Using Figure 10 on page 25 you can see that if, for example, fddi_1 network on the ShuntBus is used, it eliminates token_ring_1, token_ring_2 and token_ring_3. Also, you can see that the use of Ethernet segments ethernet_7 and ethernet_8 have no affect on the availability of token-ring and FDDI segments.

Figure 10. ShuntBus Backplane Network Allocation

Figure 11 on page 26 is a summary of how the Enhanced TriChannel and the ShuntBus are used to accommodate the various types of networks. Note that in this diagram, for the sake of avoiding a crowded picture, the token-ring and FDDI segments on the Enhanced TriChannel are not shown.

In designing your network, if possible, it is recommended that you use the Enhanced TriChannel as well as the two dedicated Ethernet segments on the ShuntBus for the Ethernet segments only and use the ShuntBus for the token-ring segments only.

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IBM 8260 manual ShuntBus Backplane Network Allocation

8260 specifications

The IBM 8260 is a significant entry in the realm of enterprise servers, recognized for its performance, scalability, and robust features designed to cater to demanding business environments. It primarily serves as a high-capacity server for large organizations, capable of handling extensive workloads and complex applications without compromising speed or efficiency.

One of the standout features of the IBM 8260 is its powerful processing capabilities. It typically comes equipped with multiple processor units based on the IBM POWER architecture, which is renowned for its high-performance computing. This architecture allows the server to execute numerous simultaneous tasks, making it ideal for environments that require multitasking and high throughput.

Memory capacity is another key characteristic of the IBM 8260. Depending on the specific configuration, it can support substantial amounts of RAM, ensuring that applications can run effectively without the bottlenecks often associated with data-intensive tasks. This is crucial for enterprises that rely on real-time data analytics, large database management, and resource-heavy applications.

In terms of storage, the IBM 8260 offers flexible options. It supports a variety of storage solutions, including solid-state drives (SSDs) and traditional hard drives, catering to different performance and capacity needs. This scalability in storage helps organizations manage their data effectively while ensuring quick access and retrieval times.

Connectivity is also a prominent feature of the IBM 8260. The server includes advanced networking capabilities, supporting various protocols and technologies that facilitate fast data transfer and communication between devices. This enhances overall network performance, essential for businesses that depend on cloud computing and distributed computing environments.

Additionally, the IBM 8260 is designed with a focus on reliability and availability. It incorporates redundant components, such as power supplies and cooling systems, minimizing the risk of downtime. This is critically important for enterprises that require continuous availability of services.

The server’s management features are also noteworthy. IBM provides a suite of management tools that allow IT administrators to monitor performance, configure hardware settings, and troubleshoot issues seamlessly. This ease of management is bolstered by automation capabilities, enabling organizations to enhance operational efficiency.

In conclusion, the IBM 8260 stands out in the competitive server landscape due to its high processing power, extensive memory and storage options, advanced connectivity, reliability features, and robust management tools. Such attributes make it a viable choice for organizations seeking to enhance their IT infrastructure and streamline their operations effectively.