UCS系统部署技术手册 UCS Cisco

Data SheetCisco UCS B200 M4 Blade ServerProduct OverviewThe Cisco Unified Computing System ™ (Cisco UCS ®) combines Cisco UCS B-Series Blade Servers and C-SeriesRack Servers with networking and storage access into a single converged system with simplified managemen t,greater cost efficiency and agility, and increased visibility and control. One of the newest servers in the Cisco UCSportfolio is the Cisco UCS B200 M4 Blade Server.The UCS B200 M4 Blade Server (Figure 1) delivers performance, flexibility and optimiza tion for data centers andremote sites. This enterprise-class server offers market-leading performance, versatility, and density withoutcompromise for workloads ranging from web infrastructure to distributed databases. The Cisco UCS B200 M4server can quickly deploy stateless physical and virtual workloads, with the programmable ease of use of theCisco UCS Manager software and simplified server access with Cisco ®SingleConnect technology. Based on theIntel ® Xeon ® processor E5-2600 v4 and v3 product family, it offers up to 1.5 TB of total memory when using 64 GBDIMMs, up to two drives, and up to 80 Gbps I/O throughput. The Cisco UCS B200 M4 offers exceptional levels ofperformance, flexibility, and I/O throughput to run your most demanding applications.In addition, Cisco UCS has the architectural advantage of not having to power and cool excess switches, NICs andHBAs in each blade server chassis. Having a larger power budget per blade server provides uncompromisedexpandability and capabilities, as in the new Cisco UCS B200 M4 server with its leading memory-slot and drivecapacity.Figure 1.Cisco UCS B200 M4 Blade ServerCisco UCS B200 M4 OverviewThe Cisco UCS B200 M4 provides:●Up to two multicore Intel Xeon processor E5-2600 v4 and v3 series CPUs for up to 44 processing cores. ● 24 DIMM slots for industry-standard DDR4 memory at speeds up to 2400 MHz and it offers up to 1.5 TB oftotal memory when using 64 GB DIMMs.● Two optional, hot-plug, SAS and SATA hard disk drives (HDDs) or solid-state drives (SSDs).●Cisco UCS Virtual Interface Card (VIC) 1340: a 2-port, 40 Gigabit Ethernet, Fibre Channel over Ethernet(FCoE)-capable modular LAN on motherboard (mLOM) mezzanine adapter. ◦ 2x ports - 40 Gbps Unified I/O portsor2 sets of 4 x 10-Gbps unified I/O ports◦ Delivers 80 Gbps to the server◦ Adapts to either 10 Gbps or 40 Gbps fabric connections●Cisco FlexStorage local drive storage subsystem provides flexible boot and local storage capabilities. Itallows you to:◦Support for optional NVIDIA M6 GPU◦Configure the Cisco UCS B200 M4 to meet your local storage requirements without having to buy,power and cool components that you do not need.◦Choose an enterprise-class RAID controller, or go without any controller or drive bays if not utilizing local drives◦Easily add, change, or remove Cisco FlexStorage modules●The Cisco UCS B200 M4 server is a half-width blade. Up to eight can reside in the 6-rack-unit (6RU) CiscoUCS 5108 Blade Server Chassis, offering one of the highest densities of servers per rack unit of bladechassis in the industry.OverviewThe Cisco UCS B200 M4 server is suited for a broad spectrum of IT workloads, including:●IT and web infrastructure●Virtualized workloads●Consolidating applications●Virtual desktops●Middleware●ERP and CRM applications●Single-instance and distributed databasesThe Cisco UCS B200 M4 Blade Server is one member of the Cisco UCS B-Series Blade Servers platform.As part of Cisco UCS, Cisco UCS B-Series servers incorporate many innovative Cisco technologies to help customers handle their most challenging workloads. Cisco UCS B-Series servers within a Cisco UCSmanagement framework incorporate a standards-based unified network fabric, Cisco Data Center VM-FEX virtualization support, Cisco UCS Manager, Cisco UCS Central, Cisco UCS Director software, and Cisco fabric extender architecture (Figure 2)Figure 2. Cisco UCS Server Innovations Change the E conomics of the Data Center by E nabling Customer Workloads to Benefit from Cisco UCS Simplification and Operational E fficienciesFeatures and Benefits of the Cisco UCS B200 M4 ServerTable 1 lists the main features and benefits of the Cisco UCS B200 M4.Table 1. Main Features and BenefitsSpecificationsTable 2 provides specifications for the Cisco UCS B200 M4. Table 2. P roduct SpecificationsTable 3. Regulatory Standards ComplianceWarranty InformationFind warranty information at on the Product Warranties page.Cisco Unified Computing ServicesUsing a unified view of data center res ources, Cisco and our industry-leading partners deliver services that accelerate your transition to a unified computing environment. Cisco Unified Computing Services can help you create an agile infrastructure that accelerates time to value, reduces costs and risks, and maintains availability during deployment and migration. After deployment, our services can help you improve performance, availability, and resiliency as your business needs evolve, and mitigate risk further. Quickly deploy your data center r esources and optimize ongoing operations to better meet your business needs. For more information about these and other Cisco Data Center Services offerings, visit /go/unifiedcomputingservices or/go/dcservices.Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital can help you acquire the technology you need to achieve your objective s and stay competitive. We can help you reduce CapEx. Accelerate your growth. Optimize your investment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services, and complementary third-party equipment. And th ere’s just one predictable payment. Cisco Capital is available in more than 100 countries. Learn more.For More InformationFor more information about Cisco UCS B-Series Blade Servers, visit/en/US/products/ps10280/index.html or contact your local Cisco representative.Printed in USA C78-732434-04 11/16。

Data SheetCisco UCS E-Series M1 ServersWith powerful, data center−class servers that are virtualization-ready, you can host business applications and network services right in your branch-office router.Product OverviewCisco UCS® E-Series Servers bring data center-class blade servers to the branch office. These powerful, small-form-factor, x86 64-bit blade servers reside in Cisco® branch-office routers: the Cisco 4000 Series Integrated Services Routers (ISRs) and Cisco Integrated Services Routers Generation 2 (ISR G2) networking platforms. The blades are virtualization-ready and host essential infrastructure services and mission-critical business applications, all while you maintain a lean branch-office environment (Figure 1).Figure 1. Cisco UCS E-Series Servers with Cisco 4351 ISRProduct DetailsCisco UCS E-Series ServersCisco Unified Computing System™ (Cisco UCS) E-Series Servers are available in two form factors: a singlewide module and a doublewide module. The singlewide versions include an Intel Xeon processor and occupy a single service-module slot in the Cisco 4000 Series ISR and Cisco ISR G2 platforms. The doublewide module occupies two service-module slots side-by-side.All the servers are high-density, single-socket blade servers. They balance simplicity, performance, and application density while operating in an energy-efficient environment. The servers deliver next-generation Intel Xeon processor technology in combination with integrated remote lights-out management. They support multiple cores and threads in a reduced-power envelope, providing improved performance and better energy efficiency than preceding models.They thus provide an excellent platform for introducing virtualization into the branch office and supporting mission-critical business applications. The innovative, zero-footprint form factor of the Cisco UCS E-Series Servers in conjunction with the lower total cost of ownership (TCO) of the Intel Xeon processor increases business agility and enhances reliability when compared to standalone rack-mount and tower servers.Table 1 lists the top-level part numbers for the E-Series servers.Table 1. Cisco UCS E-Series ServersPictureApplications for Cisco UCS E-Series ServersCisco UCS E-Series Servers provide excellent performance and value for these and other types of workloads:●Network applications: Cisco Virtual Wide Area Application Services (vWAAS), Cisco Virtual Wireless LANController (vWLC), Cisco Unity® Connection, Cisco ISR with FirePOWER™ Services, Cisco EnergyManagement, and other Cisco applications●Mission-critical business applications: Point-of-sale (POS) systems, bank teller in-office control points(IOCPs), electronic-medical-record (EMR) systems, inventory management systems, and cloud connectors●Core Microsoft Windows services: Microsoft Active Directory Domain Services (AD DS), Microsoft Windowsprint services, Dynamic Host Configuration Protocol (DHCP) server services, Domain Name System (DNS) server services, and file services●Client-management services: Configuration and operations management, monitoring services, update andpatching services, backup and recovery services, and terminal server gatewaysFeatures and BenefitsThe Cisco UCS E-Series Servers easily extend the Cisco UCS data center portfolio to branch-office environments. By adding virtualization to the servers, you can deploy new services incrementally on a schedule that best meets your timing and budget. Meanwhile, you avoid service-call costs for onsite visits to deploy new hardware or software.Cisco UCS E-Series Servers address your changing business needs in the following ways:●Reduced operational burden: Through a consolidated, wire-free infrastructure, Cisco UCS E-Series Serversmake the addition of new services and infrastructure quick and easy.●Simplified system maintenance: Cisco UCS E-Series Servers ease physical server provisioning and systemmaintenance.●Enhanced server management: Built-in lights-out server management through the Cisco IntegratedManagement Controller (IMC) runs on the same dedicated baseboard management controller hardware found in all Cisco UCS products. This feature provides standalone management consistency with Cisco UCS C-Series Rack Servers for both local and remote server monitoring and configuration management.●Stronger physical security: The blades require no external network cables or physical keyboard, video, ormouse (KVM). They can therefore be easily secured in a wiring closet or other secure location withoutcompromising manageability, a situation that is difficult to achieve with traditional tower and rack-mountservers.●Small footprint: Cisco UCS E-Series Servers include multicore x86 64-bit Intel Xeon processors. You canreduce your branch-office server footprint by incorporating high-performance, power-optimized bladeservers directly into Cisco ISR G2 and 4000 Series branch-office routers. All are integrated and housed in a single Cisco ISR chassis, delivering an excellent all-in-one platform for the lean branch office.Platform Support and CompatibilityCisco UCS E-Series Servers are designed to support multiple bare-metal operating systems and hypervisors, including:●Operating systems◦Microsoft Windows Server◦Windows Server 2008 64-bit◦Windows Server 2008 R2 64-bit◦Windows Server 2012 64-bit◦Windows Server 2012 R2 64-bit◦Red Hat Enterprise Linux (RHEL) Release 6.2 and later◦SuSE Linux 11, Service Pack 2 and later◦Oracle Enterprise Linux 6.0, Update 2 and later●Hypervisors◦Microsoft Hyper-V 2008 R2, 2012, and 2012 R2◦VMware vSphere 5.0, Update 1, and Releases 5.1, 5.5, 6.0◦Citrix XenServer Release 6.0 and laterProduct SpecificationsTable 2 lists the specifications and Table 3 lists Cisco ISR support for the Cisco UCS E-Series M1 servers. Table 4 lists safety and EMC regulatory standards compliance information.Table 2. Product Specifications for Single and Doublewide M1 ServersTable 3. Cisco ISR G2 and 4000 Series ISRs Support for Cisco UCS E-SeriesTable 4. Regulatory Standards Compliance: Safety and EMCSystem Requirements●For Cisco UCS E-Series Servers, Cisco IOS® Software Release 15.2(4)M is required for Cisco 2900 and3900 Series ISR models.●For Cisco UCS E-Series Servers, Cisco IOS XE Software Release 3.13 is required for the Cisco 4000Series ISR platform.Warranty InformationCisco UCS-E Series Servers are covered by a 90-day warranty. Find warranty information on on the Product Warranties page.Ordering InformationTable 1 contains the top-level part numbers for the Cisco UCS E-Series modules. Review the ordering guide for the complete list of part numbers and ordering examples.To place an order, visit the Cisco Ordering homepage. To download software, visit the Cisco Software Center.Cisco ServicesCisco UCS E-Series Servers hardware support is covered by the Cisco Smart Net Total Care™ contract for the router in which the module resides. Cisco Smart Net Total Care support is available on a one-time or annual contract basis. Support options range from help-desk assistance to proactive, onsite consultation.All support contracts include:●Major Cisco IOS Software updates for protocol, security, bandwidth, and feature improvements●Full access rights to technical libraries for technical assistance, electronic commerce, andproduct information●Access to the industry’s largest dedicated technical support staff 24 hours a dayFor more information about Cisco services, refer to Cisco Technical Support Services or Cisco Advanced Services.Cisco and Partner Services for the Branch OfficeServices from Cisco and our certified partners can help you transform the branch-office experience and accelerate business innovation and growth. Cisco has the depth and breadth of expertise to create a clear, replicable, optimized branch-office footprint across technologies. Planning and design services align technology with business goals and can increase the accuracy, speed, and efficiency of deployment. Technical services help improve operation efficiency, save money, and mitigate risk. Optimization services are designed to continuously improve performance and help your team succeed with new technologies. For more information, please visit/go/services.Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital® can help you acquire the technology you need to achieve your objectives and stay competitive. We can help you reduce CapEx. Accelerate your growth. Optimize your investment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services, and complementary third-party equipment. And there’s just one predicta ble payment. Cisco Capital is available in more than 100 countries. Learn more.For More InformationFor more information about Cisco UCS E-Series Servers, visit /go/ucse/ or contact your local Cisco account representative.。

思科UCSM VM-FEX安装配置手册Cisco UCS针对虚拟化环境的网络管理提供了两种解决方案：一种是纯软件的Cisco Nexus 1000V；一种是基于Cisco UCS VIC (Virtual Interface Card)网卡的硬件解决方案。

Cisco Nexus 1000V是唯一的第三方分布式虚拟交换机，同样实现了交换机的数据功能和控制功能的分离。

基于硬件的解决方案服务器需要配置Cisco UCS VIC卡。

这块卡的虚拟化功能非常强大。

本文简要介绍一下Cisco UCS基于硬件的虚拟化网络管理解决方案的配置过程。

配置动态UCS vNIC登录到UCS Manager，进入服务器配置管理选项卡，选择某个Service Profile的vNIC配置，如图1所示，在Actions中选择“Change Dynamic vNIC Connection Policy”。

图1. 在UCSM中更改动态vNIC连接策略如图2所示，在弹出的“Change Dynamic vNIC Connection Policy”对话框中设置Dynamic vNIC的数量为53并选择适配器策略为VMwarePassThru。

图2. 设置动态vNIC数量以及适配器策略需要说明的是，每片UCS 刀片服务器的Cisco UCS VIC网卡能够虚拟的网卡和HBA卡数量总和为：vHBAs+vNICs+Dynamic vNICs=（15*n）-2 ，其中n为上联链路数量。

在我们的实验环境中，有4条上联链路，虚拟的vHBA卡为2块，vNIC为3块，所以能够虚拟的Dynamic vNIC数量为15*4-2-2-3=53。

利用Cisco UCS VIC网卡创建的vHBA、vNIC如图3所示。

图3. 在UCSM中创建的vHBA、动态vNIC、静态vNIC信息下表说明了在使用VMware平台时，不同连接情况下Cisco UCS VIC 可以支持的vHBA、动态vNIC、静态vNIC数量。

UCS系统部署技术手册,UCS,Cisco UCS系统部署技术手册UCS,Cisco1.简介1.1 本文档目的1.2 UCS系统概述1.3 UCS系统部署流程概述2.系统规划和设计2.1 硬件规划2.1.1 服务器选型和配置2.1.2 网络设备选型和配置2.2 软件规划2.2.1 UCS Manager版本选择2.2.2 UCS软件部署架构设计2.3 安全性规划2.3.1 访问控制策略2.3.2 安全补丁和固件升级策略3.系统部署3.1 UCS硬件安装和连接3.1.1 服务器安装和连接3.1.2 网络设备安装和连接3.2 UCS Manager安装和配置3.2.1 UCS Manager HA部署3.2.2 UCS Manager初始化配置3.3 物理主机操作系统安装和配置3.3.1 操作系统选择和准备3.3.2 操作系统安装和配置3.4 虚拟机管理平台安装和配置3.4.1 VMware vCenter安装和配置3.4.2 Microsoft Hyper-V安装和配置4.系统集成和测试4.1 物理主机与UCS系统集成4.1.1 物理主机添加到UCS系统4.1.2 物理主机配置样板创建 4.2 虚拟机创建和部署4.2.1 虚拟机网络配置4.2.2 虚拟机存储配置4.3 高可用性测试4.3.1 服务器故障模拟测试 4.3.2 网络故障模拟测试4.4 性能测试4.4.1 虚拟机性能评估4.4.2 网络和存储性能评估5.系统管理和维护5.1 用户管理5.1.1 用户角色权限配置5.1.2 用户访问控制5.2 设备管理5.2.1 设备固件升级5.2.2 硬件故障检测和替换5.3 系统监控和告警5.3.1 系统性能监控5.3.2 日志收集和分析5.4 故障排除和维修5.4.1 常见故障排查方法5.4.2 维修流程和注意事项6.附件- 附件1、UCS硬件选型手册- 附件3、操作系统安装指南- 附件4、虚拟机管理平台安装指南法律名词及注释：- 版权：指对原创的文学、艺术、科技、工程等作品享有的精神财产权。

UCS C210安装windows2003指南一、名词解释UCS即Cisco Unified Computing System，思科的数据存储系统。

二、准备工作1、随设备带的DVD光盘驱动2、Windows2003安装光盘或者IOS镜像3、将UCS的管理网卡连接到有DHCP Server网络4、给UCS连接上显示器、键盘、鼠标三、登录到CIMCCIMC即Cisco Integrated Management Controller (CIMC) utility，是思科UCS的管理界面。

启动服务器后，在显示器上可以看到CIMC信息，如图：在IE浏览器输入在显示器上看到的IP地址，进入登录界面输入账号密码登录，默认账号为admin，默认密码为password。

四、CIMC中的操作CIMC界面如下：在CIMC中我们可以看到UCS型号，Serial Number，Server Status，CPU频率，内存容量，风扇，电源状态等众多信息，我们可以修改UCS的启动顺序，修改管理网卡的IP地址，启动/关闭/软重启/硬重启服务器，登录KVM控制台等众多操作。

五、配置raid1、ctrl + H 进入raid配置界面2、选择配置向导–>新建配置-> 下一步3、自定义配置4、添加磁盘到磁盘组5、确认6、下一步7、添加SPAN8、选择raid 级别，选择磁盘容量。

9、确认raid5 容量10、下一步11、确认12、完成六、登录KVM控制台在登录KVM控制台之前，请先在PC上安装有JRE（java运行环境），然后在CIMC中点击Launch KVM Console，弹出窗口提示该Web站点的证书无法验证，点击“是”继续，如图等待几秒钟后，系统会弹出一个Cisco Virtual KVM Console窗口，在这个窗口下，我们可以像控制自己电脑一样控制UCS，如图：七、虚拟光驱及软驱从Virtual KVM Console窗口我们可以将电脑上的文件、光驱虚拟成UCS的软驱、光驱，不过开始之前应该要先做一个准备工作。

Cisco Unified Computing System（统一计算系统）思科UCS安装部署手册目录目录1概述 (3)编写目的 (3)文档适用人员 (3)实施原则 (3)2网络设计 (5)UCS系统网络设计（可根据实际情况修改） (5)3实施方案设计 (7)控制器设备命名参数表 (7)设备登录信息表 (7)IP地址规划表 (7)硬件配置信息 (8)3.4.1Fabric Interconnect mode信息表 (8)3.4.2Fabric Interconnect port角色信息表 (9)3.4.3设备连接信息表 (11)3.4.4Port Channel信息表 (13)服务配置信息 (13)3.5.1Service profile信息表 (13)3.5.2MAC pool信息表 (14)3.5.3WWNN pool信息表 (15)3.5.4WWPN pool信息表 (15)3.5.5UUID Suffix pool信息表 (15)3.5.6VLAN信息表 (15)策略信息 (16)3.6.1Local Disk (16)3.6.2Boot策略 (16)4实施过程 (18)6248XP初始化 (18)4.1.16248XP接线准备 (18)4.1.26248XP 初始化6248XP-A (18)4.1.36248XP初始化6248XP-B (19)4.1.4登陆UCS Manager (19)刀箱发现 (20)4.2.1配置刀箱发现策略 (20)4.2.2配置存储上联口 (20)4.2.3配置网络上联口 (22)4.2.4配置刀箱下联口 (23)4.2.5刀箱发现状态 (23)刀片管理IP配置 (24)资源池和策略配置 (25)4.4.1UUID Pool (25)4.4.2MAC Pool (28)4.4.3WWNN POOL (29)4.4.4WWPN Pool (31)4.4.5Vlan定义 (34)4.4.6Local Disk Raid策略 (36)4.4.7Boot启动策略 (37)创建Service Profile（根据现场实施画面更改） (39)关联Service Profile到指定的刀片服务器上 (48)刀片服务器的操作系统安装 (51)4.7.1KVM Console (51)4.7.2操作系统安装 (55)4.7.3操作系统驱动安装 (57)1概述编写目的本文的是铁姆肯虚拟化平台UCS部分的项目技术实施的详细描述和规划，撰写本文的目的是在实际实施工作前，将所有实施步骤、方法和各方需完成的任务明确。

UCS 刀片服务器基本配置手册V1.0liuxyn@2011.8.25目录0 UCS测试前准备工作 (1)确认现场是否具备测试环境 (1)电源环境 (1)网络环境 (1)设备拆箱所需工具 (1)检查设备及相关配件 (1)IP地址规划 (1)1 UCS Manager 密码重置 (2)2 UCS Manager删除配置 (6)3 UCS Manger 初始化配置 (8)4 UCS Manager web 管理 (9)5 配置上联口（GLC-T）千兆上联到网络交换机 (12)6配置Server Port (14)7 配置管理IP 使用KVM,Vmedia (15)8 配置Profile 模板 (15)9 根据profile模板生成profile (15)10 profile 关联刀片 (15)11 安装操作系统 (15)12 MDS 9124 系统恢复 (15)13 MDS 9124 初始化配置 (16)0 UCS测试前准备工作确认现场是否具备测试环境电源环境5108 刀片机箱电源线为16A 插头，确认用户现场有16A插口的插线板6120 功率350W左右5108 功率最大功率2500W ，实际功耗取决于刀片多少网络环境6120 接5108刀片机箱最少需要1个万兆口互联6120 上联到网络交换机千兆连接需要GLC-T模块连到网络交换机的千兆电口，或使用一对GLC-SX-MM模块+光纤跳线连到网络交换机的千兆SFP接口6120 上联到SAN交换机需要4Gb的SFP模块和光纤跳线（如果刀片上没有配硬盘、或需要和存储互联做相关测试，需要有MDS9124或其他厂商的SAN交换机）设备拆箱所需工具美工刀、平口螺丝刀、十字螺丝刀、老虎钳检查设备及相关配件电源线（10A/16A）模块(GLC-T或GLC-SX-MM),4Gb FC模块网线、光纤跳线IP地址规划UCS6120 管理口IP地址MDS9124 管理地址存储设备管理地址1刀片KVM管理地址ication OK3038 Mar 30 2011 04:19:33 115468140 Jan 13 2011 03:03:00plugin_file_is_excluded_from_exec_path: /boot/lib/libplugin_sysreg.so is excluded from linking plugin_file_is_excluded_from_exec_path: /boot/etc/ is excluded from linkingplugin_file_is_excluded_from_exec_path: /boot/etc/plugin_exclude.conf is excluded from linking plugin_file_is_excluded_from_exec_path: /boot/ is excluded from linkingplugin_file_is_excluded_from_exec_path: /boot/lib/ is excluded from linkingplugin_file_is_excluded_from_exec_path: /boot/lib/libplugin_sysreg.so.0.0.0 is excluded from linkingplugin_file_is_excluded_from_exec_path: /boot/lib/libplugin_sysreg.so.0 is excluded from linking plugin_file_is_excluded_from_exec_path: /boot/lib/libplugin_sysreg.so is excluded from linking plugin_file_is_excluded_from_exec_path: /boot/etc/ is excluded from linkingplugin_file_is_excluded_from_exec_path: /boot/etc/plugin_exclude.conf is excluded from linking 145680+1 records in145680+1 records outethernet end-host mode on CAFC end-host mode on CAn_port virtualizer mode.---------------------------------------------------------------ln: `/isan/etc/sysmgr.d//fcfwd.conf': File existsethernet end-host modeINIT: Switching to runlevel: 3INIT: Sending processes the TERM signalINIT: (boot)#Exporting directories for NFS kernel daemon...done.Starting NFS kernel daemon:rpc.nfsd.rpc.mountddone.Set name-type for VLAN subsystem. Should be visible in /proc/net/vlan/configAdded VLAN with VID == 4042 to IF -:muxif:----------------------enabled fc feature---------------------2011 Mar 30 04:30:33 %$ VDC-1 %$ %KERN-2-SYSTEM_MSG: Starting kernel... - kernel Executing Port Power On Tests.......System is coming up ... Please wait ...System is coming up ... Please wait ....System is coming up ... Please wait ....System is coming up ... Please wait ....System is coming up ... Please wait ....System is coming up ... Please wait ....System is coming up ... Please wait ...DoneSystem is coming up ... Please wait ...System is coming up ... Please wait ...System is coming up ... Please wait ...System is coming up ... Please wait ...5System is coming up ... Please wait ...2011 Mar 30 04:32:44 %$ VDC-1 %$ %VDC_MGR-2-VDC_ONLINE: vdc 1 has come onlineCisco UCS 6100 Series Fabric InterconnectSwitchi-A-A login: adminPassword:Cisco UCS 6100 Series Fabric InterconnectTAC support: /tacCopyright (c) 2009, Cisco Systems, Inc. All rights reserved.The copyrights to certain works contained herein are owned byother third parties and are used and distributed under license.Some parts of this software may be covered under the GNU PublicLicense or the GNU Lesser General Public License. A copy ofeach such license is available at/licenses/gpl.html and/licenses/lgpl.html2 UCS Manager删除配置清掉UCS配置信息，一切重头开始Cisco UCS 6100 Series Fabric InterconnectSwitchi-A-A login: adminPassword:Cisco UCS 6100 Series Fabric InterconnectTAC support: /tacCopyright (c) 2009, Cisco Systems, Inc. All rights reserved.The copyrights to certain works contained herein are owned byother third parties and are used and distributed under license.Some parts of this software may be covered under the GNU PublicLicense or the GNU Lesser General Public License. A copy ofeach such license is available at/licenses/gpl.html and/licenses/lgpl.html6Switchi-A-A# connect local-mgmtCisco UCS 6100 Series Fabric Interconnect3 UCS MangerPhysical Switch Mgmt0 IP Address=10.192.36.50 Physical Switch Mgmt0 IP Netmask=255.255.255.0批注 [liuxinyu17]: UCSmanager图形界面需要java环境，运行前请装好java115 配置上联口（批注 [liuxinyu18]: 定义与网络交换机互联的接口为uplink口批注 [liuxinyu19]: 接口默认启用的万兆，改为千兆146配置Server Port6-11 请参考《UCS 系统部署技术手册ver6》，《UCS_Vmware 测试模板v07-1》7 配置管理switch(boot)#copy tftp://192.168.1.1/ m9100-s2ek9-mz.4.2.3a.bin bootflash: switch(boot)# dirto skip the remaining dialogs.Would you like to enter the basic configuration dialog (yes/no): yesCreate another login account (yes/no) [n]: nConfigure read-only SNMP community string (yes/no) [n]: nConfigure read-write SNMP community string (yes/no) [n]: ySNMP community string : ciscoEnter the switch name : MDS9124-AContinue with Out-of-band (mgmt0) management configuration? (yes/no) [y]: Y Mgmt0 IPv4 address : 192.168.1.2Mgmt0 IPv4 netmask : 255.255.255.0Configure the default gateway? (yes/no) [y]: yIPv4 address of the default gateway : 192.168.1.254Configure advanced IP options? (yes/no) [n]: nEnable the ssh service? (yes/no) [y]: yType of ssh key you would like to generate (dsa/rsa) [rsa]:Number of rsa key bits <768-2048> [1024]:Enable the telnet service? (yes/no) [n]: yesEnable the http-server? (yes/no) [y]: yConfigure clock? (yes/no) [n]: yClock config format [HH:MM:SS Day Mon YYYY] :Enter clock config :14:20:40 15 August 201117Configure timezone? (yes/no) [n]: yesEnter timezone config :UTC 8Configure summertime? (yes/no) [n]: NConfigure the ntp server? (yes/no) [n]: nConfigure default switchport interface state (shut/noshut) [shut]: noshut Configure default switchport trunk mode (on/off/auto) [on]: Configure default switchport port mode F (yes/no) [n]: YConfigure default zone policy (permit/deny) [deny]: permitEnable full zoneset distribution? (yes/no) [n]: yConfigure default zone mode (basic/enhanced) [basic]:The following configuration will be applied:password strength-checksnmp-server community cisco rwswitchname MDS9124-Ainterface mgmt0ip address 192.168.1.2 255.255.255.0no shutdownip default-gateway 192.168.1.254ssh key rsa 1024 forcefeature sshfeature telnetfeature http-serverclock set 14:20:40 15 August 2011clock timezone UTC 8no system default switchport shutdownsystem default switchport trunk mode onsystem default switchport mode Fsystem default zone default-zone permitsystem default zone distribute fullno system default zone mode enhancedWould you like to edit the configuration? (yes/no) [n]: n18Use this configuration and save it? (yes/no) [y]: yError: There was an error executing at least one of the commands Please verify the following log for the command execution errors. Disabling ssh: as its enabled right now:deleting old rsa key.....generating rsa key(1024 bits)......generated rsa keyEnabling ssh: as it has been disabledMon Aug 15 14:20:40 UTC 2011Syntax error while parsing 'clock timezone UTC 8'Would you like to save the running-config to startup-config? (yes/no) [n]: y [########################################] 100%User Access VerificationMDS9124-A login: adminPassword:Cisco Nexus Operating System (NX-OS) SoftwareTAC support: /tacCopyright (c) 2002-2009, Cisco Systems, Inc. All rights reserved.The copyrights to certain works contained in this software areowned by other third parties and used and distributed underlicense. Certain components of this software are licensed underthe GNU General Public License (GPL) version 2.0 or the GNULesser General Public License (LGPL) Version 2.1. A copy of eachsuch license is available at/licenses/gpl-2.0.php and/licenses/lgpl-2.1.php19。

Capacity planning and system refresh Highlightsoperations are inseparable in data centers.optimum approach ties capacity expansion to the regular server refresh cycle,enabling IT to plan for demand and gain computing power in an intelligent manner.addition, built-in management functions provide exceptional visibility into and control over the entire infrastructureto streamline and coordinate administrative effort and eliminate common errors that delay deployment and disrupt operation.that supports blade and rack-mountservers to deliver scalability andperformance. A unified fabric supportedby a single, distributed virtual switchinterconnects all server resources.Servers and virtual machines areinterconnected equally and consistently,eliminating multiple layers of switching.This radically simplified architecturepacks more computing power intoless space while allowing IT to choosefrom a portfolio of servers to delivermassive computing density andcreates barriers to resource sharing and requires additional dedicated servers standing by to take over work in the event of a failure. Cisco UCS eliminates architectural silos through on-demand provisioning. Any computing resource potentially can be used for any application at any time. The infrastructure is “wire once” with all configuration managed through Cisco UCS Manager, eliminating the physical barriers that used to prevent applications from sharing resources.The intelligent infrastructure providedby Cisco UCS enables the entireconfiguration to be programmedthrough the intuitive Cisco UCSManager GUI and open standard XMLAPI. While other vendors supportthe automatic configuration of a fewparameters, Cisco UCS Managerincludes nearly 100 server identityparameters, eliminating the needfor manual tasks or the creationof scripts or the use of tools andagents that further complicate the ITenvironment. With Cisco UCS Manager,IT organizations can plan capacity on aholistic, data center wide basis, sharinginfrastructure across applications andharnessing it to best meet businesspriorities and service-level agreements(SLAs).Eliminating Networkand Cable Sprawl andComplexityUsing traditional implementations, theconnection of servers and storagesystems to growing numbers of userapplications and services requires extensive networking infrastructure. The resulting dramatically increased connectivity uses massive numbersof cables, creating significant management challenges. Administrators find it difficult to locate ports for new servers, to map and zone connectivity, and to track and locate sourcesof failures. In addition, this cable proliferation and sprawl requires vast numbers of switch ports and switches, which consume power and increase management complexity.Simplified Network Infrastructure Addressing the increasing need for better design and control, Cisco UCS provides greater network density with less cabling and complexity. Cisco’s unified fabric integrates Cisco UCS servers with a single high-bandwidth, low-latency network that supportsall system I/O. This fabric carries IP, storage, and management traffic over redundant 10 Gigabit Ethernet and Fibre Channel over Ethernet (FCoE) networks. This approach simplifies the architecture and reduces the number of I/O interfaces, cables, and access-layer switch ports that are required for traditional platforms. This unification can reduce network complexity by up to a factor of three, and the system’s wire-once network infrastructure increases agility and accelerates deployment with zero-touch configuration.All I/O traffic meets at a single specific and redundant point at which it is efficiently and consistently managed, increasing network security, simplifying management, and reducing errors. This approach eliminates blade-server and hypervisor-resident switching, condensing three network layersinto one and reducing capital andoperating costs. With the capability tointerconnect physical servers and virtualmachines as functional equivalents,the architecture delivers outstandingvisibility and control that lets virtualnetworks be managed with the samelevel of control as physical networks.Simplifying and AcceleratingServer Refresh OperationsThe ad hoc approach to expansionused in many data centers makes itdifficult to refresh and consolidate theenvironment. Cumbersome processesthat are tied to a complicated physicaland virtual infrastructure hamper IT’sability to install and configure newsystems and to rehost virtual serversand applications. Administrators mustperform tedious, repetitive, and time-consuming tasks that are often thesource of errors or result in inconsistentconfigurations or application ofcorporate policies and security. Thesedelays and inconsistencies affectapplication and service redeploymentand keep the IT organization fromsupporting real-time business needsand priorities.Automated Configuration for FastDeploymentCisco UCS simplifies and acceleratesserver refresh operations throughautomated configuration. The intelligentinfrastructure abstracts server identity,personality, and I/O connectivityfrom the hardware, enabling thesecharacteristics to be applied ondemand. Every aspect of a server’sconfiguration, from firmware revisionsand BIOS settings to network profiles,can be assigned through the system’sopen, documented, standards-basedXML API or Cisco UCS Manager GUI.As a result, server configurations canbe replicated easily. A new server canappear to the software stack just likethe old server, making server refreshoperations as simple as applying aCisco service profile and rebooting tolaunch the new system.Service Profiles Support PrestagingCisco service profile templatesestablish policy-based configurationfor server, network, and storageresources and can be used to logicallypreconfigure these resources evenbefore they are deployed in the datacenter. By preparing service profiles inadvance, administrators can prestageIP addresses and storage world-widenames (WWNs) and attach mappingsto components. In addition, CiscoUCS blade server slots can be set toautomatically configure blade serversupon insertion with network andstorage settings that are in compliancewith the policies established byappropriate data center administrators.Configuration also can be performed asa manual process as needed, with fullserver identity parameter control andintegration with network and storageresources.Making Virtualization MoreEffectiveAs data centers reach the limits oftheir physical capacity, virtualizationstrategies to consolidate workloadsonto fewer resources can be importantaids. Yet the virtualization effortsdeployed by many data centers haveresulted in new challenges. The useof blade server chassis-resident networks and hypervisor-resident software switches creates a complex set of switching layers that makes managing, debugging, and securing virtual networks difficult. Server sprawl continues unabated, with a proliferation of physical servers added to the environment to support a vast arrayof virtual machines, delivering ever-increasing numbers of applications and services. With a patchworkof technologies in place, physicaland virtual systems are deployed, connected, and managed in many different ways, further complicating infrastructure administration and management.More Virtualization at Less Cost Cisco UCS enables IT organizations to meet ever-increasing guest operating system memory footprint demands on fewer physical servers. The system’s high density, high-performance design,including Cisco Extended MemoryTechnology, increases consolidationratios for 2-socket servers, saving thecapital, operating, physical space, andlicensing costs of running virtualizationsoftware on larger, 4-socket servers.With support for up to 1 terabyte(TB) of high-speed memory in a2-socket server, organizations canhost applications using less-expensiveservers without sacrificing performance.As a result, IT organizations can putmore virtual machines on each server,reducing physical server sprawl andbreaking down management silos.Greater Visibility and ControlIT organizations need to simplifyphysical infrastructure to break downsilos and make the data center moreeffective. They also need to improvetheir virtual infrastructure so that it canbe managed just as simply and easilyas it scales. Traditional virtualizedenvironments require the use ofsoftware-based switches that reside inthe hypervisor. The insertion of a newswitch can cause a loss of visibility fromthe physical network interface to virtualmachines. The result is a network ofvirtual machines with connection pointsthat cannot be seen. If connectionscannot be seen, they cannot bemanaged or secured.Cisco UCS uses virtualization-optimizednetworking that makes managingvirtual machine networks equivalentto managing physical networks.Cisco FEX Technology architectureextends the visibility of network andstorage access all the way to individualvirtual machines, without hypervisorintervention. These connectionsterminate in the fabric interconnects asvirtual ports that are managed exactlythe same way as physical ports. VirtualDistributed Virtual Blade Chassis+=+Servers Fabric Interconnects Fabric ExtendersFigure 2. Cisco UCS Combines Blade and Rack Servers, Networking, and Storage Resources in a Distributed, Virtual Blade Chassis with a Single, Redundant Point of Connectivity and ManagementAmericas Headquarters Cisco Systems, Inc. San Jose, CA Asia Pacific Headquarters Cisco Systems (USA) Pte. Ltd. Singapore Europe HeadquartersCisco Systems International BV Amsterdam, The NetherlandsCisco has more than 200 offices worldwide. Addresses, phone numbers, and fax numbers are listed on the Cisco Website at /go/offices .Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and/or its affiliates in the U.S. and other countries. To view a list of Cisco trademarks, go to this network interface cards (vNICs) are attached to virtual machines, and their network profiles remain constant and attached, even when virtual machines are moved from one physical server to a different server, enhancing mobility and security. Workloads can bemigrated between physical devices, optimizing performance and maintaining security protocols and policies, without requiring intervention by the network team to reset quality of service (QoS) and security for each migrated virtual machine.The Cisco UCS design results in a distributed, virtual blade chassis that combines the performance and management of physical networks with the scalability of virtual networks. Administrators can use familiar management models on virtualmachines and take advantage of built-in automation and intelligence to gain outstanding visibility into, and control over, virtualized environments. Forexample, bandwidth can be flexibly and dynamically managed with a QoS policy to help guarantee bandwidth for priority workloads running in virtual machines, while also helping ensure that overall bandwidth is used efficiently and not wasted (Figure 2).More Capacity and Reduced ComplexityData center infrastructure management has become a complicated challenge. The proliferation of management points and the physical devices to which they are connected has resulted in a new kind of sprawl that must be contained. Typically, administrators have to use a variety of element managers to interact with dozens of management touch points that are distributedacross multiple servers, blade chassis, racks, networking, and storageresources. Unfortunately, most vendors attempt to solve this management challenge by introducing additional layers of management tools that are patched together into an accidental architecture that creates more work for administrators.Less Complex and Easier to Manage The unified infrastructure andarchitecture-by-design approach of Cisco UCS delivers the scalability needed to perform capacity planning and refresh activities without the complexity of traditional systems. The dramatic reduction in the number of physical components results in a system that makes effective use of limited space, power, and cooling by deploying less infrastructure to perform the same, or even more, work.The system’s unified fabric results in fewer NICs, host bus adapters (HBAs), cables, and upstream switch ports, and eliminates the need for a parallel Fibre Channel end-to-end network. Traditional blade server chassis resident switches are replaced by a low-cost, low-power, zero-management fabric extender that enables the entire system to scale across multiple blade chassis and rack servers without addingmanagement points. All hardware and software components are managed through the unified, embedded Cisco UCS Manager to improve operation efficiency with seamless scaling.ConclusionDeployment of Cisco UCS systems enables data centers to reap the benefits of a simplified infrastructure. By consolidating from a large-footprint rack or complex and network-intensive blade environment to Cisco UCS, IT organizations can reduce the footprint and complexity of the entire datacenter. Server refresh and consolidationoperations become easy, scalable, and repeatable exercises that optimize data center investments.Learn MoreTo learn more about Cisco UCS, visit /go/ucs or contact your local account representative.。

A-1Cisco UCS C240 M4 Server Installation and Service GuideOL-32474-01A P P E N D I XAServer SpecificationsThis appendix lists the technical specifications for the server and includes the following sections:•Physical Specifications, page A-1 •Power Specifications, page A-2 •Environmental Specifications, page A-6Physical SpecificationsTable A-1 lists the physical specifications for the server.T able A-1Physical SpecificationsDescription Specification Height3.4 in. (8.70 cm)Width (including slam latches)19.0 in. (48.26 cm)Depth (length)Depth, including slam latches and power supply handles29.0 in. (73.70 cm) 31.5 in. (80.00 cm)Maximum Weight (fully loaded)SFF 8-drive: 52.9 lb. (24.0 Kg)SFF 16-drive: 58.9 lb. (26.7 Kg)SFF 24-drive: 62.7 lb. (28.4 Kg)LFF 12-drive: 67.5 lb. (30.6 Kg)Appendix A Server Specifications Power SpecificationsPower SpecificationsThe power specifications for the power supply options are listed in the following sections:•650 W AC Power Supply, page A-2•1200 W AC Power Supply, page A-3•1400 W AC Power Supply, page A-4•930 W DC (Version 2) Power Supply, UCSC-PSU2V2-930DC, page A-5•930 W DC (Version 1) Power Supply, UCSC-PSU-930WDC, page A-5You can get more specific power information for your exact server configuration by using the Cisco UCSPower Calculator:650 W AC Power SupplyTable A-2 lists the specifications for each 650 W AC power supply(Cisco part number UCSC-PSU2V2-650W=).T able A-2650 W AC Power Supply SpecificationsDescription SpecificationAC input voltage Nominal range: 100–120 VAC, 200–240 VAC(Range: 90–132 VAC, 180–264 VAC)AC input frequency Nominal range: 50 to 60Hz(Range: 47–63 Hz)Maximum AC input current7.6 A at 100 VAC3.65 A at 208 VACMaximum input volt-amperes760 VA at 100 VACMaximum output power per PSU650 WMaximum inrush current35 A (sub-cycle duration)Maximum hold-up time12 ms at 650 WPower supply output voltage12 VDCPower supply standby voltage 3.3 VDCEfficiency rating Climate Savers Platinum Efficiency (80Plus Platinum certified)Form factor RSP1Input connector IEC60320 C14Cisco UCS C240 M4 Server Installation and Service GuideOL-32474-01Appendix A Server SpecificationsPower Specifications1200 W AC Power SupplyTable A-3 lists the specifications for each 1200 W AC power supply(Cisco part number UCSC-PSU2V2-1200W=).T able A-31200 W AC Power Supply SpecificationsDescription SpecificationAC input voltage Nominal range: 100–120 VAC, 200–240 VAC(Range: 90–132 VAC, 180–264 VAC)AC input frequency Nominal range: 50 to 60Hz(Range: 47–63 Hz)Maximum AC input current11 A at 100 VAC7 A at 200 VACMaximum input volt-amperes1456 VAMaximum output power per PSU800 W at 100–120 VAC1200 W at 200–240 VACMaximum inrush current35 A (sub-cycle duration)Maximum hold-up time12 ms at 1200 WPower supply output voltage12 VDCPower supply standby voltage12 VDCEfficiency rating Climate Savers Platinum Efficiency (80Plus Platinum certified)Form factor RSP1Input connector IEC60320 C14Cisco UCS C240 M4 Server Installation and Service Guide OL-32474-01Appendix A Server Specifications Power Specifications1400 W AC Power SupplyTable A-2 lists the specifications for each 1400 W AC power supply(Cisco part number UCSC-PSU2V2-1400=).T able A-41400 W AC Power Supply SpecificationsDescription SpecificationAC input voltage Nominal range: 200–240 VAC(Range: 180–264 VAC)AC input frequency Nominal range: 50 to 60Hz(Range: 47–63 Hz)Maximum AC input current8.5 A at 200 VACMaximum input volt-amperes1700 VAMaximum output power per PSU1400 W at 200–240 VACMaximum inrush current<30 A at 25° C (sub-cycle duration)Maximum hold-up time12 ms at 1200 WPower supply output voltage12 VDCPower supply standby voltage12 VDCEfficiency rating Climate Savers Platinum Efficiency (80Plus Platinumcertified)Form factor RSP1Input connector IEC60320 C14Cisco UCS C240 M4 Server Installation and Service GuideOL-32474-01Appendix A Server SpecificationsPower Specifications930 W DC (Version 2) Power Supply, UCSC-PSU2V2-930DCTable A-6 lists the specifications for each 930 W DC power supply(Cisco part number UCSC-PSU2V2-930DC=).T able A-5930 W DC Version 2 Power Supply SpecificationsDescription SpecificationDC input voltage range Nominal range: –48 to –60 VDC nominal(Range: –40 to –60 VDC)Maximum DC input current28 A at –40 VDCMaximum input W1104 WMaximum output power per PSU930 WMaximum inrush current35 A (sub-cycle duration)Maximum hold-up time 5 ms at 930 WPower supply output voltage12 VDCPower supply standby voltage12 VDCEfficiency rating> 92% at 50% loadForm factor RSP1 (C-Series 2U and 4U servers)Input connector Fixed 3-wire block930 W DC (Version 1) Power Supply, UCSC-PSU-930WDCTable A-6 lists the specifications for each 930 W DC power supply(Cisco part number UCSC-PSU-930WDC=).T able A-6930 W DC Version 1 Power Supply SpecificationsDescription SpecificationDC input voltage range Nominal range: –48 to –60 VDC nominal(Range: –40 to –60 VDC)Maximum DC input current23 A at –48 VDCMaximum input W1104 WMaximum output power per PSU930 WMaximum inrush current35 A (sub-cycle duration)Maximum hold-up time8 ms at 930 WPower supply output voltage12 VDCPower supply standby voltage12 VDCEfficiency rating> 92% at 50% loadForm factor RSP1 (C-Series 2U and 4U servers)Input connector Removable connector block UCSC-CONN-930WDC=Cisco UCS C240 M4 Server Installation and Service Guide OL-32474-01Cisco UCS C240 M4 Server Installation and Service GuideOL-32474-01Appendix A Server SpecificationsEnvironmental SpecificationsEnvironmental SpecificationsTable A-7 lists the environmental specifications for the server.T able A-7Environmental SpecificationsDescriptionSpecificationTemperature, operating41 to 95°F (5 to 35°C)Derate the maximum temperature by 1°C per every 305 meters of altitude above sea level.Temperature, nonoperating(when the server is in storage or is transported)–40 to 149°F (–40 to 65°C)Humidity (RH), operating 10 to 90%Humidity, non-operating 5 to 93%Altitude, operating 0 to 10,000 feet Altitude, nonoperating(when the server is in storage or is transported)0 to 40,000 feetSound power level Measure A-weighted per ISO7779 LwAd (Bels)Operation at 73°F (23°C)5.8Sound pressure levelMeasure A-weighted per ISO7779 LpAm (dBA)Operation at 73°F (23°C)43。

Data SheetCisco UCS C220 M3 Rack ServerProduct OverviewThe Cisco® Unified Computing System™ (Cisco UCS) combines Cisco UCS C-Series Rack Servers and B-Series Blade Servers with networking and storage access into a single converged system that simplifies management and delivers greater cost efficiency and agility with increased visibility and control. The latest expansion of the Cisco UCS portfolio includes the new Cisco® UCS C220 M3 Rack Server (one rack unit [1RU]) and Cisco UCS C240 M3 Rack Server (2RU) and the Cisco UCS B200 M3 Blade Server. These three new servers increase compute density through more cores and cache balanced with more memory capacity, disk drives and with faster I/O. Together these server improvements and complementary Cisco UCS advancements deliver the best combination of features and cost efficiency required to support IT’s diverse server needs.The Cisco UCS C220 M3 Rack Server (Figure 1) is designed for performance and density over a wide range of business workloads, from web serving to distributed databases. Building on the success of the Cisco UCS C200M2 Rack Server, the enterprise-class Cisco UCS C220 M3 server further extends the capabilities of the Cisco UCS portfolio in a 1RU form factor with the addition of the Intel® Xeon® processor E5-2600 and E5-2600 v2 product families, which deliver significant performance and efficiency gains. In addition, the Cisco UCS C220 M3 server offers up to two Intel® Xeon® processor E5-2600 or E5-2600 v2 processors, 16 DIMM slots, eight disk drives, and two 1 Gigabit Ethernet LAN-on-motherboard (LOM) ports, delivering outstanding density and performance in a compact package.The Cisco UCS C220 M3 interfaces with Cisco UCS using another unique Cisco innovation: the Cisco UCS Virtual Interface Card. The Cisco UCS Virtual Interface Card is a virtualization-optimized Fibre Channel over Ethernet (FCoE) PCI Express (PCIe) 2.0 x8 10-Gbps adapter designed for use with Cisco UCS C-Series servers. The VIC is a dual-port 10 Gigabit Ethernet PCIe adapter that can support up to 256 PCIe standards-compliant virtual interfaces, which can be dynamically configured so that both their interface type (network interface card [NIC] or host bus adapter [HBA]) and identity (MAC address and worldwide name [WWN]) are established using just-in-time provisioning. In addition, the Cisco UCS VIC 1225 can support network interface virtualization and Cisco® Data Center Virtual Machine Fabric Extender (VM-FEX) technology.Figure 1. Cisco UCS C220 M3 ServerApplicationsThe Cisco UCS C220 M3 server is a high-density general-purpose 2-socket server optimized to deliver high performance for a large range of workloads, including:●Distributed database clusters●Middleware●High-performance virtual desktops●IT and web infrastructureCisco UCS Servers Change the Economics of the Data CenterIT infrastructure matters now more than ever, as organizations seek to achieve the full potential of infrastructure as a service (IaaS), bare metal, virtualized servers, and cloud computing. Cisco continues to lead in data center innovation with the introduction of new building blocks for Cisco UCS that extend its exceptional simplicity, agility, and efficiency (Figure 2). Cisco leadership with new innovations such as the third-generation Cisco UCS C220 M3 rack server.Figure 2. Cisco UCS ComponentsCisco innovations, such as Cisco UCS Manager, allow administrators to create a software definition for a desired server (using Cisco service profiles and templates) and then instantiate that server and its I/O connectivity by associating a service profile with physical resources. This approach contrasts with the traditional approach of configuring each system resource manually, one at a time, through individual element managers. Unlike the products of other vendors, Cisco service profiles can be moved from rack server to rack or blade server, or between blade or rack servers in different chassis. In other words, Cisco UCS Manager and service profiles are both form-factor agnostic and can bridge blade chassis boundaries.Other Cisco UCS building blocks include enhanced server I/O options and expanded Cisco UCS fabric interconnects that extend scalability and management simplicity for both blade and rack systems acrossbare-metal, virtualized, and cloud-computing environments. Cisco helps ensure that nearly all parts of Cisco UCS offer investment protection and are backward compatible. For example, fabric extenders can be upgraded using the same fabric interconnects and the same Cisco UCS VIC 1225. Fabric interconnect hardware can be upgraded independently of fabric extenders and blade chassis. Cisco continues to innovate in all these areas, helping ensure that both now and in the future, more powerful rack servers with larger, faster memory have adequate I/O bandwidth and compute power. Cisco completes this vision through continuous innovation in VIC, fabric extender, fabric interconnect, blade server, blade chassis, and rack server technologies and form-factor-agnostic Cisco UCS Manager Software.The Cisco UCS C220 M3 is part of a family of rack servers: the Cisco C-Series Rack Servers. Cisco UCS C-Series servers extend unified computing innovations to an industry-standard form factor to help reduce total cost of ownership (TCO) and increase business agility. Designed to operate both in standalone environments and as part of Cisco UCS, the Cisco UCS C-Series servers employ Cisco technology to help customers handle the most challenging workloads. The Cisco UCS C-Series complements a standards-based unified network fabric, Cisco Data Center VM-FEX virtualization support, Cisco UCS Manager Software, Cisco fabric extender and fabric interconnect architectures, and Cisco Extended Memory Technology. Again, Cisco is innovating across all these technologies. With Cisco UCS architectural advantages, software advances, continuous innovation, and unique blade server and chassis designs, Cisco UCS is the first truly unified data center platform. In addition, Cisco UCS can transform IT departments through policy-based automation and deep integration with familiar systems management and orchestration tools.Unique Benefits in a Familiar PackageThe Cisco UCS C220 M3 server extends Cisco’s product portfolio to meet the needs of customers that choose to deploy rack servers. Available from Cisco and its data center partners, the Cisco UCS C220 M3 advances the rack server market with the features outlined in Table 1.Table 1. Features and BenefitsUnified management (when integrated into Cisco UCS) ●Entire solution managed as a single entity with Cisco UCS Manager, improving operational efficiency and flexibility●Service profiles and templates that implement role- and policy-based management, enabling more effective use of skilled server, network, and storage administrators●Automated provisioning and increased business agility, allowing data center managers to provision applications in minutes rather than days by associating a service profile with a new, added or repurposed Cisco UCS C220 M3 server●Capability to move service profiles from rack server to another rack server, or blade to rack server, or rack to blade server in minutes instead of hours or daysIntel Xeon processor E5-2600 and E5-2600 v2 product families ●Automated energy efficiency reduces energy costs by automatically putting the processor and memory in the lowest available power state while still delivering the performance required and flexible virtualization technology that optimizes performance for virtualized environments, including processor support for migration and direct I/O●Up to twice the performance for floating-point operations. Intel Advanced Vector Extensions (Intel AVX) provides new instructions that can significantly improve performance for applications that rely on floating-point or vector computations●Cisco UCS C-Series servers keep pace with Intel Xeon processor innovation by offering the latest processors with an increase in processor frequency and improved security features. With the increased performance provided by the Intel Xeon processor E5-2600 and E5-2600 v2 product families, Cisco UCSC-Series rack servers offer an improved price-to-performance ratio, making Cisco UCS servers among the best values in the industry●Advanced reliability features, including Machine Check Architecture Recovery, to automatically monitor, report, and recover from hardware errors to maintain data integrity and keep mission-critical services online ●Hardened protection for virtual and cloud Environments: Establish trusted pools of virtual resources with Intel® Trusted Execution Technology (Intel® TXT). Intel TXT ensures that physical servers and hypervisors boot only into cryptographically verified “known good states.” It safeguards your business more effectively by protecting your platform from the insertion of malware during or prior to launchHot-swappable SAS, SATA, or SSD drives ●Up to 4 LFF or 8 SFF front-accessible, hot-swappable, internal SAS, SATA, or SSD drives, providing redundancy options and ease of serviceability●Balanced performance and capacity to best meet application needs:◦SATA SSDs◦15,000-RPM SAS drives for highest performance◦10,000 RPM SAS drives for high performance and value◦7200-RPM SATA drives for high capacity and valueRAID 0, 1, 5, 6, 10, 50, and 60 support A choice of RAID controllers provides data protection for up to 8 SAS, SATA, or SSD drives in PCIe and mezzanine card form factors.Cisco UCS C-Series Integrated Management Controller (CIMC) ●Web user interface for server management; remote keyboard, video, and mouse (KVM); virtual media; and administration●Virtual media support for remote CD and DVD drives as if local●Intelligent Platform Management Interface (IPMI) 2.0 support for out-of-band management through third-party enterprise management systems●Command-line interface (CLI) for server managementFast-memory support 16 DIMM slots supporting DDR3 1866-MHz memory for optimal performanceRedundant fans and power supplies ●Dual-redundant fans and hot-swappable, redundant power supplies for enterprise-class reliability and uptime ●Power efficiency through Cisco Common Form-Factor Platinum Power Supplies (450W and 650W)Support for up to 2 PCIe 3.0 slots ●Flexibility, increased performance, and compatibility with industry standards●PCIe 3.0 slots, which are estimated to substantially increase the bandwidth over the previous generation and offer more flexibility while maintaining compatibility with PCIe 2.0●I/O performance and flexibility with one x8, half-height and half-length slot and one x16, full-height andhalf-length slotIntegrated dual-port Gigabit Ethernet ●Outstanding network I/O performance and increased network efficiency and flexibility ●Increased network availability when configured in failover configurationsTrusted Platform Module (TPM) ●TPM is a chip (microcontroller) that can securely store artifacts used to authenticate the platform (server). These artifacts can include passwords, certificates, or encryption keys●TPM can also be used to store platform measurements that help ensure that the platform remains trustworthy, helping ensure authentication and authorizationTool-free access Tool-free access to all serviceable items, and color-coded indicators to guide users to hot-pluggable and serviceable itemsCisco Flexible Flash (FlexFlash) memory The server supports up to two internal Cisco FlexFlash drives (secure digital [SD] cards). The first SD card is preloaded with four virtual drives. The four virtual drives contain, respectively, the Cisco Server Configuration Utility, the Cisco Host Upgrade Utility, the Cisco C-Series server drivers set, and a blank virtual drive on which you can install an OS or a hypervisor. The second SD card is blank and can be used to mirror the first.Product SpecificationsTable 2 lists the specifications for the Cisco UCS C220 M3 server. Table 2. Product SpecificationsRegulatory StandardsTable 3 lists regulatory standards compliance information.Table 3. Regulatory Standards Compliance: Safety and EMCOrdering InformationFor a complete list of part numbers, please refer to the corresponding SFF SpecSheet or LFF SpecSheet. Cisco Unified Computing ServicesUsing a unified view of data center resources, Cisco and our industry-leading partners deliver services that accelerate your transition to a Cisco UCS C-Series Rack Server solution. Cisco Unified Computing Services help you quickly deploy the servers, optimize ongoing operations to better meet your business needs, and migrate to Cisco’s unified computing architecture. For more information, visit/go/unifiedcomputingservices.For More InformationPlease visit /go/unifiedcomputing.。

Data Sheet Cisco UCS Virtual Interface Card 1240Cisco Unified Computing System OverviewThe Cisco Unified Computing System™ (Cisco UCS™) is a next-generation data center platform that unites compute, network, storage access, and virtualization resources into a cohesive system designed to reduce total cost of ownership (TCO) and increase business agility. The system integrates a low-latency, lossless 10 Gigabit Ethernet unified network fabric with enterprise-class, x86-architecture servers. The system is an integrated, scalable, multichassis platform in which all resources participate in a unified management domain.Product OverviewA Cisco® innovation, the Cisco UCS Virtual Interface Card (VIC) 1240 (Figure 1) is a 4-port 10 Gigabit Ethernet, Fibre Channel over Ethernet (FCoE)-capable modular LAN on motherboard (mLOM) designed exclusively for theM3 or M4 generations of Cisco UCS B-Series Blade Servers. When used in combination with an optional Port Expander, the Cisco UCS VIC 1240 capabilities can be expanded to eight ports of 10 Gigabit Ethernet.The Cisco UCS VIC 1240 enables a policy-based, stateless, agile server infrastructure that can present up to 256 PCIe standards-compliant interfaces to the host that can be dynamically configured as either network interface cards (NICs) or host bus adapters (HBAs). In addition, the Cisco UCS VIC 1240 supports Cisco Data Center Virtual Machine Fabric Extender (VM-FEX) technology, which extends the Cisco UCS fabric interconnect ports to virtual machines, simplifying server virtualization deployment.Figure 1. Cisco UCS VIC 1240Features and BenefitsStateless and agile: The personality of the card is determined dynamically at boot time using the service profile associated with the server. The number, type (NIC or HBA), identity (MAC address and World Wide Name [WWN]), failover policy, bandwidth, and quality-of-service (QoS) policies of the PCIe interfaces are all determined using the service profile. The capability to define, create, and use interfaces on demand provides a stateless and agile server infrastructure (Figure 2).Figure 2. Cisco UCS VIC 1240 ArchitectureNetwork interface virtualization: Each PCIe interface created on the VIC is associated with an interface on the Cisco UCS fabric interconnect, providing complete network separation for each virtual cable between a PCIe device on the VIC and the interface on the fabric interconnect.Cisco SingleConnect TechnologyCisco® SingleConnect technology provides an exceptionally easy, intelligent, and efficient way to connect and manage computing in the data center. Cisco SingleConnect technology is an exclusive Cisco innovation that dramatically simplifies the way that data centers connect to:●Rack and blade servers●Physical servers and virtual machines●LAN, SAN, and management networksThe so lution addresses the challenges of today’s data center, and the result is a simple, intelligent, and efficient fabric:●Easy: Cisco SingleConnect technology provides a “wire once and walk away” solution that eliminatestraditional manual, time-consuming, error-prone processes and instead makes connecting servers to the Cisco Unified Computing System™ (Cisco UCS®) fast and easy.●Intelligent: the technology is intelligent because it uses a zero-touch model to allocate I/O connectivity (LAN,SAN, and management) across any type of server: physical rack and blade servers and virtual machines.The network intelligence helps Cisco UCS adapt to the needs of applications. Rather than limitingapplications to specific servers, Cisco UCS makes it easy to run any workload on any server.●Efficient: the technology is highly efficient because LAN, SAN, and management connections are sharedover a single network, increasing utilization while reducing the number of moving parts compared totraditional approaches with multiple networks.Cisco SingleConnect technology is implemented with an end-to-end system I/O architecture that uses Cisco Unified Fabric and Cisco Fabric Extender Technology (FEX Technology) to connect every Cisco UCS component with a single network and a single network layer. As customers expect from Cisco, the Cisco UCS I/O architecture is based on open standards and is reliable, available, and secure.Cisco Data Center VM-FEX technology: Cisco Data Center VM-FEX technology extends fabric interconnect ports directly to virtual machines, eliminating software-based switching in the hypervisor. Cisco Data Center VM-FEX technology collapses virtual and physical networking infrastructure into a single infrastructure that is fully aware of the virtual machines’ locations and networking policies (Figure 3). Cisco Data Center VM-FEX technology is implemented by Cisco VICs with a prestandard implementation of the IEEE 802.1BR Port Extender standard.Figure 3. Cisco Data Center VM-FEX with Cisco UCS VIC 1240Table 1 summarizes the features and benefits of the Cisco UCS VIC 1240. Table 1. Features and BenefitsTable 2 summarizes the specifications for the Cisco UCS VIC 1240.Table 2. Product SpecificationsSystem RequirementsThe Cisco UCS VIC 1240 is designed to be used only on the M3 or M4 generations of Cisco UCS B-Series Blade Servers. The modular LOM is not designed or intended for other purposes.Warranty InformationFind warranty information at on the Product Warranties page.Cisco Unified Computing ServicesUsing a unified view of data center resources, Cisco and our industry-leading partners deliver services that accelerate your transition to a unified computing architecture. Cisco Unified Computing Services helps you quickly deploy your data center resources, simplify ongoing operations, and optimize your infrastructure to better meet your business needs. For more information about these and other Cisco Data Center Services, visit/go/unifiedcomputingservices.Why Cisco?Cisco UCS continues Cisco’s long history of innovation in delivering integrated systems for improved business results based on industry standards and using the network as the platform. Recent examples include IP telephony, LAN switching, unified communications, and unified I/O. Cisco began the unified computing phase of ourData Center 3.0 strategy several years ago by assembling an experienced team from the computing and virtualization industries to augment our own networking and storage access expertise. As a result, Cisco delivered foundational technologies, including the Cisco Nexus® Family, supporting unified fabric and server virtualization. Cisco UCS completes this phase, delivering innovation in architecture, technology, partnerships, and services. Cisco is well positioned to deliver this innovation by taking a systems approach to computing that unifies network intelligence and scalability with innovative ASICs, integrated management, and standard computing components.Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital can help you acquire the technology you need to achieve your objectives and stay competitive. We can help you reduce CapEx. Accelerate your growth. Optimize your investment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services, and complementary third-party equipment. And there’s just one predictable payment. Cisco Capital is available in more than 100 co untries. Learn more.For More InformationFor more information about the Cisco UCS VIC, visit /en/US/products/ps12377/index.html.。

Data Sheet Cisco UCS Virtual Interface Card 1280Cisco Unified Computing System OverviewThe Cisco Unified Computing System™ (Cisco UCS™) is a next-generation data center platform that unites compute, network, storage access, and virtualization resources into a cohesive system designed to reduce total cost of ownership (TCO) and increase business agility. The system integrates a low-latency, lossless 10 Gigabit Ethernet unified network fabric with enterprise-class, x86-architecture servers. The system is an integrated, scalable, multichassis platform in which all resources participate in a unified management domain.Product OverviewA Cisco® innovation, the Cisco UCS Virtual Interface Card (VIC) 1280 (Figure 1) is an eight-port 10 Gigabit Ethernet, Fibre Channel over Ethernet (FCoE)-capable mezzanine card designed exclusively for Cisco UCSB-Series Blade Servers. The card enables a policy-based, stateless, agile server infrastructure that can present up to 256 PCIe standards-compliant interfaces to the host that can be dynamically configured as either network interface cards (NICs) or host bus adapters (HBAs). In addition, the Cisco UCS VIC 1280 supports Cisco Virtual Machine Fabric Extender (VM-FEX) technology, which extends the Cisco UCS Fabric Interconnect ports to virtual machines, simplifying server virtualization deployment.Figure 1. Cisco UCS VIC 1280Features and BenefitsStateless and Agile: The personality of the card is determined dynamically at boot time using the service profile associated with the server. The number, type (NIC or HBA), identity (MAC address and World Wide Name [WWN]), failover policy, bandwidth, and quality-of-service (QoS) policies of the PCIe interfaces are all determined using the service profile. The capability to define, create, and use interfaces on demand provides a stateless and agile server infrastructure (Figure 2).Figure 2. Cisco UCS VIC 1280 ArchitectureNetwork Interface Virtualization: Each PCIe interface created on the VIC is associated with an interface on the Cisco UCS Fabric Interconnect, providing complete network separation for each virtual cable between a PCIe device on the VIC and the interface on the Cisco UCS Fabric Interconnect.Cisco SingleConnect TechnologyCisco® SingleConnect technology provides an exceptionally easy, intelligent, and efficient way to connect and manage computing in the data center. Cisco SingleConnect technology is an exclusive Cisco innovation that dramatically simplifies the way that data centers connect to:●Rack and blade servers●Physical servers and virtual machines●LAN, SAN, and management networksThe solution addresses the challenges of today’s data center, and the result is a simple, intelligent, and efficient fabric:●Easy: Cisco SingleConnect technology provides a “wire once and walk away” solution that eliminatestraditional manual, time-consuming, error-prone processes and instead makes connecting servers to the Cisco Unified Computing System™ (Cisco UCS®) fast and easy.●Intelligent: the technology is intelligent because it uses a zero-touch model to allocate I/O connectivity (LAN,SAN, and management) across any type of server: physical rack and blade servers and virtual machines.The network intelligence helps Cisco UCS adapt to the needs of applications. Rather than limitingapplications to specific servers, Cisco UCS makes it easy to run any workload on any server.●Efficient: the technology is highly efficient because LAN, SAN, and management connections are sharedover a single network, increasing utilization while reducing the number of moving parts compared totraditional approaches with multiple networks.Cisco SingleConnect technology is implemented with an end-to-end system I/O architecture that uses Cisco Unified Fabric and Cisco Fabric Extender Technology (FEX Technology) to connect every Cisco UCS component with a single network and a single network layer. As customers expect from Cisco, the Cisco UCS I/O architecture is based on open standards and is reliable, available, and secure.Cisco VM-FEX TechnologyCisco VM-FEX technology extends Fabric Interconnect ports directly to virtual machines, eliminatingsoftware-based switching in the hypervisor. Cisco VM-FEX technology collapses virtual and physical networking infrastructure into a single infrastructure that is fully aware of the virtual mac hines’ locations and networking policies (Figure 3). Cisco FEX-VM technology is implemented by Cisco VICs with a pre-standard implementation of IEEE 802.1BR Port Extender.Figure 3. VM-FEX with Cisco UCS VIC 1280Table 1 summarizes the features and benefits of the Cisco UCS VIC 1280. Table 1. Features and BenefitsTable 2 summarizes the specifications for the Cisco UCS VIC 1280.Table 2. Product SpecificationsSystem RequirementsThe Cisco UCS VIC 1280 is designed to be used only on Cisco UCS B-Series Blade Servers.Warranty InformationFind warranty information at on the Product Warranties page.Cisco Unified Computing ServicesUsing a unified view of data center resources, Cisco and our industry-leading partners deliver services that accelerate your transition to a unified computing architecture. Cisco Unified Computing Services help you quickly deploy your data center resources, simplify ongoing operations, and optimize your infrastructure to better meet your business needs. For more information about these and other Cisco Data Center Services, visit/go/unifiedcomputingservices.Why Cisco?Cisco UCS continues Cisco’s long history of innovation in delivering integrated systems for improved business results based on industry standards and using the network as the platform. Recent examples include IP telephony, LAN switching, unified communications, and unified I/O. Cisco began the unified computing phase of our Data Center 3.0 strategy several years ago by assembling an experienced team from the computing and virtualization industries to augment our own networking and storage access expertise. As a result, Cisco delivered foundational technologies, including the Cisco Nexus® Family, supporting unified fabric and server virtualization. Cisco UCS completes this phase, delivering innovation in architecture, technology, partnerships, and services. Cisco iswell-positioned to deliver this innovation by taking a systems approach to computing that unifies network intelligence and scalability with innovative ASICs, integrated management, and standard computing components.Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital can help you acquire the technology you need to achieve your objectives and stay competitive. We can help you reduce CapEx. Accelerate your growth. Optimize your investment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services, and complementary third-party equipment. And there’s just one predictable payment. Cisco Capital is available in more than 100 countries. Learn more.For More InformationFor more information about the Cisco VIC, visit /en/US/products/ps10265/index.html.。

UCS系统实施手册目录1.背景介绍 (4)2.Cisco统一计算系统部署过程 (6)2.1.UCS部署端口连接与IP地址分配 (6)2.2.Fabric interconnect初始配置 (6)2.3.UCSM管理界面登录 (7)2.4.端口属性设置 (9)2.5.建立Service Profile (12)2.5.1.直接创建单个Service Profile (12)2.5.1.1.设置Profile名称及UUID (13)2.5.1.2.设置存储属性 (13)2.5.1.3.设置网卡属性 (14)2.5.1.4.设置设备启动顺序 (15)2.5.1.5.关联Service Profile与刀片 (16)2.5.2.从template中生成Service Profile (16)2.5.2.1.配置MAC Pool (16)2.5.2.2.创建VLAN (18)2.5.2.3.创建Service Profile模板 (18)2.5.2.4.设置存储属性 (20)2.5.2.5.设置网卡属性 (22)2.5.2.6.创建服务配置文件并关联到刀片服务器 (24)1.背景介绍本文旨在介绍思科统一计算系统的核心特性能够如何简化服务器，网络以及虚拟环境的部署、增强管理、提供出色性能和安全性。

文章中介绍了该系统的统一阵列、统一内嵌管理、服务配置文件。

本文也介绍了如何配置统一阵列，如何产生和配置service profile，以及如何利用service profile快速配置服务器，同时也介绍如何实现高可用配置。

服务器虚拟化为世界各地的数据中心带来了众多优势，但同时它也向数据中心提出了挑战。

如果有统一的I/O配置和足够的带宽，在每台物理服务器上支持大量VM，则资源池的管理会较为容易。

资源池将能更快速地应对迅速变化的业务情况和工作负载，新服务器资源的添加能在几分钟内完成，然后设置并投入使用。

而无需通过数小时甚或数天繁琐、耗时且易于出错的人工配置，来准备服务器及其接口、固件和设置。