Ratio: Checked the effective rate of packet delivery from source to destination such as static routes may drop packets if routes are misconfigured.
  • Network Stability: verified that routing tables continue stable throughout the replication of static routes do not change dynamically.
    

Using OPNET tool, we illustrated the fundamental approach with the samples for Static routing project that were simulated and visualized the outcomes. We plan to deliver more information regarding the Static routing.

We handle both dynamic and static routing protocols, so if you’re looking for top-notch simulation services for your Static Routing Projects using the OPNET tool, phdprime.com is the place to go. Reach out to us for the best support!