• Cisco UCS 6100 Series Fabric Interconnects comprise a family of line-rate, low-latency, lossless, 10-Gbps Ethernet interconnect switches that consolidate I/O within the system. Both 20-port one-rack-unit (1RU) and 40-port 2RU versions accommodate expansion modules that provide Fibre Channel and 10 Gigabit Ethernet connectivity.
• Cisco UCS 5100 Series Blade Server Chassis support up to eight blade servers and up to two fabric extenders in a 6RU enclosure without the need for additional management modules.
• Cisco UCS 2100 Series Fabric Extenders bring unified fabric into the blade-serv¬er chassis, providing up to four 10-Gbps connections each between blade servers and the fabric interconnect, simplifying diagnostics, cabling, and management.
• Cisco UCS B-Series Blade Servers, based on Intel Xeon 5500, 5600 and 7500 series processors, adapt to application demands, intelligently scale energy use, and offer best-in-class virtualization. Cisco's unique memory-expansion technology substantially increases the memory footprint, improving performance and capacity for demanding virtualization and large-data-set workloads. In addition, the technol¬ogy offers a more cost-effective memory footprint for less-demanding workloads.
• Cisco UCS C-Series Rack-Mount Servers based on Intel Xeon 5500, 5600 and 7500 series processors, extend unified computing innovations to an industry-stan¬dard form factor. Designed to operate both in standalone environments and as part of the Cisco Unified Computing System, the series incorporates standards-based unified network fabric, Cisco VN-Link virtualization support, and Cisco Extended Memory Technology. It supports an incremental deployment model with an easy migration path to unified computing.
• Cisco UCS network adapters offer a range of options to meet application require¬ments, including adapters optimized for virtualization, converged network adapters (CNAs) for access to unified fabric and compatibility with existing driver stacks, Fibre Channel host bus adapters (HBAs), and efficient, high-performance Ethernet adapters.
• Cisco UCS Manager provides centralized management capabilities, creates a unified management domain, and serves as the central nervous system of the Cisco Unified Computing System.
Each of the Cisco Unified Computing System business benefits is supported by a rich set of technical innovations that contribute to this first implementation of the Cisco® unified computing vision.
• Embedded system management:
Management is uniquely integrated into all the components of the system, enabling the entire solution to be managed as a single entity through Cisco UCS Manager. Cisco UCS Manager provides an intuitive GUI, a command-line interface (CLI), and a robust API to manage all system configura¬tion and operations. Cisco UCS Manager enables IT managers of storage, network¬ing, and servers to collaborate easily on defining service profiles for applications while preserving subject matter expertise and roles.
• Just-in-time provisioning with service profiles:
Cisco UCS Manager imple¬ments role- and policy-based management using service profiles and templates. Infrastructure policies—such as power and cooling, security, identity, hardware health, and Ethernet and storage networking—needed to deploy applications are encapsulated in the service profile. This construct improves IT productivity and business agility. Now infrastructure can be provisioned in minutes instead of days, shifting IT’s focus from maintenance to strategic initiatives.
• Unified fabric:
Cisco’s unified fabric technology reduces cost by eliminating the need for multiple sets of adapters, cables, and switches for LANs, SANs, and high-performance computing networks. The system’s fabric extenders pass all network traffic to parent fabric interconnects, where it can be processed and managed centrally, improving performance and reducing points of management. The unified fabric is a low-latency lossless 10-Gbps Ethernet foundation that enables a “wire-once” deployment model in which changing I/O configurations no longer means installing adapters and recabling racks and switches.
• VN-Link virtualization support:
Cisco VN-Link technology extends the network to the virtual machine. This enables a consistent operational model, whether networks are connected to physical servers or virtual machines. Now all links can be cen¬trally configured and managed without introducing additional switching layers into virtualized environments. I/O configurations and network policies move with virtual machines, helping increase security and efficiency while reducing complexity.
• Cisco Extended Memory Technology:
This Cisco technology provides twice as much memory (384 GB) as traditional two-socket servers, increasing perfor¬mance and capacity for demanding virtualization and large-data-set workloads. Alternatively, this technology offers a more cost-effective memory footprint for less-demanding workloads. Cisco also offers up to 512 GB of Samsung 40 nm class DDR3, high-efficiency memory in a four-socket rack-mount server, expanding the scope of Cisco UCS to a broader range of applications.
• State-of-the-art performance:
Intel® Xeon® 5500, 5600 and 7500 series processors automatically and intelligently adjust server performance according to application needs, increasing performance when needed and achieving substantial energy savings when not. Performance and power settings can also be manually configured.
• Energy efficiency:
The system is designed for energy efficiency. Power supplies are 92 percent efficient, and the Intel Xeon 5500, 5600 and 7500 series processors use automated low-power states to better match power consumption with workloads. The simplified design of the Cisco UCS B-Series Blade Servers improves airflow efficiency and can reduce the number of components that need to be powered and cooled by more than 50 percent compared to traditional blade server environments; similar component reduction can be achieved with the Cisco UCS C-Series Rack-Mount Servers. In addition, the Samsung 40 nm class DDR3, high-efficiency memory now offers even greater energy efficiency.