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Understanding the Core Slot to Mgmt Interface Module Connection

Each Core slot in the chassis (refer to “The Core Slot” on page 18) is connected to 1 port on the Management Interface module. The controller (fabric interface module inserted in the core slot) selects the Management Interface module to which it will connect.

The pairing of Management Interface module to core slot is as follows:

The Management Interface module in slot #15 is connected to the Fabric Controller Module in the Core slot #11.

The Management Interface module in slot #16 is connected to the Fabric Controller Module in the Core slot #12.

For example, removing the Fabric Controller from the Core slot 11 would cause both the Fabric

Controller card and its paired Management Interface module in slot 15 to fail-over. The new primary

Controller would be slot 12 and the primary Management Interface would be slot 16.

Fabric Controller Modules

See Figure 1-2 on page 14 for a diagram of the chassis.

Refer to “Installing a Fabric Controller” on page 44 for Fabric Controller module installation instructions.

The Topspin 270 contains six fabric control modules.

The fabric controller modules perform the following roles within the system:

System Controller

Switch fabric spine

Switch fabric end-nodes

Stores redundant Vital Product Data (VPD) from the Chassis ID module. This allows the chassis to continue functioning (and the VPD information to be recovered) even if a Chassis ID module fails.

Each Fabric Controller module runs the management software and contains non-volatile storage.

The behavior and responsibility of each fabric controller module is determined by the type of slot into which it is inserted. Each fabric controller module can be installed in either a Node slot or a Core slot (refer to “Node and Core Slots” on page 18).

Master/Slave and Standby Roles

When the CPU of a fabric module detects that is in a Core slot, it will arbitrate for system mastership and run system wide control functions in addition to its local management functions.

One fabric controller in the Core slot acts as the Master

One fabric controller in the Core slot acts as the Standby to the Master

Fabric controllers in Node slots act as slaves

Note: Fabric controllers in Node slots do not act in active/standby configuration

Node and Core Slots

The fabric controller modules can occupy either a Node slot or a Core slot in the chassis.

The Node Slot

There are four Node slots in the Topspin 270.

Fabric modules installed in Node slots provide fabric leaf switching, as opposed to controller functionality.

The Core Slot

There are two Core slots in the Topspin 270.

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Cisco Systems SFS 7008 manual Fabric Controller Modules, Node and Core Slots, Master/Slave and Standby Roles, Node Slot

SFS 7008 specifications

The Cisco Systems SFS 7008 is a powerful storage solution designed to address the diverse and demanding needs of modern data environments. As organizations continue to generate and store vast amounts of data, the SFS 7008 delivers robust performance and scalability, making it a key player in high-performance computing (HPC) and enterprise data centers.

One of the main features of the SFS 7008 is its exceptional scalability. It supports a broad range of storage capacities, allowing organizations to easily expand their storage as their data requirements grow. This scalability ensures that businesses can adapt to changing workloads without significant disruption or the need for a costly overhaul of their storage infrastructure.

The SFS 7008 utilizes advanced technologies to optimize performance and efficiency. It employs a high-speed interconnect architecture that enables faster data transfer rates across multiple nodes. This feature is particularly beneficial for applications that require rapid access to large datasets, such as big data analytics and machine learning workloads. Moreover, the system supports multiple data protocols, including NFS, SMB, and iSCSI, making it versatile enough to handle various types of applications in diverse environments.

Another notable characteristic of the SFS 7008 is its data management capabilities. It features built-in tools that facilitate data replication, snapshotting, and backup, ensuring that organizations can maintain data integrity and availability at all times. These tools are essential for disaster recovery and provide peace of mind for businesses that rely on critical data for their operations.

Furthermore, the SFS 7008 is designed with security in mind. The system incorporates advanced security features that protect sensitive data from unauthorized access and breaches. These include encryption options and comprehensive access control mechanisms, allowing administrators to implement strict governance policies for data usage.

In summary, the Cisco Systems SFS 7008 stands out as a leading storage solution with its scalability, performance optimization, versatile protocol support, robust data management features, and enhanced security measures. As businesses continue to navigate the complexities of data management in today’s digital landscape, the SFS 7008 provides a reliable foundation for their storage needs, enabling them to harness the full potential of their data. This makes it an ideal choice for organizations seeking a future-proof storage solution.