Tag Archive for WiGig

| January 17, 2013
Comments Off on WiGig, Wi-Fi Join Forces

WiGig, Wi-Fi Join Forces

WiGig, Wi-Fi Join ForcesWireless Week is reporting that the Wireless Gigabit Alliance (WiGig) and the Wi-Fi Alliance have joined forces. According to the article, the Wi-Fi Alliance and WiGig Alliance have collaborated for over two years on the WiGig Alliance’s work to develop an interoperability certification for 60GHz products.

Wi-Fi Alliance logoWi-Fi Alliance President and CEO Edgar Figueroa said in a statement that the 60GHz technology has been an important highlight in the Wi-Fi Alliance’s certification roadmap for some time. “Combining the expertise of Wi-Fi Alliance and WiGig Alliance will deliver a terrific user experience with 60 GHz solutions, and will help ensure that a full range of interoperable WiGig solutions reach the market as quickly as possible,” Mr. Figueroa said in a statement.

WiGig operates in the unlicensed 60 MHz band and offers short-range multi-gigabit connections with speeds up to 7 Gbps. FierceBroadbandWireless reports that early applications will include ultrabooks and peripherals. WiGig offers short-range multi-gigabit connections for applications ranging from high-definition WiGig Display Extensions (WDE) to peripheral connectivity and I/O cable replacement such as WiGig Serial Extension (WSE), WiGig Bus Extension (WBE), and WiGig SDIO Extension (WDS). Tablets will then include the technology, primarily for media streaming, and smartphones will drive more widespread WiGig adoption from 2015 on according to ABI Research.

60ghz 802-11ad scenarios

Its major limitation is the extremely high 60 GHz frequencies it uses, which limits its connections to near-line-of-sight within a single room. Signals in the 57–64 GHz region are subject to a resonance of the oxygen molecule and are severely attenuated.

WiGig logoEarly 60 GHz implementations based on the WiGig specifications are entering the market now, and ABI Research forecasts that by 2016, annual shipments of devices with both Wi-Fi and WiGig technology will reach 1.8 billion units.

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  • WiFi spec update promises to double your wireless speeds (pcproactive.wordpress.com)

 

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.

Category: Uncategorized | Tags: , , , , , ,
| 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.

Category: wi-fi | Tags: , , , , , , , , , , ,
| February 17, 2010
Comments Off on Wireless Gigabit

Wireless Gigabit

WiGig AllianceThe Wireless Gigabit Alliance has completed specs for a technology designed to deliver as much as 7 Gbps of wireless bandwidth in the 60 GHz band. The new technology, WiGig has the support of technology giants such as Intel, Broadcom, and Atheros. The technology is expected to have enough capacity to deliver high-def video streams up to 10 meters. WiGig’s anticipated road map includes system certifications in 2010 and WiGig based products to market in 2011.

Supplement other wireless technologies

According to the WGA, WiGig is not designed to replace 802.11 or Bluetooth but rather to supplement it. WiGig is a device-to-device (p2p) network and does not need a central hub or router that could easily turn into a congestion point. WiGig uses beamforming to extend its range beyond the 10-meter range and will automatically switch to 802.11n Wi-Fi.  “Our technology is backward compatible with existing Wi-Fi, and we fall back to 802.11n and 802.11g when we can’t connect at [7 Gbps] speeds,” Ali Sadri, told TechNewsWorld. “We’re based on 802.11, so our spec is not replacing Wi-Fi but extending it to 10 to 20 times faster than Wi-Fi.

By complementing Wi-Fi and enabling multi-gigabit speeds, the versatile specification is a very significant achievement on the road to the next generation of wireless LAN products,says Craig Mathias, a Principal with the wireless and mobile advisory firm Farpoint Group.

Integrate WiGig into Wi-Fi chipsets

It is reported that Intel, Broadcom, and Atheros all have plans to integrate WiGig into Wi-Fi chipsets. “Ultimately, the question is how many different kinds of radios do you really need?says Farpoint’s Mathias, “There’s not just competition from Wi-Fi and wireless HD but also cellular technologies such as 3G, LTE or WiMax … A lot of people anticipate 60 GHz products that will include 2.4 and 5 GHz Wi-Fi as well,” said Bill McFarland, chief technology officer of Atheros, and a WiGig member. “I definitely think we can support tri-band at 65 nm,” he added.

WiGig will include protocol adaptation layers to support specific system interfaces including data buses for PC peripherals and display interfaces for HDTVs, monitors, and projectors. WiGig will include advanced security and power management for WiGig devices. “We’re rapidly paving the way for the introduction of the next generation of high-performance wireless products – PCs, mobile handsets, TVs and displays, Blu-ray disc players, digital cameras, and many more,said Doctor Ali Sadri of Intel and president and chairman of the Wireless Gigabit Alliance

The need for fast wireless data transfer plays into two big trends: the proliferation of multimedia and the increasing cable clutter that users have to deal with. “NVIDIA recognizes the general market trend toward wire-free interfaces. Today, display interfaces are at an inflection point where the next generation solutions will feature wireless display connections for PCs, game consoles, notebooks, and mobile devices with PC monitors and TVs,said Devang Sachdev, Technology Marketing Manager at NVIDIA and WiGig Board Member.

60 GHz loses strength quickly

The biggest knock against WiGig is that signals at 60 GHz get absorbed by oxygen, meaning they lose strength quickly. Steel or concrete walls and even people in the room can be degraded or stop the 60 GHz signal. However, Intel’s Sadri says there is a solution. A 60 GHz antenna is just 2.5 millimeters long,  small enough that a lot of them can be packed into even a thin TV set or a mobile handset. Put 32 antennas on the transmitting and receiving ends, and you can send enough steered beams to compensate for the losses the signal experiences over distance.

In the 60 GHz spectrum, WiGig is likely to run into some competition. The IEEE is introducing a follow-up to 802.11n Wi-Fi standards called 802.11ad.  The IEEE 802.11ad standard will also be based on the 60 GHz spectrum but is not expected before 2012.  Mathias says, “The WiGig Alliance hopes to get a head start now and they might submit their standard to the 802.11ad group to be included in the specification.” The Wireless HD consortium also supports a third 60-gigahertz wireless networking plan for uncompressed HD video. Sony and Samsung are backers of all three 60 GHz plans.

It is likely that IEEE 802,11ad and Wireless HD will find it hard to compete against a general-purpose WiGig standard that can do uncompressed wireless HD video and more.

Members of the WGA include:·

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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.

Category: wi-fi | Tags: , , , , , , , , ,
| September 11, 2009
Comments Off on 802.11n Ratified -Yawn

802.11n Ratified -Yawn

802.11n Ratified -YawnToday (09-11-09) the IEEE Standards Board has ratified the IEEE 802.11n™-2009 amendment. This vote ends a seven year effort to, “enable rollout of significantly more scalable WLANs that deliver 10-fold-greater data rates than previously defined while ensuring co-existence with legacy systems and security implementations” according to the IEEE. The 560-page document describing 802.11n will be published in mid-October 2009. Bruce Kraemer, Chair of the IEEE Wireless LAN Working Group said in a press release,

The performance improvements achieved via IEEE 802.11n stand to transform the WLAN user experience, and ratification of the amendment sets the stage for a new wave of application innovation and creation of new market opportunities.

IEEE logoKelly Davis-Felner, marketing director of the Wi-Fi Alliance (WFA), told Network World that “The core interoperability is totally preserved with the [existing] draft certification program.” Ms. Davis-Felner says,  ”Existing draft-11n products should work seamlessly with future products based on the final standard. No existing products will have to be retested in the updated certification program.

Today’s ratification marks the high-point for other 802.11 wireless products. This approval will green-light the development and deployment of 11n products in the enterprise. There is no longer a reason for firms deploying greenfield WLAN’s to roll put anything but  802.11n. The WFA expects 11n shipments to rise to 45% of all 802.11 shipments in 2009. Reaching 60% in 2012 based on data from market researcher ABI Research. But how long will 802.11n last?

WiGig logoNetworkWorld is reporting that Microsoft (MSFT), Intel (INTC) and others have formed the Gigabit Wireless Alliance (WiGig). WiGig is to create anew wireless specification with a data speed of up to 6Gbps. WiGig is also actively involved with the IEEE’s 802.11ad task group. And if WiGig is to slow. James Buckwalter, a professor at the University of California San Diego has developed s a silicon-based amplifier that transmits 10Gbps wireless in 100 GHz frequency bands according to NetworkWorld. Coverage could also be over a kilometer, which beats traditional WiFi‘s 100 meters.

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The formal ratification of the IEEE 802.11n standard is a good thing. However we have recommended that clients seriously consider this technology in greenfield installs with Wi-Fi approved 802.11n since the beginning of the year.

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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 at LinkedInFacebook and Twitter. Email the Bach Seat here.

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