Cisco Cisco UCS C24 M3 Rack Server 데이터 시트
© 2012 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public.
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Data Sheet
Cisco Unified Computing System C-Series Rack
Server for SAP HANA
Introduction
SAP HANA
The SAP High-Performance Analytic Appliance (HANA) is a new non-intrusive hardware and software solution that
provides real-time access for SAP business applications and integration of analytics into business processes
based on an innovative in-memory computing architecture. This in-memory technology enables the processing
of massive quantities of real-time data in the main memory of a server to provide immediate results from analysis
and transactions.
provides real-time access for SAP business applications and integration of analytics into business processes
based on an innovative in-memory computing architecture. This in-memory technology enables the processing
of massive quantities of real-time data in the main memory of a server to provide immediate results from analysis
and transactions.
Cisco has developed a full portfolio of SAP HANA solutions based on the Cisco Unified Computing System
™
(Cisco UCS
®
). The portfolio ranges from small-scale solutions supporting 128 GB of memory to large-scale
solutions supporting up to 8 terabytes (TB) of usable memory with 16 nodes, validated as of March 2012.
Depending on the compression factors, validated Cisco
Depending on the compression factors, validated Cisco
®
appliance solutions can support databases of up to
56 TB. With a single Cisco UCS platform, a SAP HANA appliance can be scaled to 48 computing nodes, with
24 TB of memory or 192 TB of uncompressed data (validated on request).
24 TB of memory or 192 TB of uncompressed data (validated on request).
Cisco Unified Computing System
Cisco UCS consists of a set of preintegrated data center components, including blade servers, adapters, fabric
interconnects, and extenders, that are integrated under a common embedded management system. This approach
results in far fewer system components and much better manageability, operation efficiency, and flexibility than
comparable data center platforms.
interconnects, and extenders, that are integrated under a common embedded management system. This approach
results in far fewer system components and much better manageability, operation efficiency, and flexibility than
comparable data center platforms.
Cisco UCS is designed from the foundation to be programmable and self-integrating. A server’s entire hardware
stack, ranging from server firmware and settings to network profiles, is configured through model-based
management. With Cisco virtual interface cards, even the number and type of I/O interfaces is programmed
dynamically, making every server ready to power any workload at any time.
stack, ranging from server firmware and settings to network profiles, is configured through model-based
management. With Cisco virtual interface cards, even the number and type of I/O interfaces is programmed
dynamically, making every server ready to power any workload at any time.
With model-based management, administrators manipulate a model of a desired system configuration and
associate a model’s service profile with hardware resources, and the system configures itself to match the model.
This automation accelerates provisioning and workload migration with accurate and rapid scalability. The result is
increased IT staff productivity, improved compliance, and reduced risk of failure due to inconsistent configurations.
associate a model’s service profile with hardware resources, and the system configures itself to match the model.
This automation accelerates provisioning and workload migration with accurate and rapid scalability. The result is
increased IT staff productivity, improved compliance, and reduced risk of failure due to inconsistent configurations.
Cisco Fabric Extender Technology (FEX Technology) reduces the number of system components that need to be
purchased, configured, managed, and maintained by condensing three network layers into one. It eliminates both
blade server and hypervisor-based switches by connecting fabric interconnect ports directly to individual blade
servers and virtual machines. Virtual networks are now managed exactly like physical networks, but with massive
scalability. This approach represents a radical simplification compared to traditional systems, reducing capital
expenditures (CapEx) and operating expenses (OpEx) while increasing business agility, simplifying and
accelerating deployment, and improving performance.
purchased, configured, managed, and maintained by condensing three network layers into one. It eliminates both
blade server and hypervisor-based switches by connecting fabric interconnect ports directly to individual blade
servers and virtual machines. Virtual networks are now managed exactly like physical networks, but with massive
scalability. This approach represents a radical simplification compared to traditional systems, reducing capital
expenditures (CapEx) and operating expenses (OpEx) while increasing business agility, simplifying and
accelerating deployment, and improving performance.