- Preface
- New and Changed Information
- Overview
- Equipment Policies
- Chassis Management
- I/O Module Management
- SIOC Management
- Power Management in Cisco UCS
- Blade Server Hardware Management
- Rack-Mount Server Hardware Management
- S3260 Server Node Hardware Management
- Virtual Interface Management
- Troubleshoot Infrastructure
Overview
- Cisco UCS Manager User Documentation
- Infrastructure Management Guide Overview
- Cisco Unified Computing System Overview
- Cisco UCS Building Blocks and Connectivity
Cisco UCS Manager User Documentation
Cisco UCS Manager offers you a new set of smaller, use-case based documentation described in the following table:
Guide |
Description |
---|---|
Discusses Cisco UCS architecture and Day 0 operations, including Cisco UCS Manager initial configuration and configuration best practices. |
|
Discusses password management, role-based access configuration, remote authentication, communication services, CIMC session management, organizations, backup and restore, scheduling options, BIOS tokens, and deferred deployments. |
|
Discusses physical and virtual infrastructure components used and managed by Cisco UCS Manager. |
|
Discusses downloading and managing firmware, upgrading through Auto Install, upgrading through service profiles, directly upgrading at endpoints using firmware auto sync, managing the capability catalog, deployment scenarios, and troubleshooting. |
|
Discusses the new licenses, registering Cisco UCS domain with Cisco UCS Central, power capping, server boot, server profiles, and server-related policies. |
|
Discusses all aspects of storage management, such as SAN and VSAN in Cisco UCS Manager. |
|
Discusses all aspects of network management, such as LAN and VLAN connectivity in Cisco UCS Manager. |
|
Discusses all aspects of system and health monitoring, including system statistics in Cisco UCS Manager. |
Infrastructure Management Guide Overview
This guide provides an overview of the physical and virtual infrastructure used in Cisco Unified Computing System (UCS) and managed through Cisco UCS Manager. It also provides detailed information about managing these infrastructure components. The following table summarizes the overall organization of the guide.
Topic |
Description |
---|---|
Overview |
Conceptual overview of Cisco UCS architecture including Cisco Fabric Interconnects, I/O Module, Chassis, Servers, and Virtualization in Cisco UCS. |
Equipment Policies |
Equipment policies such as Chassis/FEX discovery policy, Chassis connectivity policy, and Rack Server discovery policy. |
Chassis Management |
Overview of the chassis supported and procedures to manage them. |
I/O Module Management |
Overview of I/O Modules and procedures to manage them. |
Power Management in Cisco UCS |
Overview of UCS Power Management policies, Global Power policies, and Power Capping. |
Blade Server Management |
Overview of Blade Servers and procedures to manage them. |
Rack-Mount Server Management |
Overview of Rack-Mount Servers and procedures to manage them. |
S3260 Server Node Management |
Overview of S3260 Server Node and procedures to manage them. |
Virtual Interface Management |
Overview of Virtualization in Cisco UCS, Virtual Interfaces and procedures to manage them. |
Server Troubleshooting |
Common troubleshooting scenarios for Servers. |
Cisco Unified Computing System Overview
Cisco UCS has a unique architecture that integrates compute, data network access, and storage network access into a common set of components under a single-pane-of-glass management interface.
Architectural Simplification
The simplified architecture of Cisco UCS reduces the number of required devices and centralizes switching resources. By eliminating switching inside a chassis, network access-layer fragmentation is significantly reduced. Cisco UCS implements Cisco unified fabric within racks and groups of racks, supporting Ethernet and Fibre Channel protocols over 10 Gigabit Cisco Data Center Ethernet and Fibre Channel over Ethernet (FCoE) links. This radical simplification reduces the number of switches, cables, adapters, and management points by up to two-thirds. All devices in a Cisco UCS domain remain under a single management domain, which remains highly available through the use of redundant components.
High Availability
The management and data plane of Cisco UCS is designed for high availability and redundant access layer fabric interconnects. In addition, Cisco UCS supports existing high availability and disaster recovery solutions for the data center, such as data replication and application-level clustering technologies.
Scalability
A single Cisco UCS domain supports multiple chassis and their servers, all of which are administered through one Cisco UCS Manager. For more detailed information about the scalability, speak to your Cisco representative.
Flexibility
A Cisco UCS domain allows you to quickly align computing resources in the data center with rapidly changing business requirements. This built-in flexibility is determined by whether you choose to fully implement the stateless computing feature. Pools of servers and other system resources can be applied as necessary to respond to workload fluctuations, support new applications, scale existing software and business services, and accommodate both scheduled and unscheduled downtime. Server identity can be abstracted into a mobile service profile that can be moved from server to server with minimal downtime and no need for additional network configuration.
With this level of flexibility, you can quickly and easily scale server capacity without having to change the server identity or reconfigure the server, LAN, or SAN. During a maintenance window, you can quickly do the following:
Optimized for Server Virtualization
Cisco UCS has been optimized to implement VM-FEX technology. This technology provides improved support for server virtualization, including better policy-based configuration and security, conformance with a company's operational model, and accommodation for VMware's VMotion.
Cisco UCS Building Blocks and Connectivity
As shown in the figure above, the primary components included within Cisco UCS are as follows:
- Cisco UCS Manager—Cisco UCS Manager is the centralized management interface for Cisco UCS. For more information on Cisco UCS Manager, see Introduction to Cisco UCS manager in Cisco UCS Manager Getting Started Guide
-
Cisco UCS
Fabric Interconnects—The Cisco UCS Fabric Interconnect is the core
component of Cisco UCS deployments, providing both network connectivity and
management capabilities for the Cisco UCS system. The Cisco UCS Fabric
Interconnects run the Cisco UCS Manager control software and consist of the
following components:
-
Cisco UCS 6200 series Fabric Interconnects, Cisco UCS 6332 series Fabric Interconnects, and Cisco UCS Mini
-
Transreceivers for network and storage connectivity
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Expansion modules for the various Fabric Interconnects
-
Cisco UCS Manager software
For more information on Cisco UCS Fabric Interconnects, see Cisco UCS Fabric Infrastructure Portfolio.
-
- Cisco UCS I/O Modules and
Cisco UCS Fabric Extender—IOM modules are also known as Cisco FEXs
or simply FEX modules. These modules serve as line cards to the FIs in the same
way that Nexus series switches can have remote line cards. IOM modules also
provide interface connections to blade servers. They multiplex data from blade
servers and provide this data to FIs and do the same in the reverse direction.
In production environments, IOM modules are always used in pairs to provide
redundancy and failover.
Important: The 40G backplane setting is not applicable for 22xx IOMs.
- Cisco UCS Blade Server Chassis—The Cisco UCS 5100 Series Blade Server Chassis is a crucial building block of Cisco UCS, delivering a scalable and flexible architecture for current and future data center needs, while helping reduce total cost of ownership.
- Cisco UCS Blade and Rack
Servers—Cisco UCS Blade servers are at the heart of the UCS
solution. They come in various system resource configurations in terms of CPU,
memory, and hard disk capacity. All blade servers are based on Intel Xeon
processors. There is no AMD option available. The Cisco UCS rack-mount servers
are standalone servers that can be installed and controlled individually. Cisco
provides Fabric Extenders (FEXs) for the rack-mount servers. FEXs can be used
to connect and manage rack-mount servers from FIs. Rack-mount servers can also
be directly attached to the fabric interconnect.
Small and Medium Businesses (SMBs) can choose from different blade configurations as per business needs
- Cisco UCS I/O Adapters—Cisco UCS B-Series Blade Servers are designed to support up to two network adapters. This design can reduce the number of adapters, cables, and access-layer switches by as much as half because it eliminates the need for multiple parallel infrastructure for both LAN and SAN at the server, chassis, and rack levels.
- Cisco UCS Fabric Infrastructure Portfolio
- Cisco UCS I/O Modules and Cisco UCS Fabric Extenders
- Cisco UCS Chassis
- Cisco UCS Mini Infrastructure
- Cisco UCS Infrastructure Virtualization
Cisco UCS Fabric Infrastructure Portfolio
Note | The Cisco UCS 6100 Series Fabric Interconnects and Cisco UCS 2104 I/O Modules have reached end of life. |
Cisco UCS I/O Modules and Cisco UCS Fabric Extenders
Cisco UCS 2200 and 2300 Series Fabric Extenders, also known as I/O modules, bring the unified fabric into the blade server enclosure, providing multiple 10 Gigabit Ethernet connections between servers and the fabric interconnect, simplifying diagnostics, cabling, and management.
The Cisco UCS 2200 Series extends the I/O fabric between the Cisco UCS 6200 Series fabric interconnects and the Cisco UCS 5100 Series blade server chassis. The Cisco UCS 2300 Series extends the I/O fabric between the Cisco UCS 6300 Series fabric interconnects and the Cisco UCS 5100 Series blade server chassis. These fabric extenders enable a lossless and deterministic Fibre Channel over Ethernet (FCoE) fabric to connect all servers and chassis together. Because the fabric extender is similar to a distributed line card, it does not perform any switching, and is managed as an extension of the fabric interconnects.
The Cisco UCS 2200 Series manages the fabric interconnect and the chassis environment, including the power supply, fans, and blade servers. Therefore, separate chassis management modules are not required. These fabric extenders fit into the back of the Cisco UCS 5100 Series chassis. Each Cisco UCS 5100 Series chassis can support up to two fabric extenders, allowing increased capacity and redundancy.
Cisco UCS 2232PP and Cisco UCS 2232TM-E extend the fabric between the Cisco UCS 6200 Series fabric interconnects and rack mount servers. Cisco UCS 2348UPQ extends the fabric between the Cisco UCS 6300 Series fabric interconnects and rack mount servers.
I/O Module Management provides more details about managing I/O Modules.
Cisco UCS Chassis
Cisco UCS Manager Release 3.1(1) provides support for Cisco UCS 5108 Blade Server Chassis
Chassis Management provides details on managing the chassis through Cisco UCS Manager.
Cisco UCS 5108 Blade Server Chassis
The Cisco UCS 5108 Blade Server Chassis, is six rack units (6RU) high, can mount in an industry-standard 19-inch rack, and uses standard front-to-back cooling. A chassis can accommodate up to eight half-width, or four full-width Cisco UCS B-Series Blade Servers form factors within the same chassis. By incorporating unified fabric and fabric-extender technology, the Cisco Unified Computing System enables the chassis to:
-
Have fewer physical components
-
Require no independent management
-
Be more energy efficient than a traditional blade-server chassis
The Cisco UCS 5108 Blade Server Chassis is supported with all generations of fabric interconnects.
Cisco UCS Mini Infrastructure
The Cisco UCS Mini solution extends the Cisco UCS architecture into environments with requirements for smaller domains, including branch and remote offices, point-of-sale locations, and smaller IT environments. Cisco UCS Mini has three main infrastructure components:
-
Cisco UCS 6324 fabric interconnect
-
Cisco UCS blade server chassis
-
Cisco UCS blade or rack mount servers
In the Cisco UCS Mini solution, the Cisco UCS 6324 fabric interconnect is collapsed into the IO Module form factor, and is inserted into the IOM slot of the blade server chassis. The Cisco UCS 6324 fabric interconnect has 24 10G ports available on it. Sixteen of these ports are server facing, two 10G ports are dedicated to each of the eight half width blade slots. The remaining eight ports are divided into groups of four 1/10G Enhanced Small Form-Factor Pluggable (SFP+) ports and one 40G Quad Small Form-factor Pluggable (QSFP) port, which is called the 'scalability port'.
Cisco UCS Manager Release 3.1(1) introduces support for a second UCS 5108 chassis to an existing single-chassis Cisco UCS 6324 fabric interconnect setup. This extended chassis enables you to configure an additional 8 servers. Unlike the primary chassis, the extended chassis supports IOMs. Currently, it supports UCS-IOM-2204XP and UCS-IOM-2208XP IOMs. The extended chassis can only be connected through the scalability port on the FI-IOM.
Currently, Cisco UCS Manager supports only one extended chassis for UCS Mini.
Cisco UCS Infrastructure Virtualization
Cisco UCS is a single integrated system with switches, cables, adapters, and servers all tied together and managed by unified management software. One capability that enables this unification is the ability to virtualize every component of the system at every level. Switch port, cables, adapter, and servers can all be virtualized. Because of the virtualization capabilities at every component of the system, you have the unique capability to provide rapid provisioning of any service on any server on any blade through a system that is wired once. The following image illustrates these virtualization capabilities.
Switch Port Virtualization
The physical interfaces provide physical connectivity for what are actually logical virtual interfaces on the fabric interconnects-virtual Fibre Channel interfaces (vFC) and virtual Ethernet interfaces (vEth). The logical connectivity to a server is provided through these virtual interfaces.
Cable Virtualization
The physical cables that connect to physical switch ports provide the infrastructure for logical and virtual cables. These virtual cables connect to virtual adapters on any given server in the system.
Adapter Virtualization
On the server, you have physical adapters, which provide physical infrastructure for virtual adapters. A virtual network interface card (vNIC) or virtual host bus adapter (vHBA) logically connects a host to a virtual interface on the fabric interconnect and allows the host to send and receive traffic through that interface. Each virtual interface in the fabric interconnect corresponds to a vNIC.
An adapter that is installed on the server appears to the server as multiple adapters through standard PCIe virtualization. When the server scans the PCIe bus, the virtual adapters provisioned appear to be physically plugged into the PCIe bus.
Server Virtualization
Server virtualization provides you with the ability of stateless servers. As part of the physical infrastructure, you have physical servers. However, the configuration of a server is derived from the service profile to which it is associated. All service profiles are centrally managed and stored in a database on the fabric interconnect. A service profile defines all of the settings of the server, for example, the number of adapters, virtual adapters, the identity of these adapters, the firmware of the adapters, and the firmware of the server. It contains all the settings of the server that you would typically configure on a physical machine. Because the service profile is abstracted from the physical infrastructure, you can apply it to any physical server and the physical server will be configured according to the configuration defined in the service profile. Cisco UCS Manager Server Management Guide provides detailed information about managing service profiles.