HP spreads wings with 'butterfly' data centers
Modules take flight
There may be a glut in the housing market in many of the Western economies, but when it comes to data centers, there's pent-up demand for more modern facilities. So business should be booming then, right?
Wrong. As the cost of compute, storage, and networking capacity has dropped, allowing companies to – in theory – get a lot more oomph for the buck, the price of constructing and operating data centers has continued to rise. Companies that built their last big data center in the 1980s or 1990s – usually with raised floors and power densities that were tepid by comparison with the 20 to 30 kilowatts per rack that is possible with dense servers today – are jonesing for brick-and-mortar data centers with all the modern power distribution and cooling technologies. They just don't have the money to build them.
Moreover, very few companies are willing to use cheaper containerized data centers, and not just because they look trashy. The containerized data center only copes with certain kinds of servers, not all servers, and doesn't provide the other facilities – like workspace for admins and meeting rooms, as well as tough security – that normal data centers have. A containerized data center is more like a super-rack, meant to be tossed out in a few years when it is technologically worthless, than it is like a data center, meant to have a life of several decades.
HP's Critical Facilities Services division thinks it has come up with the answer, and it is one that mirrors the housing market and splits the difference between building a stick house and buying a trailer: building a house from prefabricated, modular components.
HP today started showing off something called the Flexible Data Center, based on what it calls a "butterfly design." The body of the butterfly is not the IT facility, oddly enough, but the places where people work, what HP calls the core building, designated by the product number M32:
This part of the butterfly facility has a central core hallway, off which hang shipping and receiving centers, staff and meeting rooms, administration areas, and a network operations center – all of which has the physical and electronic security that a modern data center should have. Off this central core hangs the four wings of the butterfly, which are data centers that are 6,000 square feet in size rated at 800 kilowatts, known by the product number M8:
As you can see, once you build the basic butterfly data center – one core and four wings – you hang two cooling modules off the side of each M8 module and up to four power conditioning or generator modules off the top or bottom of the M8 modules (whichever side is not butted up against other M8 modules).
So long, raised floors
According to Peter Gross, vice president and general manager of Critical Facilities Services at HP, the Flexible DC modular data center does not support raised floors like data centers of the old mainframe, water-cooled era. But HP and its partners for the product are offering a variety of different cooling options for the butterfly designs, suitable to whatever climate the data center is in.
These include exterior air handlers that let outside air into the data center through the side walls, lets it get sucked through equipment racks (after being filtered), and sucked out through the roof; this outside air cooling option has HVAC direct extension (DX) backup for when the weather gets hot. You can seal the butterfly data center up and use normal air or evaporative cooling, if you want. (There is no chilled water option.)
The M8 module can hold eight rows of server racks, as you can see here:
The Flexible DC also assumes customers are going to want to eliminate as much stepping down and transformation of the juice coming in from the power company as possible to cut down on power handling equipment and to save energy. This isn't required, of course, but it is highly recommended.
If you need more than 24,000 square feet of data center floor with 3.2 megawatts of power and cooling capacity, HP suggests that you cookie cutter the Flexible DCs and build a campus of them. Thus:
If you look at the geometry of the butterfly data centers, you might think you could interlock long rows of them together to conserve space, but the hallways do not line up that way and you would be blocking wall space that might be dedicated to air intake, power conditioning, and generators.
Gross says that a butterfly data center has a power usage effectiveness (PUE) rating of 1.25 or lower, depending on the options customers select and the climate it is plopped into. That is, according to the Environmental Protection Agency , as cited by Google, somewhere between "best practices" and "state-of-the-art" in terms of energy efficiency. (PUE is the total power pumped into the data center for cooling and IT gear divided by the power consumed by the IT gear). Google's own PUE, as you can see, ranges from about 1.15 to 1.25.
While there is plenty of talk about PUE and density in data center circles, Gross says that is not the real problem. The cost of the data center facility is. Gross estimates that a modern brick-and-mortar data center costs about $25m per megawatt. But by standardizing components in the prefabricated data centers – and by building and testing them back in a factory instead of custom designing each data center and custom building it – Gross says that HP and its partners with the Flexible DC product will be able to put a data center into the field for one half to one third that cost. And instead of taking two years to build it, HP will be able to do it in six to nine months.
"Today, a high-end data center costs $25m per megawatt to build, and this is not sustainable," says Gross. "And this is why co-location has been growing like crazy, because people are trying to avoid these costs. Demand for data center capacity is strong, but supply is not there because of the high cost."
Gross says that HP was originally just thinking of pitching the Flexible DC product to cloud, search, and other hyperscale Web companies that are looking at shelling out $200m to $300m to build their next data centers. But instead, the company designed an offering that would be appealing to a lot more customers.
Gross estimates that there are about 12,000 data centers worldwide with 20,000 square feet or more of floor space, and that many of them are very inefficient – so inefficient that companies will have little choice but to replace them. But at $25m per megawatt, and rising, every year it looks too expensive and they make do. The mass production of data centers that HP is talking about providing – call it an Industry Standard Data Center, akin to an x64 server – could break the logjam and get a lot more data centers built.
Don't expect the local construction workers to be happy about it.
Gross says that the Flexible DC product is in its advanced design stage now and will be ready to sell to customers in the next three to six months. HP has three different partners it is in discussion with to help with the construction, power, and cooling, but Gross would not name names. Customers who want to start specing out a butterfly data center can contact HP starting today and get moving. HP plans to sell the butterfly data centers on a global basis, not just in North America. ®