Supermicro Switch Web GUI Quick Configuration Guide

Note:

1.Do not use the same switch ID for multiple switches on the stack.

2.All switches in the stack can only be configured through the master switch.

3.Make sure all stacked switches run the same version of firmware!

4.Only the same switch models can be stacked together. For example, the SSE-G24-TG4 switch can only be stacked with other SSE-G24-TG4 switches.

5.Use the same stacking ports configuration across all the switches in stack. For example, if xg1 and xg2 is used for stacking, all switches in the stack should have the same port numbers as stacking ports.

2.8 Tracking Uplink Failure

The Uplink Failure Tracking Feature (ULFT) is useful for blade switches (SBM-GEM-X2C, SBM- GEM-X2C+, SBM-GEM-X3S+ and SBM-XEM-X10SM). This helps blade servers to move to redundant Ethernet ports in case any blade switch uplink fails.

The user can configure one or more groups for ULFT. Each group can have one or more uplinks and one or more downstream ports.

Link tracking can be configured from the Layer2 Mgmt Link Tracking page.

Fig 8: Link Tracking Page

Release: 1.0c

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SUPER MICRO Computer SSE-G24-TG4, SSE-G48-TG4, SSE-X3348SR, SSE-X24SR manual Tracking Uplink Failure, Link Tracking

SSE-X24SR, SSE-G48-TG4, SSE-X3348SR, SSE-G24-TG4, SSE-X24S specifications

Supermicro, a global leader in high-performance server solutions, has a wide range of products tailored to meet the needs of modern data centers and enterprises. Among its impressive lineup are the SSE-X24S, SSE-G24-TG4, SSE-X3348SR, SSE-G48-TG4, and SSE-X24SR models, each equipped with unique features and technologies that set them apart in the competitive landscape of server technology.

The SSE-X24S is designed for versatility and efficiency in computing environments. It supports the latest Intel Xeon Scalable processors and offers a compact 1U form factor. The SSE-X24S is ideal for applications ranging from cloud computing to enterprise resource planning. Its high-density architecture allows for significant space savings while accommodating extensive memory support of up to 1.5TB, utilizing DDR4 memory modules. Furthermore, the SSE-X24S features advanced thermal management capabilities, ensuring optimal performance even in demanding workloads.

The SSE-G24-TG4 caters specifically to virtualization and enterprise applications. This model boasts dual Intel Xeon processors and GPU support, making it a powerful choice for businesses requiring high computational power for graphics and data-intensive tasks. Enhanced connectivity options, such as LAN ports and USB interfaces, facilitate seamless integration into existing IT infrastructures.

Supermicro's SSE-X3348SR stands out with its robust performance in storage-heavy environments. It comes with 48 drive bays, allowing for massive storage capacity and redundancy options. With support for NVMe drives, this model provides lightning-fast data access speeds, making it perfect for analytics and big data processing. The SSE-X3348SR is further equipped with sophisticated RAID controllers, enhancing data reliability and security.

The SSE-G48-TG4 focuses on performance scalability, featuring an innovative design that supports multiple configurations, including high-density networking tasks. It supports Intel's latest technologies, including Optane memory, ensuring rapid data retrieval and optimized workload management. Enhanced networking capabilities, including multiple 10G Ethernet ports, make this model particularly suitable for high-throughput applications.

Lastly, the SSE-X24SR offers a blend of efficiency and performance, with a focus on mission-critical applications. With advanced power management features, the SSE-X24SR ensures energy efficiency while delivering the necessary processing power. The model is equipped with advanced security features, safeguarding sensitive data and protecting against potential threats.

In summary, Supermicro's SSE lineup, including the SSE-X24S, SSE-G24-TG4, SSE-X3348SR, SSE-G48-TG4, and SSE-X24SR, is crafted to provide unparalleled performance, scalability, and efficiency across diverse workloads, making them ideal choices for businesses looking to enhance their computing infrastructure.