Sun Microsystems 820-6799-10, MDS 9000 manual

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Cisco MDS 9000 Family 24-Port 8-Gbps Fibre Channel Switching Module

The 24-port module has the following specifications:

24 8-Gbps ports supporting 4-Gbps SFPs and 8-Gbps SFPs

192 Gbps of full-duplex bandwidth

Installable only in a Cisco MDS 9500 Series Multilayer Director

Note – The Cisco MDS 9513 Multilayer Director requires the MDS 9513 Fabric 2 Modules to support the Cisco MDS 9000 Family 24-Port 8-Gbps Fibre Channel Switching Module. The MDS 9513 Fabric 2 Modules allow the Cisco MDS 9000 Family 24-Port 8-Gbps Fibre Channel Switching Module to achieve maximum bandwidth.

Cisco MDS 9000 Family 48-Port 8-Gbps Fibre Channel Switching Module

The 48-port module has the following specifications:

48 8-Gbps ports supporting 4-Gbps SFPs and 8-Gbps SFPs

192 Gbps of full-duplex bandwidth

Installable only in a Cisco MDS 9500 Series Multilayer Director

Note – The Cisco MDS 9513 Multilayer Director requires the MDS 9513 Fabric 2 Modules to support the Cisco MDS 9000 Family 48-Port 8-Gbps Fibre Channel Switching Module. The MDS 9513 Fabric 2 Modules allow the Cisco MDS 9000 Family 48-Port 8-Gbps Fibre Channel Switching Module to achieve maximum bandwidth.

Cisco MDS 9000 Family 8-Gbps Fibre Channel Switching Modules Hardware Release Notes

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Contents For Installation in a Sun Storage Area Network Please Recycle Page Port Configurations FeaturesPage Patch IDs for Cisco MDS 9000 NX-OS Software Firmware RequirementsVerify you have retrieved the correct patch Print Downloading and Installing PatchesRelated Documentation Service Contact Information

MDS 9000, 820-6799-10 specifications

Sun Microsystems was a powerful player in the computing industry, and its MDS 9000 series is a notable example of their innovative design and technology. The model 820-6799-10, part of this series, is particularly recognized for its blend of performance and functionality, making it suitable for a variety of computing environments, from enterprise data centers to scientific research facilities.

The MDS 9000 series is equipped with advanced architecture designed to handle complex data-intensive workloads. One of its main features is the ability to support a wide range of interconnect technologies. This makes it capable of scaling out performance as needs grow, thus ensuring longevity and adaptability in a rapidly evolving technological landscape.

A standout characteristic of the MDS 9000 is its architecture based around high-speed data transfer and robust input/output processing. This is essential for applications that require real-time processing and large data throughput. The system utilizes a modular design that allows for flexibility in configuration, making it easier for organizations to customize the setup based on specific operational requirements.

In terms of storage management, the MDS 9000 incorporates advanced RAID capabilities that ensure data redundancy and integrity, which are critical for enterprise applications. Additionally, the system supports a wide range of storage protocols, further enhancing its versatility and ease of integration into existing environments.

Networking capabilities in the MDS 9000 are also noteworthy. The model supports various network protocols and can seamlessly integrate with existing infrastructures, making it an ideal choice for organizations looking to enhance their connectivity without overhauling their current systems.

Moreover, the MDS 9000 series is designed with a focus on energy efficiency and thermal management. This ensures reduced operational costs and a smaller carbon footprint, aligning with the increasing demand for sustainable technology solutions.

Overall, the Sun Microsystems 820-6799-10 MDS 9000 embodies a combination of cutting-edge features, robust technology, and practical characteristics. This makes it a reliable choice for organizations seeking efficient, scalable, and high-performance computing solutions. Its legacy continues to influence modern designs and architectures in the computing industry, highlighting Sun Microsystems' pivotal role in shaping technology as we know it today.