Thursday, June 19, 2008

Intel, Nvidia face off at Hot Chips

Source: http://www.eetimes.com/news/latest/showArticle.jhtml?articleID=208700435

Many media processors debut at Stanford confab



EE Times


SAN JOSE, Calif. — Intel Corp. and Nvidia Corp. will go head-to-head with their latest graphics architectures at the 20th annual Hot Chips conference at Stanford University, August 24-26. The event will also showcase a handful of new media processors.

In an afternoon session, Intel will present a paper on its new Larrabee graphics architecture and Nvidia will describe the version of its new GTX chip that is aimed at high-end parallel computing and was announced Monday (June 16). "This will be the first time someone can see these two architectures side by side," said Kevin Krewell, an Nvidia marketing manager who is on the Hot Chips committee.

Intel is expected to make the first technical disclosures of Larrabee in a paper at Siggraph the week of August 11. It will probably also discuss the chip at the Intel Developer Forum in San Francisco the week of August 18.

To date Intel has only said Larrabee is based on multiple x86 cores and is aimed at graphics and technical computing. Recently Intel chief technology officer Justin Rattner suggested the chip will drive an industry transition from raster graphics to ray tracing, a shift many observers said is not in the foreseeable future.

A variety of media processors will be described at Hot Chips, including a programmable multicore video processor from Advanced Micro Devices that it calls a mediaDSP. NXP Semiconductors will present its PNX5100, a video processor aimed at H.264 playback at 120 Hz, and Toshiba will describe a new derivative of the Cell processor called the SpursEngine and aimed at media processing.

Two startups will describe mobile media devices. Telegent will present a single-chip receiver for NTSC/PAL TV that consumes 300mW and is aimed at handheld systems. Audience will detail a voice processor that imitates the way human hearing works.

In addition, a team from the Chinese Academy of Sciences will describe the Godson-3. The chip is a multicore version of the group's earlier designs with similarities to the MIPS processor.

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Intel Delves Deeper into 'Nehalem'

Source: http://www.eweek.com/c/a/Infrastructure/Intel-Delves-Deeper-into-Nehalem/

Intel Delves Deeper into 'Nehalem'

By Scott Ferguson

Intel is offering a chance to peek under the hood of its new "Nehalem" microarchitecture and get a glimpse at some of the technologies it's using, including its approach to saving power and transferring data from one chip to another.

At the VLSI Symposia held June 17 to June 20, Intel will present a new paper June 19 called "Next Generation Intel Micro-architecture (Nehalem) Clocking Architecture," which will offer an account of some of the new technologies and innovations going into this particular microarchitecture.

The first of the Nehalem processors for servers and high-end desktops will likely debut in the fourth quarter with more chips based on the architecture entering the market by the first half of 2009. The first of the Nehalem chips will include four processing cores.

In describing Intel's research paper, Rajesh Kumar, an Intel Fellow and director of Circuit and Low Power Technologies for the company, dwelt on two aspects of Nehalem: the integrated memory controller and a feature called QuickPath, which allows the processors to connect to another component or another chip on the motherboard.

"Here, the path to memory and the path to the chip are all integrated into the CPU itself," Kumar said during a briefing before the start of conference. "The reason we are doing this is to get much lower latency to memory and much higher bandwidth to memory. The numbers we are going to achieve with Nehalem are 25GB per second for socket-to-socket communication and 32GB per second for going to main memory."

Kumar added that this means Nehalem is about three times faster than other chips in the market. In this case, Intel is referring to Advanced Micro Devices' Opteron processors, which have used integrated memory controllers and high-speed interconnects for a number of years.

For years, Intel lagged behind AMD in these types of technologies, which allowed AMD to gain market share, especially for high-end multisocket servers where higher bandwidth is a must. Although it's too early to say for certain if Intel will catch up with AMD, the chip giant is certainly moving in that direction and its customers can expect more details later in 2008.

"I would say that this paper is the beginning of a rolling thunder campaign that will last at least through the end of this year and only let up once all of Intel's Nehalem processors have been launched," said John Spooner, an analyst with Technology Business Research. "During this time, the company is going to begin building the case for Nehalem to be the highest-performing x86 chip in history, with huge benefits in performance per watt for servers in particular. Intel is betting big on Nehalem and it wants the processor family to be well received. So it's working to begin building interest in the platform."

Since the Nehalem architecture will be used across an array of product segments—servers, desktops, notebooks—Kumar said Intel engineers had to consider how they could change the structure of the chips to fit within these different segments. They made the processing cores modular so the cores could be easily switched out to meet the needs of different products.

Intel also decoupled the main components, allowing the voltage and the clock frequencies of the different parts to be set independently of one another. This allows Intel to design chips off the same basic architecture that can offer energy efficiency for one product and high performance for another.

"The CPU core, for example, can be running at its own frequency and voltage while the memory system is running on its own and I/O is running on its own and each of them can be tuned for a different segment," Kumar said.

"This idea itself is not new, but the implementation is new," he added. "So far, most have tried to do this with asynchronous interfaces, which happen to be fairly slow … so the main innovation here is to do this in a synchronous fashion, which is very low latency and [offers] high performance."

Finally, Kumar said Nehalem will adjust to the type of applications a system is running and will adjust its frequency to the power it needs to run these different pieces of software.

Intel did not say what clock speeds the Nehalem chips will offer. The paper also did not detail the exact power envelope these processors will have, although Kumar noted that Nehalem gives Intel the ability to integrate a graphics core into the processor.

Intel is expected to give full details about Nehalem at its Developer Forum in August.

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Intel 'Harpertown' chip rules supercomputer list

Source: http://news.cnet.com/8301-10784_3-9971576-7.html

June 18, 2008 11:30 AM PDT

Intel 'Harpertown' chip rules supercomputer list

Intel Xeon processors--particularly the "Harpertown" variety--dominated the top 500 supercomputer list. But IBM's Power chips made a strong showing as usual at the very top of the list. AMD's Opteron processor landed in the No. 1 and No. 4 ranked systems.

Top 10 processors in Top500 supercomputer list

Top 10 processors in Top500 supercomputer list

(Credit: Top500.org)

The Top500 List--updated twice a year--of supercomputers was released Wednesday. Intel's Xeon, AMD's Opteron, and IBM's Power chips vied for most of the spots in the list.

The most dominant chip was the Intel Xeon E54xx series "Harpertown" processor. Appearing in 116 systems for 23.2 percent of the total. The largest for any single processor model.

The Xeon 53xx series "Clovertown" processor was next, appearing in 92 systems for 18.4 percent of the total. Following Clovertown was the Xeon 51xx series "Woodcrest" processor with 18.2 percent of the total.

Harpertown and Clovertown are quad-core processors, Woodcrest is dual-core.

In the No. 4 slot was the AMD Opteron dual-core chip (8.4 percent), followed by the X54xx series of Intel Harpertown processors (7.8 percent), then by the PowerPC 440 (4.22 percent).

(Note: Combining the Intel Harpertown E54xx series and X54xx series boosts the total for this chip model to 31 percent.)

The IBM Power processors passed the AMD Opteron family and "are now (again) the second most common processor family with 68 systems (13.6 percent), up from 61 systems (12.2 percent) six months ago," Top500.org said.

AMD's strongest showing was in the top five supercomputers. Opteron processors played a major role in the No. 1 IBM Roadrunner system, which connects 6,562 dual-core AMD Opteron chips as well as 12,240 IBM Cell chips (on IBM Model QS22 blade servers).

See: IBM's Roadrunner breaks petaflop barrier, tops supercomputer list.

The No. 4 Sun Microsystems' SunBlade system uses over 62,000 cores running inside AMD Opteron quad-core processors running at 2.0GHz.

The No. 2 and No. 3 systems were based on IBM PowerPC 450 chips.

Other Top500 processor highlights:

  • A total of 375 systems (75 percent) are now using Intel processors. This is up from six months ago (354 systems, 70.8 percent) and represents the largest share for Intel chips in the Top500 ever.

  • 56 systems (11 percent) are using AMD Opteron processors, down from 78 systems (15.6 percent) six months ago.

  • 283 systems are using quad-core processor based systems.

Originally posted at Nanotech: The Circuits Blog

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Wednesday, June 18, 2008

Sxipper Automatically Fills in Web Forms [Featured Firefox Extension]

Source: http://feeds.gawker.com/~r/lifehacker/full/~3/313305926/sxipper-automatically-fills-in-web-forms


Firefox only (Windows/Mac/Linux): Firefox extension Sxipper automates your web logins and form filling through a simple, attractive interface. Once installed, you can create different personas into Sxipper for quick form filling for site registrations, and Sxipper automatically works with Firefox's existing saved logins. The extension can either learn and build personas based on information you've already used in forms, or you can import other form and password data from other programs like Roboform or plain old vCards. Sxipper is free, works wherever Firefox does.

Sxipper [Firefox Add-ons via Nethackz]

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XB Browser Provides Anonymous Web Browsing [Featured Windows Download]

Source: http://feeds.gawker.com/~r/lifehacker/full/~3/313366173/xb-browser-provides-anonymous-web-browsing


Windows only: Freeware application xB Browser is a portable web browser that provides anonymous web surfing at startup. xB Browser anonymizes traffic either through the free Tor network or through its distributor XeroBank's networks (the second comes with a price). Born from the ashes of previously mentioned and abandoned TorPark, xB Browser is really just Firefox with anonymous browsing baked in from the get-go. xB Browser is free, Windows only, though Mac and Linux versions are planned for August 08.

xB Browser [XeroBank via Download Squad]

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