I recently had the opportunity to discuss an application for a retrofit containment system installed into an existing data center with a sales person. Not an uncommon story, given the effectiveness of separating cold and hot air streams in the data center to reduce cooling energy consumption. The part of the story that stood out for me was that the sales person enthusiastically related how the end user realized an instant payback on the containment system and had money left over. It sounded too good to be true. My first thought was just how badly is this data center being operated that the retrofitting of a containment system would yield an instant payback and still have money left over???
This year’s Cisco Live , being held at the Moscone Center in San Francisco, promises to be another exciting event. As a Platinum Sponsor, Panduit will be exhibiting in booth #1521 and will be featuring our Intelligent Data Center Solutions, Enterprise Solutions and Industrial Automation Solutions.
We are particularly excited about Cisco’s Application Centric Infrastructure (ACI) architecture that promises to deliver fast application provisioning and simplified operations. ACI networks will be built upon a flatter 2 tier network architecture that requires some new ways of thinking about how an optimal physical infrastructure should be built. Panduit has been working with Cisco to understand the differences between traditional three tier physical architectures and the ACI architecture, and will be presenting the “ACI Impact on Physical Infrastructure Design and Deployment” in the general session on Tuesday May, 20th at 2:00 p.m. PDT. Examples of cabinets configured with Spine/Leaf network topologies including Top of Rack (ToR), End of Rack (EoR) and Middle of Rack (MoR).
Whether it is power, space, or cooling, stranded capacity can strangle your data center’s efficiency, blow-up your budget and put the brakes on new applications implementation. We have encountered many approaches to freeing stranded capacity ranging from the expensive…redeployment or reconfiguration of devices, or adding power or cooling capacity in an operational data center, to the ones requiring lower investment…additional perforated floor tiles, fans, or “meat locker” curtains to help improve cooling capacity utilization.
Frequently, we are asked to help reclaim stranded data center capacity. One approach that is relatively low risk and economical is to improve the utilization of existing cooling capacity. Installing blanking panels and sealing gaps in the raised floor is typically our first recommendation. Fast, simple, and inexpensive to implement, it is typically a first step and may not provide the level of separation needed to concentrate cooling air to accommodate higher densities. The next step is hot or cold aisle containment.
Statistics, multiple analysts, and research reports indicate that data centers are often overprovisioned with power and cooling capacity to maintain service levels regardless of actual IT equipment utilization. As you are well aware, this approach has proven to be expensive and inefficient. As data center energy consumption grows it is drawing the attention of CFO’s and corporate responsibility managers who are concerned with the impact of the data center’s operation on the environment and of course, the impact on the bottom line. So how can you improve your data center’s efficiency?