Tag Archive for Data center

| February 7, 2012
Comments Off on Data Centers To Go Wireless

Data Centers To Go Wireless

Data Centers To Go Wireless

MIT’s Technology Review reports researchers from IBM (IBM), Intel (INTC), and the University of California, Santa Barbara have come up with a way to improve data transmission in data centers. Heather Zheng, associate professor of computer science at UCSB who led the research says wireless is the answer to the in-rack cabling mess usually found in data centers. In their paper (PDF), the researchers say that transmitting data wirelessly within a data center would be simpler than rewiring data for tech titans like Google (GOOG), Facebook, or Twitter.

Line-of-sight connections

WiFi radio wavesThe earlier challenge for multi-gigabit wireless in the data center was it required a line-of-sight connection to be useful. Achieving the required data center speed could not happen in the maze of metal racks, HVAC ducts, and electrical conduits that make up most data centers.

TR reports that the researcher’s solution is to bounce 60-gigahertz Wi-Fi signals off the ceiling, which could boost data transmission speeds by 30 percent. Stacey Higginbotham at GigaOm points out that this could result in data transfers up to 500 Gigabits per second. She says current Ethernet cables in data centers are generally 1, 10, or maybe 40 gigabits per second.

60-gigahertz Wi-Fi for servers

Data center ceiling WiFiMs. Zheng and colleagues used 60-gigahertz Wi-Fi, which has a bandwidth in the gigabits-per-second range and was developed for high-definition wireless communications according to TR. However, it has its limitations, says Ms. Zheng. To maximize the bandwidth and reduce interference between signals, it needs to use 3D beamforming to focus the beams in a direct line of sight between endpoints. “Any obstacle larger than 2.5 millimeters can block the signal,” she says in the TR article.

One way to prevent the antennas from blocking each other would be to allow them to communicate only with their immediate neighbors, creating a type of mesh network. But that would further complicate efforts to route the data to the proper destinations, Professor Zheng told TR. Bouncing the beams off the ceiling directly to their targets not only ensures direct point-to-point communication between antennas but also reduces the chances that any two beams will cross and cause interference. “That’s very important when you have a high density of signals,” she says.

Flat metal plates placed on the ceiling offer near-perfect reflection. “You also need an absorber material on the rack to make sure the signal doesn’t bounce back up,” says Ms. Zheng.

Wireless can add 0.5 terabytes per second

Data centerAccording to Technology Review, the UCSB team worked with Lei Yang from Intel Labs in Oregon and Weile Zhang at Jiao Tong University in Xi’an, China, to simulate a 160-rack data center to see how the system might work. “Our simulation shows that wireless can add 0.5 terabytes per second,” she says.

IBM is also looking into using wireless technology in data centers, Scott Reynolds, a researcher at IBM’s T.J. Watson Research Center in Yorktown Heights, NY, who has been developing 60-gigahertz systems told TR. “These data centers are just choked with cables,” he says. “And so every time you want to reconfigure one it’s very labor-intensive and expensive.” But one problem with turning to wireless transmission, he adds, is that “you need to have hundreds of these wireless data links operating in a data center to be useful.” Since 60-gigahertz Wi-Fi has only four data channels, it’s important to configure the beams so they don’t interfere with each other.

Mark Thiele, the EVP of data center technology at Switch CommunicationsSuperNAP data center, told GigaOm that the research is worth following as low-latency networking inside the data center can be a bottleneck today for applications that range from financial trading to trying to move gigantic data sets around.

TR reports Ms. Zheng and her colleagues are now working on building a prototype data center to put their solution into practice.

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Cable mess under a raised floorHaving just done a small data center cleanup, the idea is appealing. We pulled out 2 generations of cabling, IBM Type 1, and a bunch of Cat 3 multi-pair out from under the deck.

Ms. Higginbotham says the choice of 60 GHz for the data center is a smart move. Intel is pushing 60GHz for consumer use, under the WiGig brand (I wrote about WiGig in 2010 here). This means the chips would be cheap.

Some of the possible security issues raised by running Wi-Fi in the data center are tempered by using the 60Ghz range. She says if you are worried about someone standing outside the data center trying to eavesdrop on the data you are transmitting the 60Ghz, signals deteriorate rapidly.

Of course, change is hard and data center guys are going to have to learn wireless and top-of-rack switches would have to get radio cards installed. The Wi-Fi reflective panels would have to be installed on the ceiling of the data center and the servers would need a signal-absorbing surface so the Wi-Fi signals don’t continually bounce around the data center.

Just if you are confused about WiGig, Wi-Fi, and IEEE, EETimes says, “WiGig forged a deal with the Wi-Fi Alliance so its 60 GHz approach can be certified as a future generation of Wi-Fi. The group has aligned its technical approach with the existing IEEE 802.11ad standards effort on 60 GHz.”

Now if only they could do wireless electricity……..

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| June 18, 2011
Comments Off on GM to Build New Data Center in Michigan

GM to Build New Data Center in Michigan

GM to Build New Data Center in MichiganDetroit Michigan based automaker General Motors (GM) will invest $130 million to build an enterprise data center at the GM Technical Center, in Warren, MI reports Data Center Knowledge. According to the article the new data center, the Information Technology Operations and Command Center, will allow GM to cut operating costs. The savings will come from consolidating GM global IT infrastructure into a more efficient facility.

GM said it will renovate and expand the former Cadillac administrative building on its Warren Tech Center campus. Design is underway on the renovation and construction, with the last phase scheduled for completion in 2015. The project is expected to create 25 high-tech jobs. InformationWeek says the state-of-the-art center will allow GM to merge tech operations spread across many sites into a single facility, reduce IT operating costs, and cut energy consumption by 40%. The company expects the data center to meet requirements for Leadership in Energy and Environmental Design (LEED) certification by the U.S Green Building Council.

Michigan to be center of GM IT

DCK reports the new enterprise data center will use a “modular design” to allow for future expansion. Data Center Modular designs often use factory-built structures, but the term is increasingly being used to describe phased build-outs using pods of raised-floor space. The facility will contain IT laboratories to run computer simulations for vehicle designs. It will also serve as a hub for monitoring GM’s digital applications globally. “The Enterprise Data Center will contain technology laboratories and a global information technology operations center that will serve as the hub for monitoring General Motors information technology applications around the world,” GM Vice President and chief information officer Terry Kline told reporters.

GM Enterprise Data Center at Warren tech Center

New GM Enterprise Data Center at Warren Tech Center

This new facility and other GM data centers around the world support the tools the company needs to design, build and sell the world’s best vehicles through digital applications enabling all business functions,” said Mr. Kline. “This investment is possible because of the cooperation between GM, the Warren community, and the Michigan Economic Growth Authority (MEGA). We think the result is a win for everybody involved.

The automaker received a tax credit from MEGA to support the $130 million redevelopment of the computer center. The Warren city council unanimously approved a brownfield redevelopment plan for space at the sprawling Technical Center campus.

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A few years back,  I worked for about 18 months at the Tech Center, at the Vehicle Engineering Center (VEC). The best part of the job was going over to the Cadillac building for lunch. I recall the cafeteria having leather walls and real china with the Cadillac logo.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| March 16, 2011
Comments Off on China Creates Cloud Computing City

China Creates Cloud Computing City

China Creates Cloud Computing CityComputerWorld says that China is employing IBM (IBM) to help it build a city-sized cloud computing center based in northern China’s Hebei Province. The cloud computing center is being built in Langfang, a city between Beijing and Tianjin in the new Langfang Range International Information Hub, IBM spokeswoman Harriet Ip told ComputerWorld. The complex will open in 2016 and be comparable in size to the Pentagon.

IBM will be supplying its data design services, while the Chinese firm Range Technology Development, (Google translation) an Internet data center services provider, founded in 2009, will also be working on the project. There will initially be seven low-slung data centers, spanning up to one million square feet, with room for three more units on either side. There are reports that it includes a residential area, most likely for the staff working at the data centers. A ComputerWorld article says the facility will mainly serve government departments from China’s capital and across the country, but will also be open to banks and private enterprises.

ChinaComputerWorld cites IDC data that says despite such large-scale projects, China’s IT budget is five times lower than the US’s. IDC says China’s IT budget is growing at a higher pace than in the US. The research house days China’s full-year growth for 2011 will be $112 billion, while the US IT market will be $564 billion.

China’s IT industry isn’t that big at this point and “there is a lot of reliance on the vendors” to design data centers, Dale Sartor, an engineer at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory, visited about eight data centers in China last year told ComputerWorld. Mr. Sartor expects to see accelerating data center development in China, particularly involving very large centers delivering cloud services. Large data centers may soon be the norm. DoE, Sator  says,

I got a sense that the cloud is going to be huge in China for both efficiency reasons as well as the ability to control … If everything was cloud computing and the government owns it, it’s much easier to keep your finger on the Internet and other issues than [by using] a very distributed model.

China’s rapid IT growth has been a plus for IBM, which said its growth in that country in 2010 was up 25% over the year before. According to ComputerWorld, IBM’s data-center business in China has tripled in the last four years. In 2010, China overtook Japan as IBM’s second-largest data center market, with the U.S. as the company’s number one market.

In terms of size, the data centers will be among the world’s biggest. The largest known data center complex is a 1.1-million-square-foot facility in Chicago owned by Digital Realty Trust, according to Data Center Knowledge, which has ranked the data centers by size.

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Not the same Cloud City that Lando Calrissian ran.

 

Is your data center that big?

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| July 24, 2010
Comments Off on Cows Can Power Your Next Server Farm

Cows Can Power Your Next Server Farm

ComputerWorld reports that HP (NYSE: HPQ) researchers presented a paper (PDF) on using manure from cows to generate power to run data centers. HP says that manure from dairy farms. cattle feedlots and other “digested farm waste” can be used to generate electricity.

HPHP presented the idea to the American Society of Mechanical Engineers Conference on Energy Sustainability, The researchers believe that biogas from a farm of 10,000 dairy cows could power a 1 megawatt (MW) data center, about 1,000 servers. That is the equivalent of a small bank’s computer center.

Organic matter is already used by farms to generate power. Farmers use a process called anaerobic digestion that produces methane-rich biogas. HP’s paper looks at how the process could be extended to run a data center, starting with the amount of manure produced by your typical dairy cow and working up from there.

Connecting a data center to cows

But there are some practical problems. The first problem is connecting a data center to the cows. “What’s the reality of getting 10,000 cows in one place?” said Angie McEliece, an environmental consultant for RCM International in Berkeley, CA, which makes digester systems. She told ComputerWorld the average size dairy farm in the U.S. includes less than 1,000 cows. farms with 5,000 cows are quite unusual. Farms that now use anaerobic digestion systems to generate electricity and heat typically get some funding from federal and state grants. In such cases, a payback of four years or less on the technology is likely. 10 years is the payback to me without grants, said Ms. McEliece in the ComputerWorld article.

Cows Can Power Your Next Server Farm

HP insists that this is just an idea sketched out on paper by a research team. No demonstration project has yet been planned. “I’ve not yet submitted a purchase order for cows,” said Tom Christian, an HP researcher, in an e-mail to ComputerWorld. “The idea of using animal waste to generate energy has been around for centuries, with manure being used every day in remote villages to generate heat for cooking.

The new idea that we are presenting in this research is to create a symbiotic relationship between farms and the IT ecosystem. The new tech can benefit the farm, the data center, and the environment according to Tom Christian, principal research scientist, Sustainable IT Ecosystem Lab, HP.

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The proposal has energy independence, economic and ecological benefits.

Michigan had 335,000 cows in 2007.  According to the HP researchers, the manure that one dairy cow produces in a day can generate 3.0 kilowatt-hours (kWh) of electrical energy. Michigan dairy cows could produce enough methane to move 366.825 MWh off the grid under this plan. That would be enough electrical power to move all of Facebook’s estimated 30,000 servers off of the grid.

Economic benefits

There are economic benefits as well. Data center operators would have access to a reliable source of clean energy, presumably at a competitive if not lower cost than what’s on the market. Dairy farmers would make money selling electricity to data center customers. HP estimates that dairy farmers would break even within the first two years. They could earn roughly $2 million annually from selling the power to data center customers. Michael Kanellos, at Greentech Media, told the New York  Times that there was some convenient overlap between data centers and biogas generation. “Computing equipment produces a lot of heat as a waste product, and the systems needed to create biogas require heat. So, there is a virtuous cycle of sorts possible.”

Another trend that makes this idea workable is the move to build facilities in rural locations. In areas where high-speed networks are available, they can benefit from the cost advantages of rural areas. Many agricultural areas are also ideal for wind farms. Leading to a second clean energy source that could lead to some economic revival in the U.S.

Alternate energy sources such as these can help prepare for a new round of regulation and taxes. For example the U.S.s’ Waxman Markey bill. Carbon taxes or cap-and-trade systems both in the U.S. and abroad will force companies to measure and report greenhouse gas emissions. Farmers will benefit from the proposed system by accumulating carbon offsets for capturing and reusing methane.

There are also environmental benefits. A system that extracts biogas from manure would cut the hefty environmental impact of animal waste. The HP paper says methane is 21 times more damaging to the environment than carbon dioxide. Additionally, farmers will benefit from carbon offsets. They could be eligible to receive credits for capturing and reusing methane under any future cap-and-trade emissions legislation.

 

Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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