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Every now and then a space rock hits the world's media – sometimes almost literally. Threatening asteroids that zoom past the Earth, fireballs in the sky seen by hundreds of people and mysterious craters which may have been caused by impacting meteorites; all make ESA's planned mission Don Quijote look increasingly timely.
The uncertainty surrounding whether a meteorite impacted in South America recently highlights the need to know more about these pieces of natural space debris and their trajectories. ESA has always been interested in such endeavours and conducted a number of studies into how it might best help.
Those studies showed that it is probably the smaller pieces of rock, at most a few hundred metres across, rather than the larger ones that we should be more worried about for the time being. A worldwide network of astronomers is currently cataloguing most of the larger objects, those above 1 km in diameter. A number of survey telescopes have taken up the challenge to detect as many as 90 percent of all near Earth objects down to a size of 140 metres by around 2020. Only after this time will we know whether space-based observatories will be needed to find the rest.
Part of the trouble with these small chunks of rock is fixing their orbits. From the ground, it is very difficult – sometimes impossible – to determine their trajectory with enough precision to rule out impacts with our planet in the years to come. So, ESA have been concentrating on a mission to actually 'mark a cross' on small asteroids and check the state of the art of our technology. The Don Quijote mission is a project based on two phases. In the first phase, a spacecraft would rendezvous with an asteroid and go into orbit around it. It would monitor the asteroid for several months, precisely determining its position, shape, mass and gravity field.
In the second phase, another spacecraft would slam into the asteroid at a speed of around 10 km/s, while the first spacecraft watches, looking for any changes in the asteroid's trajectory. In this way, a mission involving two spacecraft would attempt to be the first to actually move an asteroid.
In preparation for dealing with small asteroids, ESA's Don Quijote is also starting small. In its current design, the first spacecraft, Sancho, could reach any one of 5 or 6 small, nearby asteroids. Each one is no larger than a few hundred metres in diameter. At present, the mission planners have chosen to concentrate on Apophis, a small asteroid that can swing dangerously close to Earth on the outwards stretch of its orbit around the Sun.
If it becomes a reality, Don Quijote could launch sometime early in the next decade. Sancho would take some 25 months to reach its target. Once there, it would begin its groundbreaking study – both literally and metaphorically.
"The idea is to get the technology ready before you really need it," says Ian Carnelli, Technical Officer for the Don Quijote mission at ESA.
In 1908, a 20-metre asteroid impacted the uninhabited Tunguska forest in Siberia, toppling trees and causing total devastation over an area of two thousand square kilometres. Scientists predict this type of event to occur about every 150 years. Next year's 100th anniversary of that impact will be yet another reminder of the need to learn about and become ready to deal with asteroids – even the small ones.

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http://www.eurekalert.org/pub_releas...-dwt092007.php

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November 12, 2007 is the date.
The processor? Intel's Core 2 Extreme QX9650.
The core? Penryn, 45nm, quad-core - Yorkfield if you want to get codename specific.
Over 800 million transistors, mostly used to create 12MB of L2 cache split among two die, this chip is truly a marvel and of course Intel had it at IDF.

There was no hiding Penryn at this year's IDF; it was in all of the demo machines, it was talked about in great detail during the technical sessions and of course, Intel let us benchmark it. As always, Intel's benchmarks were under controlled circumstances; while we ran the tests ourselves Intel already knew the outcome.
We've already previewed the dual-core version of Penryn, codename Wolfdale. The clock-for-clock performance improvement isn't bad, as we're looking at a range of 5 - 10% increase in performance over Conroe.
Intel had a couple of notebooks setup, featuring mobile-Penryn vs. Merom. Intel let us run a couple of SSE4 benchmarks, both video encoding specific, to showcase some of the best case scenario performance improvements you can expect to see in notebooks.

The notebooks, identical Dells with different CPUs, Penryn left, Merom right

The two systems were configured as follows:

Since both benchmarks take advantage of SSE4, the Penryn performance improvement is significant. We'd expect overall performance improvement to be closer to what we saw in our Wolfdale preview. The power savings courtesy of Intel's 45nm process will be particularly important in notebooks as it directly impacts battery life, so we should see an added benefit of Penryn there. Do keep in mind that mobile-Penryn won't hit until next year, while the desktop Core 2 Extreme QX9650 will be available starting November 12.
Intel's 8-core SkullTrail System

Intel also had its SkullTrail system up, running, and ready to be benchmarked. SkullTrail features two LGA-771 sockets, accepting a pair of special unlocked Penryn processors that use the Xeon socket but have the same core as the desktop processors. According to Intel, with the Core 2 based processors there are slight differences in the hardware prefetchers in Xeon vs. desktop Core 2 parts and thus it is important to distinguish the SkullTrail CPUs as being Yorkfield based (desktop Penryn) and not Harpertown (server Penryn).

The SkullTrail motherboard actually supports NVIDIA's SLI, which is apparently made possible by actually using a pair of NVIDIA MCPs on the motherboard itself. This isn't an SLI licensing deal; this is Intel purchasing NVIDIA MCPs and using them on its motherboard. 2-way SLI is supported today and Intel claims eventual support for up to 4-GPU SLI, depending on whenever NVIDIA releases drivers and product.

The memory technology is still FB-DIMM unfortunately, but the speeds have been bumped from V8 to DDR2-800 now. The motherboard also offers support for a 1600MHz FSB, and the CPUs installed ran at 3.40GHz (quad-core, 12MB L2, two physical chips).

With a total of eight cores there aren't that many desktop benchmarks you can run and actually get good scaling, but Intel managed to pick some that did. The comparison system is a single-socket, quad-core Yorkfield/Penryn on an Intel X38 motherboard running at 3.0GHz/1333MHz FSB. The other key system difference is that the Yorkfield system only has a single GeForce 8800 GTX while the SkullTrail system has two, because it can support them. Intel also outfitted the Yorkfield with 2GB of memory while the SkullTrail had 4GB of memory; while the SkullTrail system should be faster regardless, it wasn't a fair fight from the get-go.


While we will report the 3DMark '06 numbers we ran during our time with the system, it's not entirely a CPU comparison given the dramatic difference in GPU configurations. However, the CPU tests within 3DMark do generally place the majority of the load on the CPU, while the 3D results (which we're not reporting) heavily stress the GPU(s). However, Cinebench and TMPGEnc show pure CPU-crunching 4-to-8 core CPU scaling.

Cinebench R10 performance virtually doubles, while there's a 26% reduction in encoding time in TMPGEnc. If you have the applications to take advantage of it, SkullTrail will give you 8 cores today instead of waiting until sometime in 2008/2009 for octal-core Nehalem.

We're not particularly sold on SkullTrail or any of these enthusiast-class dual socket systems (e.g. QuadFX, Intel V8), the performance is there but we're not sure the usage models are. They may be perfect for workstation users who also want to game on their machines, but other than that specific market we don't see much of a need for even the most demanding enthusiasts. Stressing four cores is tough enough most of the time, making the argument for eight at the sacrifice of price, power and noise is a difficult one.

http://www.anandtech.com/cpuchipsets...oc.aspx?i=3105

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WRT100, WPC100, WMP100 and WUSB100 offer cost-conscious consumers extended coverage
Linksys, a Division of Cisco, the leading provider of VoIP, wireless and networking hardware for the consumer and small business environments, today announced the debut of RangePlus, its newest line of home networking products. The RangePlus family of products is an affordable solution for consumers who are looking to extend the coverage of their wireless network. It includes the RangePlus Wireless Router (WRT100), RangePlus Wireless Notebook Adapter (WPC100), RangePlus Wireless PCI Adapter (WMP100), and the RangePlus Wireless USB Notebook Adapter (WUSB100).
Greater Wireless Network Coverage
The RangePlus family uses Multiple Input, Multiple Output (MIMO) technology to provide greater wireless network coverage. MIMO utilizes signal reflections that can hinder performance in other wireless products to add range and reduce "dead spots" in the wireless network, enabling a wider coverage area. The WRT100 is designed to be teamed with the RangePlus Wireless Notebook, PCI, or USB Adapters, but can provide additional wireless network range when used with virtually any wireless adapter available today.
"Until now, consumers who were seeking to increase the range of their wireless networks were required to use proprietary solutions that could not be used with other technologies or pay a substantial premium for products designed to do much more than they needed," said Mani Dhillon, director, product marketing, Linksys Consumer Business Organization. "With the launch of RangePlus, Linksys now has a full line of wireless networking options that allow the consumer to choose the solution that best meets both their desires and their budget, without sacrificing on either front."
Linksys Easy Link Advisor
Linksys Easy Link Advisor (LELA) is included with the WRT100 to help consumers install and manage their home networks. LELA takes the consumer on an uncomplicated, illustrated journey toward secure home network setup without the need for knowledge of technical jargon such as "SSID", "MAC address", or "WPA". The user simply launches the application on their PC and follows the instructions to accomplish network maintenance tasks, including adding PCs, enabling security, and automatically mapping the newly created network.
Devices such as network printers, IP cameras, or network attached storage, that may have been present on previously installed wireless networks can be easily migrated to the newly created RangePlus-based network using LELA. To further empower the consumer, LELA also includes troubleshooting tools and an easy-to-read list of all network information, including IP addresses and connection status.
Pricing and Availability
Both the WRT100 and WPC100 are available now through Linksys e-commerce resellers at estimated street prices of $99.99 each. The other RangePlus products will be available in the fourth quarter of 2007 from retail, direct response, and VAR partners.



http://news.ecoustics.com/bbs/messages/10381/390459.html

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Hacking Intel: XSS Security exploit with ASP.Net using .RewritePath and Request.RawUrl bypassing ASP.Net native script protection (.Net 1.1 and 2.0)
What is XSS: http://en.wikipedia.org/wiki/Cross-site_scripting XSS also called Cross-Site Scripting is a web based security vulnerability by which a person injects HTML or Client side script code into a web page without the knowledge of the originator of the web page.
Web 2.0 enhanced GUI experiences and RTF editors go hand in hand and the increased support and ability to POST HTML content (and to protect against malign intent) means that XSS becomes a more serious issue on a daily basis. Practically weekly a new hack or workaround enabling a user to inject malign content gets found.

Any web page that can take as input QueryString or POST input like <SCRIPT>alert("hello from script")</SCRIPT> and echo's it back can practically be considered a XSS exploitable site. Other simple variations on this theme are described but another simple one that I will consider here is </SCRIPT><SCRIPT>alert("hello from script")</SCRIPT>

Securing ASP.Net: Typically ASP.Net web page developers rely on one or two mechanisms to prevent XSS issues. The fist layer of protection is found already set on in most machine.config files.

<configuration>
<system.web>
<pages validateRequest="true" />

This is a first level of protection and can be explicitly set in web.config files or down to the @Page level for making allowances of HTML RTF editor posted content. With validateRequest set to "false" we now start to enter the realm of the XSS exploitable web site. From this point on it is would be considered on part of the developer to scan and remove CSS includes, JavaScript:, <script> tags, and more advanced versions like style style="any: expression(window.location=myevilsite.com)" from all submitted content. The developer must also check the content for same origins policy for all allowable HTML to ensure that malign viral images, embed objects etc are stripped out. Quite a tall order for most developers.
For the life of me I have not found a good ASP.Net content scrubber DLL that maintains a same origins policy but my concern extends beyond just page content cleanup.
Rewrite Path XSS Exploit: (perhaps not all that new good to be aware of) This is not a common problem for most web applications but can impact those applications that make use of virtualized URL's to help organize content. I need to throw a little background at you before I lay out the new XSS exploit.
Take for example a blog that wants to organize content by year, month. The old format for posts might take on ShowBlogPostings.aspx?year=NNNN&month=NN which is not very friendly. Using virtualized URL's you can easily create a group view using something like http://../myblog/2007/11/index.html for the base URL which could easily be re-written using an ASP.Net IHttpModule with .RewritePath(SOMEURLHERE) by parameterized calls against the virtualized URL into the original format. So with /myblog/2007/11/index.html we can take out the year and month via some easy expression pattern like /myblog/(.*?)/(.*?)/index.html and call .RewritePath(ShowBlogPostings.aspx?year=$1&month=$2) thus insulating the user and providing better organization of data.

So lets take that URL and malign it to /myblog/(.*?)/(.*?)/index.html?a= </SCRIPT><SCRIPT>alert("XSS Exploited")</SCRIPT> and using the .RewritePath(ShowBlogPostings.aspx?year=$1&month=$2) I echo the Request.RawUrl to the web page and BOOM!

Doing some more isolation work on this XSS exploit to determine why it was getting by I've found that if my re-write path is plain or without QueryString parameters to the page i.e. "ShowBlogPostings.aspx" that ASP.Net responds with a proper error message (A potentially dangerous Request.QueryString value was detected from the client (a="</SCRIPT><SCRIPT>alert("XSS E...") like you would expect. Once the .RewritePath contains QueryString parameters i.e. (ShowBlogPostings.aspx?year=$1&month=$2) then it slips right by. and there will be no error message or issue with the ASP.Net worker engine. Any page that echoes back RawUrl will be in trouble. (ASP.Net FORM ACTION takes on the rewritten URL which is a site virtualization issue but I would skip that here as being out of scope)
Part of the problem was our initial expression in that it only looked for a partial match of content instead of being more explicit and passing on extra parameters. Best code track would be a first pattern of /myblog/(.*?)/(.*?)/index.html?(.*) and only then handling the original pattern of /myblog/(.*?)/(.*?)/index.html. Basically by not passing on all the data the XSS vulnerability was found. With the original pattern the RewritePath call is made .RewritePath("ShowBlogPostings.aspx?year=$1&month=$2"); which tosses out additional parameter data in $3. The context of the original Request.RawUrl is maintained and thus bypass the page validateRequest mechanism without error or incident.
My last thought on this is why one might use RawUrl let alone echo it back into a web page? Request.RawUrl can be tossed into a HIDDEN FORM field for navigation or into a login or logout script links to provide a quick way to get back and forth between web pages. There are as many reasons to use Request.RawUrl as there are developers on the planet, so who's to say?
Developer Response: Don't trust end user data submissions and URL or HTML encode all Request variables (QueryString, Post, Etc..) It's hard to believe that problems like this have been around since 2003 or earlier and they keep cropping back up.
http://weblogs.asp.net/gad/archive/2.../12/37219.aspx
http://weblogs.asp.net/rhurlbut/arch.../04/67684.aspx
Rebuild reflected URL's manually (use the .Net call of System.Uri u = new Uri(someurl); to break the URL apart) on the fly, don't rely upon Microsoft to provide safe data handling either and be paranoid, mistrustful.
Use the Microsoft Anti-Cross Site Scripting Library http://msdn2.microsoft.com/en-us/security/aa973814.aspx for everything.
Use White Lists (allowed) over Black (disallowed) Lists http://www.feedparser.org/docs/html-sanitization.html and know what you will consider safe for your site (in this day and age and localized application sets that might be a tough call to do.) Consider all Request fields that will not contain HTML to encoded. For HTML submittals consider a granularity down to acceptable attribute's and tags to accept and toss the rest, better safe than sorry!
Microsoft's Response: No idea yet. Perhaps this has already been discovered. Will post more on this as I become aware of it.
Conclusion: Though I have not delved into Microsoft's code via Lutz Reflector http://www.aisto.com/roeder/dotnet/ I would think this exploit a principal violation that Microsoft should protect against with validateRequest and that they should fix it. If anyone is aware of a patch or better approach please drop a message here. If you know of a manual way to trigger the validateRequest that would be nice to know as well.



http://softwareblogs.intel.com/2007/...pt-protection/

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Intel Corporation today announced the launch of an open source community project designed to meet the growing demands for increased energy efficiency across the computing spectrum spanning servers in data centers to personal mobile devices.
Unveiled at the Intel Developer Forum by Renee James, corporate vice president and general manager of Intel's Software and Solutions Group, the LessWatts.org initiative brings together the community of Linux developers, OSVs and end users to facilitate technology development, deployment and tuning and sharing of information around Linux power management.
For large data centers, server power consumption imposes limits on a center's growth and has significant financial and environmental costs. In addition to the large data center customers, mobile users are also constrained by power consumption limits as battery space is continually squeezed with the overall reduction in size of mobile devices. In both the server and the mobile markets, Linux operating systems continue to grow in relevance and market segment share.
"We created LessWatts.org to accelerate technology development and simplify information sharing for effective power management across a broad spectrum of devices and industry segments that are utilizing Linux," said James. "A focused initiative that aggregates the disparate efforts into a holistic system and builds on our existing efforts with the industry in the Climate Savers Computing Initiative will serve as a strong catalyst to get energy-efficient solutions into the market segment faster, thereby benefiting the customers who purchase Intel-based products."
The LessWatts.org initiative encompasses several key projects including Linux kernel enhancements (such as the "tickless idle" feature that takes better advantage of power saving hardware technologies), the PowerTOP tool that helps tune Linux applications to be power aware and the Linux Battery Life Toolkit to measure and instrument the impact of Linux code changes on power savings. Additionally, LessWatts.org provides Linux support for hardware power saving features being implemented in current and upcoming Intel platforms.
"Community contributions are a fundamental part of Oracle's* long-standing commitment to Linux and our collaboration with Intel in projects such as LessWatts.org is another proof point," said Wim Coekaerts, vice president, Linux Engineering, Oracle. "LessWatts.org can help customers reduce data center power consumption and make use of the latest hardware technologies, while further advancing the development, adoption and deployment of enterprise Linux solutions."
"In response to customer demand for power savings across their entire IT environment, we've implemented significant features in Red Hat* Enterprise Linux 5 that allow our customers to minimize their carbon footprint," said Paul Cormier, executive vice president of Engineering at Red Hat. "These include virtualization that enables server consolidation and highly efficient resource allocation, and support for the power management capabilities provided by the latest Intel processors. Red Hat continues to work closely with Intel to provide customers with ecologically sensitive solutions, and we look forward to actively contributing to the LessWatts.org project."
"Novell* is working hard to be eco-friendly and customer-friendly at the same time by providing better power management technologies as part of SuSE* Linux Enterprise," said Jeff Jaffe, Novell executive vice president and chief technology officer. "We are committed to helping drive the technology forward as part of LessWatts.org and providing value to our customers by incorporating that technology into upcoming SuSE Linux Enterprise releases."

More information is available at
www.lesswatts.org.

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Toshiba today announced development of the SpursEngine, a high-performance stream processor integrating Synergistic Processing Element (SPE) cores derived from the Cell Broadband Engine. The SpursEngine is expressly designed to bring the powerful capabilities of the Cell/B.E. technology to consumer electronics, and to take video processing in digital consumer products to new levels of realism and image quality. SpursEngine, a co-processor that works in cooperation with a host CPU, fuses Cell/B.E.'s high performance multi-core technology with Toshiba's advanced image processing technology to perform stream processing of video sources--image recognition and processing--at the increasingly sophisticated level required by new generations of digital consumer products. The prototype of Toshiba SpursEngine operates at a clock frequency of 1.5GHz and consumes power at 10 to 20 watts.

The prototype of Toshiba SpursEngine will be unveiled at CEATEC JAPAN 2007, at Makuhari Messe, Japan, from October 2nd. Notebook PCs integrating SpursEngine will be used in the world's first public demonstration of the processor's capabilities in 3D image processing and manipulation: real-time transformations of hair styles and makeup that instantaneously recognize and process changes in position, angle, and facial expression, and render them as computer graphics.Toshiba will bring SpursEngine to market after CEATEC, for application in various digital consumer products, and for use by customers and Toshiba itself, as soon as it completes specifications for commercial production.


http://www.fareastgizmos.com/computi...japan_2007.php

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Google's plan for world domination. Also why the iPod Classic sucks.

I wrote a few weeks ago about Google’s attempt to influence the rules for redeployment of the 700-MHz radio band in the U.S. for voice and data applications. Google said it would agree to pony up the $4.6 billion auction reserve price if only the FCC would first guarantee to force any eventual winner to keep the frequencies open in a variety of Google-defined ways — ways that were decidedly unpopular with incumbent U.S. mobile operators. It seemed to me to be lunacy for Google to deliberately po the mobile carriers if it wasn’t going to spend the big bucks to actually WIN the auction. But what if Google DOES plan to spend the big bucks and win the 700-MHz auction? What would they do with it? I now think I know.
Google didn’t get what it asked for from the FCC, which opted for a different definition of “open,” promoted by the FCC commissioner. The commissioner’s definition of “open” was also opposed by the incumbent carriers and, in fact, Verizon is apparently taking the issue to court, but I think they doth protest too much. The carriers can probably live with the existing auction rules. Fighting them in court is intended as much to signal Verizon’s determination to win the auction as it is to actually overturn the auction rules. The last thing Verizon wants is for Google to enter the auction AT ALL, because doing so can have only two consequences, neither of them good from the perspective of the telcos: 1) Google might actually win the auction and impose the very rules it tried earlier to get with the FCC, and; 2) the mobile carriers might still win the auction but Google’s involvement would cause them to bid much more for the spectrum than they otherwise might.
Google could make it VERY expensive to hold together the existing U.S. mobile phone oligarchy.
Remember that none of the existing U.S. mobile phone companies is currently lacking in bandwidth. They would love to own the 700-MHz band if they can do so cheaply, but they don’t apparently have any real intention to USE it, which would mean building out a whole new infrastructure at the cost of several billion dollars. They just want to bank the spectrum and keep it away from Google.
It seemed to me that the greatest impediment to Google actually spending the big bucks to win the auction (they could clearly afford it) is that the mobile phone and data businesses aren’t as profitable as Google’s own search and advertising businesses, which means making such a move would hurt Google’s earnings and be a drag on the price of its shares. This seemed to be the difference between Google posturing and Google actually doing something.
But then this week Apple began to bluster about entering the 700-MHz auction, which makes even less sense. Could this have something to do with Google? Like a lot of other pundits, I keep facing the fact that Google CEO Eric Schmidt is on the Apple board and expecting that association to manifest itself eventually in some form of product or service alliance, but that has yet to happen. Could this finally be the time? Apple AND Google have together more money than anyone except God, Warren Buffett and Bill Gates. Could the two companies be intending a joint bid of such grand proportions as to guarantee a win? And if they did, what way could they find to use the spectrum that wouldn’t be a drag on Google’s earnings after all?
So I thought and I thought and I came up with what you are about to read. As usual this is just guessing on my part, but I’m a pretty good guesser.
To start, I don’t think Apple will actually bid with Google or even against Google in the 700-MHz auction. It would overcomplicate the five-year iPhone deal between Apple and AT&T - a deal that is already strained by the rise in third-party iPhone unlocking tools. (What was the chance Apple didn’t see those coming? Zero.) While it is possible that Apple would deliberately go against AT&T because Apple is, well, Apple and likes to stir things up, I think there are limits to how much Hell Steve Jobs is willing to raise in the wireless space given the string of global iPhone deals he is still putting together. And Steve is cheap, too, meaning that he might not see this as a good use for Apple’s free cash.
Besides, Apple has enough trouble on its hands with the new iPod classic, which doesn’t work very well at all and is going to shortly create some PR problems for Apple. Rather than actually being a legacy device as the name implies, the iPod classic uses new innards and the software is creating headaches for early users.

The complaints I am hearing about the new iPods classics are (in no particular order):

* VERY Slow menu switching response
* Display of clock rather than song info when “Now Playing”
* Inability to use existing AUTHORIZED 3rd party dock products (including Apple-advertised)
* Audio skipping during operation
* Slow connection to Macs and PCs
* Inability to disable “split-screen” menus
* Lagging and unresponsive Click Wheel
* Camera connector not working
* Inability to use EQ settings without skipping and distortion

This product was clearly shipped before it was ready, so we can expect a significant firmware upgrade Real Soon Now, especially since the iPod classic is now Apple’s ONLY solution for users who want to store more than 16 gigabytes worth of songs, pictures, TV shows, and movies.
So Apple will have its corporate hands full between now and Christmas, which is yet another reason why I seriously doubt the company will be involved in 700-MHz auction action. Apple’s current rumblings about the 700-MHz band are more likely Jobs helping Schmidt. If the mobile carriers interested in the 700-MHz band think that it might cost them $16 billion rather than $6 billion to win the auction, they might not bid at all, allowing Google to get the property for less than it might have had to pay in a contested auction. At some price the deal becomes uneconomic for the mobile carriers and, given their small minds and squinty eyes, they’ll see it as uneconomic for Google, too. “Let Google take the fall,” they’ll think.
But Google won’t be falling.
The huge expense of buying the 700-MHz band and building out the infrastructure could be made a lot less huge if Google didn’t have to build out the infrastructure. No traditional mobile company could get away with this, but I think Google could.
I have written about nearly all the individual parts of this before and even wrote a column putting it all together, though as my idea, not Google’s. Maybe they have been reading me after all.
First let’s start by looking at the infrastructure Google has already built or committed to building — the largest fiber backbone in the world and the largest and most widely distributed data center build-out in the world. Both are FAR in excess of Google’s current or even future requirements UNLESS they are also intended to work with a massive 700-MHz wireless network.
Imagine a hybrid wireless broadband mesh network using 700-MHz connections for backhaul and some truly mobile links and WiFi for local service. Google has enough experience with WiFi in Mountain View to know that it isn’t, by itself, a good solution for wide area networks. The key failing of metro WiFi networks is backhaul to the Internet backbone. But if Google used its 700 MHz band for that AND implemented it as a true mesh network, there would easily be enough capacity to serve almost any size network given a suitable number of backbone connections.
You can find my old column about just such a network in this week’s links.
Google has experience, too, with hybrid wireless networks. Every Google employee has the chance to take a company bus to work and every Google bus has an EVDO-to-WiFi bridge so Googlers can surf the net on their way to work.
It would be really cool if this Google hybrid network was truly flat and could be maintained entirely within a single address space like, for example, the 76 billion billion billion IPv6 addresses Google already owns. The sudden existence of a massive IPv6 network would throw other ISPs into a tizzy and quickly drag the rest of the net into the 21st century, something else I could see as a Google ambition.
Finally, what links all of this together is something else I wrote about long ago — the Google Cube. This is an access device that contains 700-MHz and WiFi radios, a tiny Linux or Linux-likeserver, and a few gigs of flash RAM memory cache. It’s these Google Cubes that will mesh together, acting as both WiFi access points and 700 MHz mesh backhaul devices. Throw in some local caching, video preloading, and truly local DNS service and suddenly you have a pretty substantial network infrastructure that is not only massive and self-healing, IT IS ENTIRELY PAID FOR BY CUSTOMERS. All Google needs to provide are several thousand points-of-presence (cell towers) to connect the local mesh to the Internet backbone.
Google couldn’t do this with WiFi alone, but with 700-MHz meshing and backhaul they could make it work fairly easily and the entire network could be deployed in a couple months.
For those who can’t think past search, imagine this also as Google’s key to dominating local- and location-based search.
Forget about net neutrality and forget about making nice-nice with broadband ISPs OR phone companies. Google would overnight become the largest U.S. ISP with direct and very high-performance access to its customers, including those using the new Google Phone or any other phone that supports WiFi connections, like the iPhone and many others. Google becomes the biggest and lowest-cost ISP and potentially the biggest and lowest-cost mobile phone company in the bargain.



http://www.pbs.org/cringely/pulpit/2...14_002928.html

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Scientists who dream of shrinking computers to the nanoscale look to atomic spin as one possible building block for both processor and memory, yet setting the spin of an atom, let alone measuring it, has been a challenge.
Now, University of California, Berkeley, physicists have succeeded in measuring the spin of a single atom, moving one step closer to quantum computers and "spintronic" devices built from nanoscale transistors based on atomic spin.
topographic map of a supercold copper surface with cobalt islands interspersed
A topographic map of a 4.8 Kelvin (-451ºF) copper surface with cobalt islands interspersed. The colors represent height above the copper in nanometers – billionths of a meter. Green specks on the islands are iron "adatoms," while iron adatoms on the copper surface appear blue. The map was obtained with a scanning tunneling microscope with a spin-polarized tip, an instrument that at the same time measured the spin of each iron atom. (Michael Crommie/UC Berkeley)
"From a technical point of view, this demonstrates a new ability to engineer, fabricate and measure spin-polarized nanostructures at the single atom level," said Michael F. Crommie, UC Berkeley professor of physics. "Now that I can see an atom's spin, I can ask, 'What can I do with that atomic spin? Can I manipulate it? Can I use it, change it?' This means we can now start incorporating it into other structures."
Crommie and his colleagues at UC Berkeley and the Center for Computational Materials Science (CCMS) at the Naval Research Laboratory in Washington, D.C., recently reported their success in the journal Physical Review Letters.
At the core of today's digital computers are billions of tiny transistor circuits that, because they can exist in two states, are used to represent the binary digits, or "bits" 0 and 1, which are the basis of all computer manipulations.
As researchers seek to reduce the size of digital computers, they have been searching for nanoscale materials that can do digital duty, one of them being a single atom whose outer unpaired electron can be in either of two spin states - up or down.
While researchers previously have been able to deduce the spin polarization of an atom in a surface or thin film where the atoms are packed together and the spins are in an orderly arrangement, no one had been able to directly measure the polarization of an individual "adatom" spin until now. Adatoms are atoms that sit on top of a surface and are not incorporated into it.
Crommie, UC Berkeley post-doctoral fellow Yossi Yayon and graduate student Victor W. Brar succeeded by creating islands of cobalt atoms on a cold copper substrate (4.8 Kelvin, or -451 degrees Fahrenheit) and sprinkling these islands with atoms of either iron or chromium.
Employing a relatively new technique called low-temperature spin-polarized scanning tunneling spectroscopy - essentially a scanning, tunneling microscope that can probe the spin and energy-dependent electron density of a surface - they were able to determine the spin of isolated adatoms atop these cobalt nanoislands.
"These magnetic islands are teeny tiny nanomagnets, but from the single-atom perspective they are just large fixed ferromagnets, like a refrigerator magnet," Crommie said. "We took individual atoms and coupled them to these large magnets so we could fix the direction of the spin of an atom and it would stay put."
Crommie's CCMS colleagues, Steve C. Erwin and post-doctoral fellow Laxmidhar Senapati, calculated that in such a situation, iron atoms would assume a spin state parallel to the spins of the atoms in the cobalt island, while chromium would assume an anti-parallel spin, which is exactly what the researchers found.
How spins couple to one another is an important question for a quantum computer, because in a practical device, the spin of an atom would be quantum mechanically intermingled or "entangled" with the spin of other atoms, manipulated in some sort of calculation, and then disentangled to obtain the result. Understanding such interactions also are critical in spintronic devices, where the spin of atoms is used to control the flow of spin-polarized electrons in a circuit.
"We are clearly not yet in a useful regime for quantum computation because the spins we are looking at are very strongly coupled to the environment," Crommie said. "Nevertheless, this measurement is very useful because it shows that we can observe the spin of these atoms and then start to understand the physics of how the surface is influencing the spin of individual atoms. We hope to next control the spin - that is where we are going with this."
This work was supported in part by the National Science Foundation, the U.S. Department of Energy, the Office of Naval Research and the National Research Council.


http://www.berkeley.edu/news/media/r.../12_spin.shtml

[bbmf]

A new fabrication technique, known as soft interference lithography, or SIL, offers many significant advantages over
existing techniques, including the ability to scale-up the manufacturing process to produce devices in large quantities.

A cheaper, faster process way of making nanomaterials.


An innovative and inexpensive way of making nanomaterials on a large scale has resulted in novel forms of advanced materials that pave the way for exceptional and unexpected optical properties. The new fabrication technique, known as soft lithography, or SIL, offers many significant advantages over existing techniques, including the ability to scale-up the manufacturing process to produce devices in large quantities.
The research, funded by the National Science Foundation (NSF) and led by Teri Odom of Northwestern University, appears as the cover story in the September 2007 issue of Nature Nanotechnology.
The optical nanomaterials in this research are called 'plasmonic metamaterials' because their unique physical properties originate from shape and structure rather than material composition only. Two examples of metamaterials in the natural world are peacock feathers and butterfly wings. Their brightly colored patterns are due to structural variations at the hundreds of nanometers level, which cause them to absorb or reflect light.
Through the development of a new nanomanufacturing technique, Odom and her co-workers have succeeded in making gold films with virtually infinite arrays of perforations as small as 100 nanometers--500-1000 times smaller than a human hair. On a magnified scale, these perforated gold films look like Swiss cheese except the perforations are well-ordered and can spread over macroscale distances. The researchers' ability to make these optical metamaterials inexpensively and on large wafers or sheets is what sets this work apart from other techniques.
"One of the biggest problems with nanomaterials has always been their 'scalability,'" Odom said. "It's been very difficult or prohibitively expensive to pattern them over areas larger than about one square millimeter. This research is exciting not only because it demonstrates a new type of patterning technique that is cheap, but also one that can produce very high quality optical materials with interesting properties."
For example, if the perforations or holes are patterned into microscale "patches," they show dramatically different transmission behavior of light compared to an infinite array of holes. The patches appear to focus light while the infinite arrays do not.
Moreover, their optical transmission can be altered simply by changing the geometry of perforations rather than having to "cook" a new composition of materials. This feature makes them very attractive in terms of tuning their behavior to a given need with ease. These materials can also be superior as optical sensors, and they open the possibility of ultra-small sources of light. Furthermore, given their precise organization, they can serve as templates for making their own clones or for making other ordered structures at the nanoscale, such as arrays of nanoparticles.
"The work of Professor Odom is an outcome of a grant mechanism at NSF called Small Grants for Exploratory Research that is aimed at exploring high-risk, high-payoff ideas that are potentially transformative to the field said Harsh Deep Chopra, director of NSF's Metals Program in the Division of Materials Research. "The early results are encouraging and suggest the potential for a new generation of optical devices." This work is supported both the Metals Program and the Materials Research Science and Engineering Centers Program in the Division of Materials Research at NSF.


http://www.nsf.gov/news/news_summ.js...110041&org=NSF

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VANU BOSE is the son of a fabled engineer, but he garnered no mercy when he presented his big idea at a technical conference in 1996. Mr. Bose’s graduate work at M.I.T. involved using software to handle the radio function in a cellular phone. He remembers that after he successfully demonstrated his technology, an audience member stood up and dismissed it with: “Congratulations! You’ve just invented the world’s most expensive cellphone.”
Mr. Bose, a personable man, shrugged off the criticism. He expected that over time, the increasing processing speed of chips would make such phones much cheaper.
But he didn’t want to make the phones. He wanted to remake the wireless base station, the guts of the world’s cellular networks, by changing them from complex systems that incorporate hardware, software and the electronics needed for wireless communications into systems run primarily with software.
Most of us don’t think of our cellphones as radios, but they are. Any wireless device uses a radio. Figuring out a way to operate the radio with software has obvious potential advantages: for one, it’s easier and cheaper to upgrade software than it is to send field technicians to cellular towers to add components. And a software-based radio — the industry calls it software-defined radio — could handle multiple cellular signals at the same time, the way a computer can run a browser, a word processor and a spreadsheet all at once.

So, in theory, letting cellular companies accommodate new spectrum or technologies by doing software upgrades could expand coverage and services while possibly reducing what we pay for them.
That promise prompted Mr. Bose to start a company in 1998, while he was still in graduate school. He called it Vanu Inc. (The family surname was already in use: his father, Amar, had founded the Bose Corporation in 1964.)
The company bumped along primarily on military contracts for developing software-based radio devices. (The armed forces typically use different kinds of radios but need them all to talk to one another, which has prompted two large research projects, Speakeasy and the current Joint Tactical Radio System.) Then, as cheap semiconductor technology caught up with the needs of his software, he was able to pursue commercial markets. He now has several customers for the company’s AnyWave wireless base stations for cellphone networks.
Mr. Bose is not the first to pursue converting radios to software. The idea had been developed in the late 1980s, and Joseph Mitola, an engineer now at the Mitre Corporation, a research organization, is credited with being the first to discuss an effective software radio architecture, at a conference in 1991.
Well-established companies like Motorola and Ericsson now use elements of software-defined radio for their base stations. But Mr. Bose was the first to come to market with software that could handle multiple networks with the same equipment.
Software radio appears to offer an elegant solution to what has been a vexing problem: how to have a single handset, like a cellphone, communicate across multiple networks.
For instance, the G.S.M. standard, for global system for mobile communications, is used broadly in Europe, and most notably in the United States by AT&T. But it does not work with phones built for the C.D.M.A. standard, for code division multiple access, that is used in the United States by Verizon and others and is popular in South Korea.
So, as a Verizon cellphone user, when I spent several weeks in England this summer, I was instructed to rent a phone from Vodafone. It took several attempts over several days to get my calls to forward from my Verizon number, and I paid for two phones for the better part of a month.
Mr. Bose’s software makes it possible for the network to switch modes automatically. While the AnyWave Base Station still includes components like wireless transmitters and receivers, the company ultimately would like to focus on selling its software to other businesses that build base stations.
That would position Vanu to become “the Microsoft of the wireless base station industry,” said Bruce Sachs, a general partner at Charles River Ventures, which recently put money into an $8 million funding round for Vanu.
Mr. Sachs says that the market for base stations is worth billions of dollars by itself and that as cellular operators upgrade over time to technologies like WiMax or H.S.D.P.A., for high-speed downlink packet access, wireless markets worldwide will be open to Vanu.
There is also potential for markets that are just emerging, like that for “femto cells.” (In mathematics, a femto is a quadrillionth.) The cells will plug into a power outlet and bolster cellular coverage for a home or business. But that is in the future: Ian Cox, an analyst at ABI Research, projects that the market for software-based radio won’t start to boom until 2012.
THE present is more modest, and it rests in rural markets like De Leon, Tex., home of Mid-Tex Cellular, Vanu’s first commercial customer. Toney Prather, the chief executive of Mid-Tex, said he was intrigued by the technology because the company makes a good deal of its money from roaming charges for people who aren’t already its customers, and Vanu would give him a way to add more networks without having to add expensive base stations.
He first used Vanu’s software to upgrade his existing network to G.S.M., and in the next few weeks he intends to add C.D.M.A.
Rural cellularization may not sound like much, but Mr. Bose is a follower of Clayton M. Christensen, the management guru, who also happens to serve on Vanu’s board. Mr. Christensen told him that the best place to start a new business is where there isn’t yet an established market. So Vanu is starting a project, its largest yet, in Alaska, and is involved with I.B.M, on a demonstration for a project to bring villages in India onto the cellular network.
No longer, then, is Vanu Bose building the world’s most expensive cellphone. In fact, he may help make the cellphone possible everywhere.


http://www.nytimes.com/2007/09/23/te...rssnyt&emc=rss

[bbmf]

While drivers are accustomed to using traffic reports to assess road conditions, pedestrians who navigate cities are typically left without aid to determine the best route. But researchers at the Massachusetts Institute of Technology using wikis and the Semantic Web look to change the way people map and navigate their cities.
The Wiki City project, run by MIT's SENSEable City Laboratory, aims to apply wiki technology to the map-making process. The project's ultimate product will permit anyone to upload content to a map and utilize Semantic Web principles to cross search multiple layers of information.
Wiki City Rome, an early incarnation of the project's user-generated maps, used GPS (Global Positioning System) and cell-phone data to produce a real-time map during an all-night festival held in the city on Sept. 8. A Web site featuring a satellite image of Rome displayed event locations and the position of buses and pedestrian traffic in real time. Buses equipped with GPS devices fed their locations to the project every minute while cell-phone data was constantly received to show how crowds were moving around the city. An image of the map was also projected in one of Rome's main squares.
"If people know about the state of their environment in real time (as opposed to a static map), they can make better informed decisions about how to move about in the city which in term increases efficiency," Kristian Kloeckl, one of Wiki City Rome's team leaders, wrote in an e-mail interview.
Wiki City Rome served as an initial step in the Wiki City project. Future projects involve introducing the wiki city concept to other cities that have partnered with the SENSEable City Laboratory. The list currently includes only European cities because their public transportation networks and outdoor spaces correspond with the project's aim of studying how people react and move about in public spaces, Kloeckl said. But the project is applicable to non-European cities, he said. He mentioned that a Boston area furniture company is interested in placing displays in their products that would show a wiki city map.
Wiki City reseachers ultimately want to introduce full wiki concepts to the project and allow any person or business to upload information to a map, Kloeckl said. The wiki method of permitting anyone to add any information lends itself to fraudsters. One possible resolution involves introducing a ranking system similar to the one eBay Inc. uses with sellers.
"Users supply the rankings. The system is completely independent. People gradually acquire reliability. This approach would be the most coherent for this type of structure," Kloeckl said in a telephone interview.
Wiki City wants to combine different levels of data that, when searched, provide an answer incorporating each level of data. In Kloeckl's vision of a person using a full-featured wiki city map, a runner would use the map to search for a jogging course based on a city's traffic and air quality as well as the runner's health.
"Now making these layers intersect in a meaningful way should give you a proposal of a jogging path that corresponds to your combined query," Kloeckl wrote.
Kloeckl also provided another example in which a person would use a map to locate a store with a specific bottle of wine and plot a course from the store to a friend's home.
Some challenges remain before a real-time map helps people navigate their cities.
While obvious devices to display a wiki city map include cell phones, PDAs (personal digital assistants) and smartphones, Kloeckl also wants more utilitarian structures, such as bus stops, to offer access to the maps.
"Everyone is familiar with a bus stop," he said. "So it's using the data with objects people are familiar with."
User interface issues also require additional thought, Kloeckl said. While users need to access the information with ease, uploading that data to the wiki also requires a simple method, Kloeckl said. He noted that the upload system must require little time and effort since some of the content will come from people who are moving around a city.
Finally, the data layers need to be arranged in such a way that a search produces pertinent results. Solving this problem involves further developments in the Semantic Web, an evolving component of the Web being developed by the Worldwide Web Consortium. The Semantic Web aims to take data and apply standards that allow computers to play a greater role in locating, finding and presenting information. This will permit computers to understand the standards and produce more contextual search results.
"We need information that is time and place relevant so it can be queried on a semantic structure," Kloeckl said. "We need a way to structure data so it can be cross queried."
Pedestrians may eventually turn to interactive maps to avoid the masses or catch a bus, at the same time that their movements become part of the map's display.


http://www.ecoustics.com/pcw/news/137274

[bbmf]

Frame Rate Converter includes on-board Picture Management and Scan Converter




Toshiba America Electronic Components, Inc. (TAEC), a committed leader that collaborates with technology companies to create breakthrough designs, has announced the latest addition to its portfolio of digital TV (DTV) semiconductor solutions. The TC90240XBG device integrates a scan rate converter to upgrade standard 60 Hz signals to 120 Hz, greatly improving the blurry motion sometimes seen during fast-paced action scenes in high-definition content. LCD TV OEMs can easily integrate this new part into existing 60 Hz panel designs to quickly bring 120 Hz-capable LCD TVs to market.

According to Shardul Kazi, vice president of the ASSP Business Unit at Toshiba America Electronic Components, Inc., "Traditionally, TVs have displayed images using a refresh rate of 60 Hz. However, in fast paced content like action scenes and sports, motion can often appear blurred. This new product addresses the problem by converting conventional 60 Hz frame rates to 120 Hz, reducing blur when displaying 1080p high-definition content. Furthermore, the device uses a simple I2C interface so LCD TV manufacturers can easily accommodate the TC90240XBG in existing 60 Hz TV designs."

The TC90240XBG uses low-voltage differential signaling (LVDS) connectivity to take the 60 Hz video signal from an LCD TV's MPEG decoder, and using a combination of motion estimation and motion compensation, builds the additional frames needed to drive an LCD panel at a 120 Hz refresh rate.

Additional features of the TC90240XBG include:

* Interpolated frame generation using motion estimation and motion compensation
* De-judder of film material
* Picture management :
Color management
RGB gamma correction
Frame rate control dither
Edge enhancement
* Integrated DDR-2 memory controller
* Input " LVDS 8- or 10-bit WXGA or 1080p signals in RGB, YCbCr or YPbPr format at 50/60 Hz
* Provides RGB to YCbCr function at input signal
* Output - LVDS 8- or 10-bit WXGA or 1080p signals in RGB, YCbCr or YPbPr format at 100/120 Hz
* YCbCr to RGB function at output signal
* I2C programming interface
* Internal PLL for clock generation
* PBGA-564 31mm x 31mm with 1 mm ball pitch
* Built-in memory controller supports DDR-2 at 533 MHz data rate

Pricing and Availability
Samples are available now and the device is in full production. Samples of the TC90240AFG are priced at $30.
For a product brief, please visit: http://www.toshiba.com/taec/componen...Frme_ProdB.pdf



http://www.automotivedesignline.com/...line_autodlRSS

[bbmf]

ntel Corp. announced it is working with a handful of companies on a specification that could push the USB's theoretical throughput beyond 4 Gbits/second, ten times its current rate. The USB 3.0 spec aims to deliver 300 Mbytes/second of usable data at the applications level and add new quality of service capabilities that could challenge the 1394 interconnect also known as Firewire.
At their inception in the early 1990's, USB aimed at keyboards and mice with a 1.1 spec running at less than 12 Mbits/s. Firewire targeted audio and video applications such as camcorders at 100 Mbits/s and faster.
But over time USB has seen widespread adoption and swung to speeds approaching 480 Mbits/second while Firewire has been much less broadly adopted. With the latest move announced at the Intel Developer Forum here USB aims to leapfrog Firewire.
Aiming at long term expandability, Intel engineers have tested a basic version of the new protocol in software simulations at 5 and 25 Gbits/second, said an Intel engineer. The link is media agnostic and will run over copper and optical cables.

The interconnect, also called SuperSpeed USB, aims to serve any flash-based device including USB drives, camcorders and media players. One design goal is to keep abreast of the transfer speeds of flash chips.
"We don't want to be the bottleneck in the system," said Jeff Ravencraft, an Intel executive overseeing the USB 3.0 initiative.
Hewlett-Packard, Microsoft, NEC, NXP and Texas Instruments are helping define the new spec which will be put up for a design review at a two-day event in San Jose in November. Intel said the group will issue a call for contributors to the final spec soon. It hopes to finish the spec early next year and see first silicon implementing it emerge in early 2009.
USB 3.0 will adopt a new physical layer using two channels to separate data transmissions and acknowledgements to hit its higher speed targets. In place of the polling and broadcast mechanisms used in USB today, the new spec will employ a packet-routing technique and only allow data transmissions when end devices have data to send.
The new link also will support multiple flows per device and is capable of maintaining separate priority levels for each flow. The capability could be used to end interrupts that cause jitter in video transmissions. The flow mechanism also can enable native command queuing to optimize disk drive traffic.
Proponents said USB 3.0 could supplant Firewire which they said is losing backing from companies such as Sony who have switched to USB 2.0 for products such as camcorders. "Most people see 1394 as declining," said Masami Katagiri, a senior engineering manager helping define USB 3.0 at NEC Electronics America Inc. (Santa Clara, Calif.)
"It seems like a big jump for them and such a different approach that it could be a challenge to get silicon out in early 2009," said James Snider, executive director of the 1394 Trade Association that defines Firewire.
A variety of products, including many external hard disk drives, are now using 1394 to deliver connections offering a maximum physical layer throughput of 800 Mbits/second. The group hopes to finish a spec early next year to push that to 3.2 Gbits/second, Snider said.
The new speed grade will continue to use the same cables and connectors defined for the current 1394b standard. Those cables and connectors have been rated for speeds up to 10 Gbits/s. The trade association is reviewing proposals for a 10G Firewire spec, he added.
Apple Inc. has been invited to join the USB 3.0 promoters group but has not yet responded to the invitation. Apple has been a longtime supporter of Firewire which it uses in all its iMacs for media applications currently beyond the reach of USB.
Katagiri of NEC said Apple could be forced to switch from Firewire to USB 3.0since Intel is now its major silicon supplier and will be using USB 3.0 eventually in its chip sets.
Nevertheless, USB 3.0 has its challenges. Katagiri said the spec probably will have to reduce the five-meter reach of USB 2.0, perhaps to as little as two meters. In addition, host controllers will have to have significantly more intelligence because they manage routing of data transmissions.
On the other hand, the USB 3.0 group is looking at new techniques for supporting isochronous data transmissions that could provide an edge over features found in Firewire, he added.
For its part, the 1394 has been studying use of Firewire over distances as great as 100 meters on Category 5/6 cable and optical fibre, Snider noted. It is also exploring versions for use in the home and car over coax cables.
Whether the USB group can leapfrog the throughput, quality of service and time to market of 1394 remains to be seen. Many of the same participants running the USB 3.0 initiative also oversee the wireless USB work based on ultrawideband.
"We have a lot on our plate," said Ravencraft who leads both efforts for Intel.
The wireless USB initiative announced today its targets for a version 1.1 of its specification. The new version raises throughput targets from 480 Mbits/second to 1 Gbit/second over three meters.
Katagiri of NEC said the throughput targets are a stretch because most companies are still shipping first-generation wireless USB devices only hitting rates of 40 Mbits/second.
"We have to make the protocol more efficient," Katagiri said. "If we go for a Gbit we will need to deliver at least 500 Mbits/s," he added.
The 1.1 spec will support band groups at 6 GHz and above in addition to the 3-4 GHz bands supported by wireless USB 1.0. It aims to lower power consumption by an undisclosed amount. It also will adopt the techniques of near-field communications for letting two devices identify themselves to each other with a simple contact.
Currently the USB Implementers Forum has certified a handful of notebooks and hubs for the 1.0 spec. The WiMedia Alliance is expected to certify the first 1.0 products shortly.


http://www.digitaltvdesignline.com/G...1807831&pgno=2

[bbmf]

Gianfranco Lanci fields questions from U.S. journalists at Madrid press event.

(Madrid) For most of the three hundred or so technology reporters here for Acer's Global Press Conference, this meeting is simply another annual update on the world's fourth largest PC company. In the U.S., however, Acer has long maintained a relatively low profile. So when American journalists from the U.S. and Canada talked over lunch with Acer president Gianfranco Lanci, most of the questions related to the Taiwanese company's planned acquisition of Gateway, the U.S.'s fourth largest computer manufacturer -- a buyout that promises to dramatically raise Acer's profile in the U.S. market.
During a speech earlier in the day's schedule of events, Lanci had appeared to say that with Gateway's sale of its professional division to MPC, the Gateway brand would be exiting direct sales and would be marketed only through resellers. That would be major news, considering that the venerable Gateway brand is second only to Dell as a name associated with direct sales of PCs.
At lunch, he clarified this statement, explaining that most, but not all Gateway sales will be through resellers: "Online sales are small...but in the U.S. for sure we will maintain this part. It's nice, but small." Overall, Lanci, who heads a company that has found success by catering to the needs of resellers, spoke guardedly about direct marketing, saying that as PCs become more commoditized, the direct sales model becomes less efficient.
He seemed happier talking about the Gateway deal's impact on the American reseller market, which is dominated by Hewlett-Packard through its HP and Compaq brands. Resellers, he said, "don't like to deal with one big guy -- they need three or four choices with the same capability and size."
"We're talking to customers," he said, speaking of resellers who currently sell Gateway PCs, as well as those who sell products from Packard Bell, the defunct American brand that is still prominent in Europe and which will become part of Acer as result of the Gateway acquisition. "For them, it's not going to change much, except they're dealing with a big company...that can guarantee delivery. When you play with a small company you always have doubt.
When asked about Acer's reputation for making PC buyers happy by aggressively driving down prices and forcing competitors to respond in kind, he laughed and declined to accept responsibility. "This market by definition is competitive -- you'd never admit that you're the first [to cut prices]. It'll continue, whether it's us, HP, or Dell -- I've never seen prices go up in the last twenty-five years."
With the acquisition, Acer will control four major PC brands: Besides Acer, Gateway, and Packard Bell, it will pick up eMachines, a brand bought by Gateway in 2004. How will they coexist? Lanci said the brand breakdown will vary by market. In the U.S., the company will focus on Acer and Gateway, and "Gateway can even become the primary brand -- we're totally open." As for eMachines, he said it would likely return to its roots as a seller of budget-priced PCs.
Lanci said that Acer has no plans to immediately merge service and support operations for its company and Gateway: "We'll maintain the current state for some period -- there's no reason to change." Currently, he said, Acer performs its own repairs at a facility in Temple, Texas, while Gateway outsources service to a third party. "In Europe, [support integration will be] much worse, because they speak twenty-five languages."
No Gateway facilities will be shuttered as a result of the acquisition, he said; the company's major assembly operations will be divested as part of the sale of the professional division to MPC.
Several years ago, Gateway attempted to reinvent itself as a consumer electronics brand before retreating to PCs. Lanci said that Acer may bring LCD TVs, which it sells in other markets, to the U.S., but that it has no desire to be anything other than a successful computer manufacturer.
When asked about Ultra Mobile PCs, he expressed skepticism about current undersized PCs based on Microsoft's platform, saying that such systems will only become practical when they can run seven or eight hours on a battery charge. Acer is thinking about models that might make sense for it to sell, "but I call them ultra-mobile devices, not Ultra Mobile PCs."
In July, Lanci raised eyebrows with an interview in which he said that "the whole industry" was disappointed with Windows Vista and its impact on PC sales. At today's Global Press Conference, he reiterated that the rollout of Microsoft's newest operating system has been lackluster. "I think that when they introduced Vista, it was not ready," he said, pointing to lack of drivers as a particular problem. By contrast, "when [Microsoft] introduced XP, everything was ready."
But Lanci wasn't ready to declare Vista a long-term failure, saying that as compatibility issues and other problems are worked out, it should fare better: "They're going to fix it -- as usual."


http://www.ecoustics.com/pcw/news/137462

[bbmf]

Okay, you're the proud new owner of a new desktop or laptop computer running Windows XP or Windows Vista. Whether you realize it or not, it's more than likely to sport a spritely multi-core processor, such as an Intel Core 2 Duo or Quad processor or AMD Opteron quad-core. But are you able to take best advantage of these CPUs under Windows?
If you open the Windows task manager's Processes list, then right-click on any task, you'll see a new entry Set Affinity in the context menu when your PC has better than a single processor.
Of course, you'll probably need to be something of a geek to know which system task to select. It would be much nicer if you could do this from the task manager's Applications list.



When you click on this entry, you are presented with a
dialog box that shows the number of processors that
Windows has detected in your system, as shown in the
second and third illustrations.





I find that for CPU-intensive tasks such as the Copernic Desktop Search indexer, better overall system behavior is obtainable by setting the CPU Affinity to one or other of the CPUs, as demonstrated in the first illustration. Even in periods of heavy indexing, no more than 50 percent of the total processor resource is consumed by the indexer,
When both boxes are checked, I've found the indexer gobbling up to 80 or 90 percent of the CPU resource and behavior is no better than with a single-CPU PC (typically resulting in intermittent periods when the responsiveness of other concurrent applications fluctuates dramatically).
What we have here is the case of hardware features having leapt ahead of software capabilities. The rather crude ability to manually set the Processor Affinity of individual tasks, as just described, must be carried out one task at a time, and worse than that every single time that you restart your system.
I have no insight as to whether Microsoft provides an interface for software makers (such as Copernic, to mention just one, and they're all in the same boat, each and every one of them) to build into their applications a permanent run-time configuration option for you to control the application's processor affinity.
I see this as a major oversight, especially for power users me who want to get the ultimate performance out of their multi-core systems.
History shows that we always keep throwing ever more complex multimedia and other types of workloads on our systems, so the need to have better control over the multiple processor cores via Processor Affinity will need to be addressed both by operating system vendors and the application providers alike.
I haven't even looked at Linux or Macintosh operating systems to find out if the above also applies to them. My guess is that it does, but I'll gladly stand to be corrected.


http://www.itwire.com/content/view/14572/1127/