You are probably thinking that CITEIS is a typo – but it’s not. In fact, CITEIS stands for Cisco IT Elastic Infrastructure Services and it’s the name that Cisco’s IT department coined for our internal private cloud.
You can read more about CITEIS here, including an explanation of the two options: CITEIS “Express” for on-demand access to virtual compute resources from a shared pool of resources; and CITEIS “VDC” (Virtual Data Center) to provision your own virtual data center with a reserved pool of compute, storage, and network capacity.
We recently recorded a brief demo video of the Express version so you can see how it works:
Cisco ACE 30 Module for Catalyst 6500 Series switch
Application performance and reliability are critical issues for data center applications. Cisco just recently released a case study on Denver-based Johns Manville, a leading manufacturer of quality building products and how Cisco helps maximize availability and performance of their SAP inventory control system.
Johns Manville relies on an SAP business system in its manufacturing plants and warehouses for inventory management. Plant floor employees, such as forklift drivers and shipping agents, continuously enter data into the inventory management system through an SAP portal as orders are entered, packed, and shipped, and as inventory is moved. Forklift vehicles are equipped with PCs and scanners that connect to the SAP portal through wireless connections. The SAP portal also provides access to the plant intranet and other applications.
Johns Manville deployed two Cisco ACE modules in its Cisco Catalyst® 6500 Series core switches to load-balance incoming SAP inventory control traffic to the least-busy servers. The module uses best-in-class application-switching algorithms and highly available system software and hardware to increase application availability. A single module can manage up to 16 Gbps of application traffic, and up to 64 Gbps with four modules in a single Catalyst 6500 Series switch chassis. Read More »
Today, Cisco introduced the Third-Generation of Fabric computing. The power of unification can be seen in all aspects of the Cisco Unified Computing System (UCS). It unifies physical and virtual compute environments. It integrates the server and network access. It also unifies and simplifies the management of rack and blade servers. The choice between using blade and physical server is not obvious and usually sparks a heated debate. The Cisco UCS Manager with B-Series blades and C-Series Rack-mount servers makes this argument moot.
Without passing judgment on whether rack or blade servers are better, lets begin by listing the benefits of the two form factors. Blade server use is growing and there are many reasons for this:
Data center space / Power / Cooling constraints – Data center space can get expensive depending on the location. In this CBS 60 minutes segment, proximity to the stock exchange is extolled. This fascinating video shows the collocation of data centers in urban nerve centers. I am sure data center space in these locations commands a premium. Energy efficiencies also become important in the overall cost structure. Power constraints may also favor the use of blades that consume less power than equally powerful rack mount servers.
Today Cisco announced an expanded portfolio of third generation UCS Networking products that improve Datacenter scalability, performance and agility with industry leading capabilities. The announcement includes the following new products:
1. A new Fabric Interconnect (Cisco UCS 6296UP) that doubles the switching capacity of the data center fabric to improve workload density (from 960Gbps to 1.92 Tbps), reduces end-to-end latency by 40 percent to improve application performance and provides flexible unified ports to improve infrastructure agility and transition to a fully converged fabric
2. A new Chassis I/O Module (Cisco UCS 2204XP) that offers enhanced resiliency and utilization with Port Channeling, and an option for 80 Gbps, in addition to 160 Gbps, down to each chassis (from 80Gb to 320Gb to the blade) to handle workload bursts
On the management front we have two new things to talk about:
1) Freeing the server administrators from the tyranny of sheet metal. UCS manager delivers total administrative parity across server form factors, and now supports connectivity for greater quantities of C-Series racks in a UCS system. When you get right down to it, servers are just different combinations of processing, memory, local disk and I/O capability. Some combinations happen to be best as blades, some happen to be best as rack mounts, but we shouldn’t have to care about the shape of the sheet metal when it comes to systems management. With UCS you don’t. Rack and blade all show up together as resources available and managed in a unified, self-integrating system, complete with an XML API. Unified management in UCS lets us finally think outside the box when we deploy and manage compute infrastructure.
2) Multi-UCS Manager: this might be the most important part of this announcement because it takes UCS well over the horizon in terms of scalability. Multi-UCS Manager, as the name implies, is the capability to manage across multiple instances of UCS. This allows for synchronization of service profiles, common pools of unique identifiers and centralized visibility and control across many thousands of servers. Multi-UCS Manager takes the underlying policy based management philosophy of UCS and literally globalizes it, with the capability to manage UCS instances within a single data or around the world. Scheduled for availability in 2HCY12, this is big news and there will be more to come on this topic.
New UCS I/O components:
1) Last year we introduced the 6248 Fabric Interconnect, with unified ports, 40% latency reduction and increased system bandwidth. Here comes its big brother, the 6296, weighing in at 2U, 96 ports, sub-2µs latency and a whopping 2Tb of switching capacity. That means more flexibility and capacity in an architecture that puts all the servers in the system one network hop away from each other, be they blades or racks.
2) A new I/O module for the UCS blade chassis, the 2204XP. This fabric extender doubles the amount of bandwidth that can be provisioned to each chassis to 160Gb.
3) Finally, but probably the most exciting for the server geeks among us: the VIC1240. This is the Cisco Virtual Interface Card now embedded in the new B200 M3 blade server. The VIC 1240 is a dual 20Gb LOM with high performance virtualization that comes standard. An expander module can double the trouble to 4x20Gb. By my math that’s 80Gb to a single slot blade: so how do you use it all? With Adapter-FEX technology, the VIC can carve that pipe into 256 vNICs or vHBAs that can be presented to a bare metal OS. VM-FEX technology takes it a step further, allowing those virtual adapters to be connected directly with virtual machines. The VIC can also be configured to bypass hypervisor switching which offloads that work from your processors and reduces proc utilization up to 30%. Moving virtual switching to the VIC also improves throughput by up to 10% and improves application performance by up to 15%. The idea here is to bring virtual I/O to near-bare metal levels and allow more applications to be virtualized – which means greater operational agility and service resiliency.
Don’t forget the servers! By the end of this year we’ll have roughly doubled the number of servers in the UCS portfolio. Here’s how we’re kicking things off:
1) Two new rack servers: the C220 M3 and C240 M3. It’s best to compare at the specs here on the product pages, because these are feature loaded and my fingers are tired. They are of course based on Intel’s screaming hot new Xeon E5-2600 processor family, which was announced on Tuesday. We like to say Cisco and Intel are joined at the chip, after all. In addition to bringing new horse power and efficiency gains, the key differentiator for these machines is that they can be managed right alongside B-Series blades in one big happy pool of abstracted server resources, by UCS Manager.
2) The B200 M3. One of the upshots of the UCS architecture is that we’ve pulled all the switches and systems management modules out of the blade chassis. This leaves more room, power and cold air for computing, which manifests itself here in a single-slot blade with 24 DIMM slots and up to three quarter terabytes of RAM. Server architecture, much like life, though, is all about balance. That’s where the Xeon E5-2600 processors and the aforementioned VIC1240 (80Gb of I/O!) come in. The B200 M3 brings an industry leading set of capability to this class of blade and is a fantastic add to the UCS family.
One of the best things about UCS is forward and backward compatibility: all generations of product are fully interoperable which yields strong investment protection. Modular yet unified. The Zen of computing architecture, if you will. In fact, we’re putting a stake in the ground: the dramatically simplified blade chassis Cisco introduced to the industry 2009 will take customers through the end of this decade. Good through 2020…you heard it here first. Just think how young Paul will still look in this video by then
My colleagues will post today to talk about how all of this nets out in application performance, and it’s a very good story indeed. In the meantime we’ve posted up some easy to read performance briefs. Also, don’t forget that we have a “view 3D model” link right under the product pictures for all these new additions. If you want to take a close look that’s a fun way to do it. Thanks for coming along.