Cpu Amd Intel: May 2011

Tuesday, May 17, 2011

3.5GHz Core 2 Duo E8700 on sale

Intel will soon launch its fastest dual-core to date, the Core 2 Duo E8700 clocked at 3.5GHz. €259 in Belgium

Many of these 45nm parts will end up overclocked, and we're sure gamers will appreciate them. The price however, is another issue. At €259 the E8700 is no bargain, and you can get a pretty good quad core for less. It's still the highest clocked Intel desktop CPU out there, and this fact alone means it's worth mentioning. Like the E8600, the 3.5GHz E8700 has a 1333MHz FSB, 6MB L2-cache and has a rather good 65W TDP.

You can find the listing here.

Intel's Core i7 975 EE benchmarked

Intel will release Extreme Edition Core i7 processor within the near future, as well known overclocker Fugger has posted some early benchmarks and overcklocking results for the Core i7 Extreme Edition 975 which comes clocked at a default speed of 3.33GHz.

Although this is hardly a huge step up from the current 965XE part which is clocked at 3.2GHz, the new 975XE seems to overclock much better. Using a Gigabyte EX58-Extreme motherboard, Fugger managed to push the new CPU to 5.26GHz without any problems and with the help of a pair of Radeon HD 4870 X2 graphics cards, him and his partner Mikeguava managed to break 47,000 in 3DMark 05 which is a new world record. Its likely that Fugger will achieve even higher scores with this CPU given time and it looks like all the overclockers out there will have a new toy to play with in due time. As there are other chips in circulation already, wed expect more benchmark results to pop up over the next few weeks.

Intel i7 975 ES D0 stepping
Gigabyte EX58-EXTREME
Gigabyte 4870X2 Quadfire (pure stock)
Corsair 1866C8 with Pelt cooling
K|ngp|n F1 EE Pot
750W Silencer PSU

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Intel's 3.33GHz Core i7 975 Extreme Edition

Intel's 3.33GHz Core i7 975 Extreme Edition

Intel appears to be set to give it another nudge forward with the launch of the Core i7 975 Extreme Edition processor.

Details are in short supply, but overclockers Mikeguava and Fugger appear to have their hands on Intel's range-topping part and have done what they do best - overclock the hell out of it. Using GIGABYTE's EX58 Extreme mainboard, Corsair's peltier-cooled memory and a pair of Radeon HD 4870 X2 graphics cards, they managed to score a staggering 47,026 3DMarks.

What's interesting is that the CPU features D0 stepping, and such a change usually denotes a refined silicon package that could result in lower power consumption and should provide greater overclocking headroom.

There's no news on release details at this early stage, but this is a chip that's likely to be priced close to the mind-boggling £1,000 mark. We'd hate to be one of those who've recently splashed out over £800 on the soon-to-be-dethroned Core i7 965 Extreme Edition.

Phenom II X4 B93 top business CPU

2.8GHz for businessmen

AMD is still on track to launch its new Phenom II generation for business people and these CPUs should find their place to the corporate hearts. Business class Phenoms based on the Deneb 45nm quad-core will launch in early Q3 2009.

The best is called Phenom II X4 B93 and this CPU works at 2.8GHz and is in fact nothing more than a regular Deneb based Phenom renamed to sound more like a business thing. This CPU has 8MB of total cache 4x512L2 and 6MB L3 and it fits the 95W TDP envelope.

The runner up Phenom X4 B91 has the same specs but it will end up cheaper and works at 2.6GHz. These CPUs will dethrone the Phenom X4 9850B and the rest of the Agena 65nm based generation, but as always this won’t happen overnight.

Intel LGA 1155, 1156, 1576 sockets

Core i7's LGA 1366 socket is old so Intel is looking to introduce a few new sockets, and processors. Not like in the LGA 775 Intel is preparing to introduce two mainstream Nehalem sockets, both of which are pictured below - Socket H1 (LGA 1156) and H2 (LGA 1155). These will house the Core i5 CPU models which, compared to the Core i7s, lack QPI and the triple-channel memory controller but integrate a dual channel DDR3 memory and PCI-Express controllers.

Socket H1 (left) and Socket H2 (right)

Before Socket H1 and H2 come into play, another new socket (seen below) will make its debut. Socket Socket LS aka LGA 1567 is aimed at the server market and will be paired up with Nehalem-based Xeon processors.

Intel LGA 1155, 1156, 1576 sockets

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Intels 65W Core 2 Quad cpu up for pre-order

Intels lower-power Core 2 Quad processors are now propping up at various retailers. Two of the three new 65W parts - the Core 2 Quad Q8200s and Core 2 Quad Q9550s - are available to pre-order from Scan.co.uk, but at a notable premium. Here is how pricing compares for 65W equivalents of existing 95W

Processor	Core 2 Quad Q9550s	Core 2 Quad Q9550	Core 2 Quad Q8200s	Core 2 Quad Q8200
CPU speed	2.83GHz	2.83GHz	2.33GHz	2.33GHz
FSB	1,333MHz	1,333MHz	1,333MHz	1,333MHz
L2 cache	12MB	12MB	4MB	4MB
Manufacturing process	45nm	45nm	45nm	45nm
TDP	65W	95W	65W	95W
Price	£339.04	£231.12	£220.79	£146.61

Were sure there are users to whom each degree in temperature makes all the difference, but a price hike of £108 and £74, respectively, currently make both the Q9550s and Q8200s seem far too pricey.

They might be out of reach for the everyday consumer, but 65W quad-core chips are a welcome addition to Intels line-up and wed expect them to appear in numerous systems in the coming weeks - and perhaps in a refreshed iMac, too.

First preview of Phenom X3 720 BE

Tested and overclocked to 3.7GHz

The guys at Donanimhaber.com managed to get their hands on AMD's Phenom II X3 720 Black Edition CPU and test it on both AM2+ DDR2 and AM3 DDR3 motherboard. They even tried to overclock it and the score are very impressive, as they managed to get it all the way from 2.8GHz to 3.7GHz.

The most interesting part is the DDR2 versus DDR3 tests, as the DDR3 memory doesn't bring any significant performance gains, especially if you compare DDR2 and DDR3 prices. The Phenom II X3 720 Black Edition should be launched on February 9th and as a part of the Black Edition series it has unlocked multipliers. Other specifications include a base clock of 2.8GHz, 1.5MB of L2 and 6MB of L3 cache and a TDP of 95 Watt's. According to what we see from these results, AMD might give Intel a run for its money, at least with this Phenom II X3 720 BE which can be found listed at around €140 in Europe.

You can find more here

Intel ready with its first 8-Core xeon processors

Santa Clara, California-based Intel is expected to detail one of its highest-anticipated server processors at the upcoming International Solid-State Circuits Conference in San Francisco between February 8 and 12, 2009. The chip maker is expected to provide an early look at its first eight-core chip, which will be part of the company's Xeon family of processors. These chips are to provide a new level of performance for server systems based on a dual-socket motherboard.

Unfortunately, at this time, there aren't any details regarding the Xeon processors to be discussed at the February 9 presentation. According to the ISSCC programme, executives of the global leading chip maker will be discussing an 8-core, 16-thread Xeon processor, which will be manufactured using a 45nm process technology. According to additional info, said processor will also be featuring 2.38 transistors and support operation of up to 6.4GT/s.

As expected, Intel is yet to officially comment on the respective Xeon processor, which it will likely do during the ISSCC event. “We are presenting 16 papers at ISSCC, but don't haveanything further to share at this point,” said Nick Jacobs, a company spokesman in Singapore.
According to the available details, Intel's presentation might just be related to the company's highly-anticipated Xeon processor that will be based on the Nehalem EP architecture. This server CPU is known to have been designed specifically for dual-socket servers and workstations. According to previous details, this processor line is due to be released sometime in early 2009.

The upcoming chips will sport some of the features currently available for Intel's other Nehalem-based chips, including the use of Intel's Quick Path Interconnect (QPI), which basically replaces the front side bus, featured on Intel's previous generation of Xeon processors. This feature boosts the computer's overall performance.

Propus Athlon X4 delayed to Q3

AMD plans to bring more Deneb and Heka based Quad and Three core CPUs in Q2, but the Propus non energy efficient will be pushed to early Q3. This looks like a business decision as the company already plans a 45W Propus in early Q2.

The specifications seem to be locked and Athlon X4 615 will work at 2.7GHz, come with 2MB L2 cache and will sit under the 95W umbrella.

The runner up is Athlon X4 605 that runs at 2.5GHz. Funny enough, the Athlon X4 605e works at 2.3GHz but has only a 45W TDP while the non e version has a massive 95W TDP.

At least you can expect these CPUs in back to school period.

Monday, May 16, 2011

AMD six-core 'Istanbul' Opteron Tests

AMD has given a glimpse at what its upcoming six-core Opteron processors (amd Istanbul). As reported by The Tech Report, the server CPUs were shown off in three systems - two quad-socket and one dual-socket, running everything from Windows Server 2008 to Server 2008 plus three virtual machines with Windows Server 2003, Red Hat Linux and SLES 11 x64 installed.

The dual socket server with 12 cores

Manufactured using the 45nm process technology, the six-core CPUs are compatible with current Socket F motherboards making the upgrade simple and easy, have dual-channel DDR2 memory controllers, HyperTransport 3.0 and 6MB of L3 cache. The Istanbul Opterons are expected to make their debut in the second half of this year and will be followed in 2010 by the DDR3-supporting Sao Paolo models.

Four sockets = 24 cores ready for battlesource The Tech Report.

AMD Sempron X2 2300 in Store in Japan

AMD’s dual-core Sempron X2 2300 has been available in Japan at JPY2480 (about $27), according to the guys at AKIBA. This is the second model of Sempron dual-core CPU after Sempron X2 2100 announced in last March.

With 512KB L2 cache, 65nm Socket AM2 and TDP of 65W, Sempron X2 2300 is almost the same as Sempr

on X2 2100. But it features frequency of 2.2GHz, up from 1.8GHz on Sempron X2 2100.

AMD Sempron X2 2300 in Store in Japan

AMD Phenom II X4 hits 4.4GHz

AMDs Phenom II processors are truly mean overclockers under extreme cold, but with more conventional cooling the processors are yet to really impress. They are still much better than the last series of Phenoms, but compared to Intels Core architecture they are still several MHz short. AMD overclockers have started looking for The Golden One among Phenom II processors and we now hear about a Phenom II X4 processor that does 4.4GHz with air cooling and "only" 1.55V.

The overclock was with all four cores, but and the air was a bit colder than normal (processor temperature was about 25°C) and the memories downclocked to reach 4.4GHz. The system was just stable enough for a CPU-Z screendump but it still shows that the Phenom II architecture can reach respectable frequencies with regular air cooling.

soruce

Nehalem based Xeons on last day of March

Official launch on March 30th

Intel will officially launch the Nehalem generation of Xeons on the very last day of March. While it will show itself in Intel’s pricelist on March 28th, the official launch and availability is planned for the last day in Q1.

The new Xeon will also get a new logo, which is slightly different then the existing one, with a different colour scheme. We are not sure that many customers will be ready to swap their Penryn based servers for Nehalem based ones, mainly due to cost related issues, but we are quite sure that Nehalem based Xeons should end up much faster than Penryn 45nm based Xeons.

Demand for three-core Phenoms II on the rise

Following fourth core unlock reports

Demand for AMD three-core Phenom II chips is on the rise, following reports that the fourth core on many units can be activated after fiddling with some bios settings.

Of course, the hack doesn't work on all CPUs, but only certain batches, so consumers can't really expect a 100 percent success rate, but nevertheless, the prospect of a free fourth core seems quite appealing to some.

Of course, AMD refuses to officially comment the three-core to quad-core five-finger discount hack.

Several readers have already contacted us to confirm they managed to succesfully enable the fourth core, and in case you have a three-core Phenom II, and you've tried enabling the disabled core, we would like to hear from you.

More here.

Intel changes all logos

Intel just got into business of changing logos, and we just found out how the rest of the line up looks like.

The new logo is much wider than the previous one and on the top right corner you can see something that looks like chip. Core i7 and Core 2 Extreme logos are black, while Core 2 Quad, Core 2 Duo, Core 2 vPro are blue and very similar.

Many Centrino logos are all in white, and the top one is Centrino 2 inside, runner up is Centrino 2 vPro followed by Centrino inside and Centrino vPro inside.

Itanium, Xeon, and Core 2 Viiv sort of didnt change their format, while Xeon will come in new blue colour, probably for Nehalem based Xeons. New logos will be effective as of April 1st, the first day of Q2 2009.

Dual-CPU Nehalem systems pump up the bandwidth

Intel will officially introduce the dual processor Nehalem-EP, aka Gainestown.

Essentially, it keeps the same format and LGA1366 socket as the uni-processor Core i7, just dual CPU support and two QPI links per chip this time - one to talk to the Tylersburg chipset, another for high speed whispering to its twin Nehalem brother.

Even the workstation flavour of the Tylersburg is identical to the desktop one (X58) plus of course an extra QPI link to talk to that second CPU - or the second Tylersburg in dual North Bridge configuration for, say, quad PCIe x16 monster boards. Just count the PCIe lanes on this diagram.

Intel intros specialized Atom for cars and other devices, outsources some Atom manufacturing

Intel intros specialized Atom for cars and other devices, outsources some Atom manufacturing

Relying on the same 45nm manufacturing process, the new Atom Z5xx series processors expectedly aren't too radically different from the average Atom, with them clocking in between 1.1GHz and 1.6GHz, and boasting a TDP rating of 2.0 or 2.2 watts, although they do have some "embedded lifecycle support" thrown in for good measure. In related news, Intel has also announced that it'll be outsourcing "some" Atom manufacturing to Taiwan Semiconductor Manufacturing Co. (or TSMC), which apparently marks the first time that Intel has licensed its CPU core to a foundry.

Intel prepping 2.0 GHz Atom Z550 processor

With the Atom dominance expected to continue, even with the competition from ARM, VIA and others, Intel is reported to be planning the introduction of a 2.0 GHz version of its low-power 45nm CPU. Named Z550, the MID-targeting processor would start selling next month and have 512kB of L2 cache, a FSB of 533 MHz and a TDP of 2.4W, just like its brothers, the 1.86 GHz Z540, and the rather popular 1.6 GHz Z530 which is used in a few netbook models on sale today.

The price of the Atom Z550 is yet unknown but Intel could simply ask $135 and thus lower the price of the Z540, and, consequently, the Z530. Were all for cheaper and more powerful.

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AMD Phenom II X4 955 CPU Coming on April 20th

AMD was planning to launch 3.1GHz Phenom II X4 950 in Q2 according to our previous source, but Phenom II X4 955 is said to replace it as the fastest AMD CPU.

Phenom II X4 955 has employed 45nm processing and Socket AM3. Clocked at 3.2GHz (16*200MHz), it’s coming with 2MB (4*512KB) L2 Cache and 6MB L3 Cache. With 125W TDP, Phenom II X4 955 is said to be launched on April 20th.

Intel launches 2GHz Atom Z550

Intel will announce a couple of new Z-series chips for MIDs (Mobile Internet Devices). Already rumored, the 45nm Atom Z550 and Z515 are clocked at 2 and 1.2 GHz respectively, and feature a 533 MHz FSB and 512kB of cache. The Z515 also have the Burst Performance Technology which enables it to automatically adjusts its working frequency depending on computing needs.

Intel has marked the Atom's first anniversary with the launch of two new parts, the Z550 and Z515.

The Z515 runs at up to 1.2GHz and supports Burst Performance Technology, which allows it to adjust the frequency automatically depending on performance demands. It supports US15W and UL11L chipsets and it will primarily be used in MIDs.

The Z550 runs at 2.0GHz, but still stays withing the 3W power envelope. We are not sure if the Z550 will find its place in new products any time soon. When it comes to Atoms, there is usually a hefty price premium to pay for a slightly higher clock, and for example, a 1.8GHz model costs twice as much as the 1.6GHz we see all over the place.

Both chips have a 2.4W TDP, they idle at 0.22W, have 512KB of L2 cache and run on a 533MHz FSB.

Intel D-0 Stepping Core i7-920

In February Intel indicated that it’s initiating a C-0 to D-0 stepping conversion for the Intel Core i7-920 processor.

The overclocking performance of D-0 Core i7-920 is superior to that of C0/C1 stepping. New stepping Core i7-920 features a few changes including S-Spec from SLBCH to SLBEJ, and the CPU ID from 0×000106A4 to 0×000106A5, so a BIOS update is required. Besides, the Ink Swatch number has been also removed.

D0 Core i7-920 has hit retail at AKIBA at price tag of Yen 30780 which is about $306.

Source: [AKIBA]

Intel New Chip Logos and Star Rating System

Intel has rolled out with new chip logos for its Core i7, Core 2, Centrino, Celeron and Pentium processors, and unveiled its Star Rating System with one star denoting the lowest performance and five stars the highest.

The 5-star level consists of Core i7 Series, QX9000 Series and several other high-end mobile CPUs. And Celeron falls to the lowest segment, including Celeron E1000, 400, T1000, 900, 700 and 500 Series.

Intel New Chip Logos and Star Rating System

AMD Launches the ATI Radeon HD 4770

AMD Launches the ATI Radeon™ HD 4770, World’s First Desktop Graphics Card Utilizing Industry-Leading 40nm Process Technology

(NYSE:AMD) today launched the ATI Radeon™ HD 4770 graphics processor, a groundbreaking product that harnesses the state-of-the-art 40 nanometer manufacturing process for the desktop PC market, delivering best-in-class performance and energy efficiency at anticipated launch prices as low as $991. The ATI Radeon HD 4770 graphics card is the newest addition to the award-winning ATI RadeonTM HD 4000 series.· The new card features third-generation hardware support for the latest DirectX® 10.1 games like Battleforge, HAWX, S.T.A.L.K.E.R Clear Sky and Stormrise, delivering higher game performance and improved visual quality when compared to DirectX® 10.

· The ATI Radeon HD 4770 continues the AMD tradition of bringing industry-leading technology to market that drives a superior user experience. The ATI Radeon HD 4770 makes use of the latest GDDR5 memory technology, providing incredibly high data rates for fast game performance.
· Gamers looking to get the most value out of their graphics hardware investment can scale their performance using ATI CrossFireX™ technology, allowing a second ATI Radeon HD 4770 card to be added for a near-linear increase in performance.2
· The ATI Radeon HD 4770 graphics card allows users to enjoy HD digital content3 with incredible visual fidelity. The new card helps enhance the definition and clarity of lower resolution media, and through the second generation AMD Unified Video Decoder (UVD 2.0) technology, users can be assured of smooth video playback, crisp images, and vibrant colors on all HD content including Blu-ray discs.4 With support for HDMI, picture-in-picture (PiP) and the latest HD audio technologies like 7.1 surround sound, the new graphics card enables an impressive cinema-quality home entertainment experience.
· Celebrating the company’s 40th Anniversary, AMD continues its heritage of focusing on the design and development of new products and platforms that deliver compelling user experiences at an exceptional value. By combining new AMD Athlon™ X2 7850 processors, AMD 7-Series chipsets and ATI Radeon™ HD 4770 series graphics cards, AMD enables a PC platform that can bring HD video to life while delivering massive performance headroom and video processing acceleration.

“Consumer pressure in this economic downturn is shifting demand to lower prices and the price band around $100 has the highest demand and highest volume,” said Rick Bergman, senior vice president and general manager, Graphics Products Group, AMD.5 “AMD has responded with the launch of the ATI Radeon HD 4770, targeting this market with cutting-edge technologies like 40 nm processors, support for DirectX 10.1 gaming and GDDR5 memory. This strategy stands in stark contrast to the old “trickle down” technology approach some still use to address this important segment.”

“As a leading source of cutting-edge game development tools, Emergent has a passion for delivering realistic, visually stunning game play as well as improved performance,” said Doug Kubel, vice president, Product Development, Emergent. “By supporting DirectX 10.1 in the Gamebryo LightSpeed development system, we are able to deliver improvements in both image quality and frame rates. DirectX 10.1 graphics hardware like the ATI Radeon HD 4770 makes it possible to fully unlock the experience delivered by the combined power of DirectX10.1 and Gamebryo LightSpeed.”

Pentium ® Processors with MMX™ Technlolgy

From point-of-sale (POS) terminals and retail kiosks to advanced networking equipment, Pentium® processors with MMX™ technology enable developers of embedded systems to step up to new levels of performance. To make these designs even easier and more flexible, Intel is making the performance advantages of MMX technology available at a choice of integration levels.

The upgrade path for embedded Intel® architecture includes longer life cycle support for the 200 MHz and 233 MHz Pentium processors with MMX technology.
Intel offers 166 MHz and 266 MHz Low-power Pentium processors with MMX technology. Both are available in thin HL-PBGA packaging, as well as PPGA packaging. The 166 MHz Pentium processor is also available in extended temperature range -40ºC to +115ºC.
Also, the Intel 430TX PCIset now supports synchronous DRAM [SDRAM] in embedded applications.

Product Highlights:

166, 200, 233, 266 MHz
430TX PCIset
HL-PBGA, PPGA
Extended temp

New Design Options

Together the Pentium processor with MMX technology and the 430TX PCIset provides developers with flexible new options to create value-added embedded designs and upgrade existing products to new levels of performance. Regardless of which design path a developer may select, the Pentium processor with MMX technology offers performance enhancements that can be especially valuable in today's most competitive embedded application segments--including "intelligent" POS terminals, telecommunications equipment, networking devices and high-performance industrial computers.

Improve Processor Performance 10-20 Percent

Pentium processors with MMX technology can provide a 10 to 20 percent performance boost over classic Pentium processors at the same frequency. In addition, the MMX technology versions of the processor double on-chip code and data caches to 16 Kbytes and feature improved branch prediction, an enhanced pipeline and deeper write buffers for improved performance.

Advantages of Intel MMX Technology

MMX technology provides 57 new instruction sets to improve processor performance in traditional digital signal processor [DSP] applications, including the graphics, audio and voice processing capabilities now emerging as value-added features in high-performance embedded products. MMX technology can potentially eliminate the requirement for DSP chips in embedded applications such as video kiosks, telecommunications devices and POS terminals.

Intel Architecture Upgrade Path

"The Pentium processor with MMX technology offers developers the advantages of Intel's stable, long-term processor architecture, together with strong tools support, a robust development environment and a clearly defined upgrade path," notes Tom Franz, general manager of Intel's Embedded Microprocessor Division.

If the flexible motherboard guidelines for split voltages were followed on the original design, Pentium Processors with MMX technology offer pin-compatibility, and a high degree of code-compatibility, with the classic Pentium processors. These compatibility features offer developers a smooth extended upgrade path from existing Intel architecture designs, together with a way to quickly add higher performance with minimal development overhead.

Pentium® processors with MMX™ technology

Product Number	Core Speed (MHz)	External Bus Speed (MHz)	Thermal Design Power (Max)	Voltage	^Tcase	Package
FV8050366200	200	66	15.7W	2.8V	0-70C	296 PPGA
FV8050366233	233	66	17.0W	2.8V	0-70C	296 PPGA

Low-power Pentium® processors with MMX™ technology

Product Number	Core Speed (MHz)	External Bus Speed (MHz)	Thermal Design Power (Max)	Voltage	^Tcase	Package
FV80503CSM66166	166	66	4.5W	1.9V	0-85C	296 PPGA
FV80503CSM66266	266	66	7.6W	1.9V	0-85C	296 PPGA
GC80503CSM66166	166	66	4.1W	1.8V	0-95C	352 HL-PBGA
GC80503CSM66266	266	66	7.6W	2.0V	0-95C	352 HL-PBGA
GC80503CS166EXT	166	66	4.1W	1.8V	-40-115C	352 HL-PBGA

Intel® I/O Processors

Many storage, networking, and embedded applications require fast I/O throughput for optimal performance. Intel® I/O processors allow servers, workstations and storage subsystems to transfer data faster, reduce communication bottlenecks, and improve overall system performance by offloading I/O processing functions from the host CPU.

The table below provides a quick overview of the Intel I/O processor family. The Intel® IOP34x family of processors, with Intel XScale® microarchitecture, builds on more than a decade of leadership in I/O processor technology.

Features and benefits:

Intelligent I/O processor	Offloads I/O processing functions, such as I/O interrupt processing and parity calculations, from the CPU. This allows the CPU to streamline application processing and to use other system resources, such as the system bus and memory, more effectively.
On-chip cache	Improves data throughput by reducing external bus traffic.
Parallel transaction capabilities	Eliminates the need to use expensive proprietary controllers to handle parallel transactions and compression algorithms.
Single-chip design	Provides smaller packaging, simplified design, and board space cost savings. Full system-on-a-chip validation.
Comprehensive set of development tools	Faster time-to-market. A complete range of compilers, debuggers, commercial and open source operating systems are available from multiple vendors.

Intel® Atom™ Processor

The Intel® Atom™ processor is Intel's smallest processor, built with the world's smallest transistors and manufactured on Intel's industry-leading 45nm Hi-k Metal Gate technology. The Intel Atom processor was purpose-built for simple, affordable, netbooks and nettops.

Intel Atom processor-based netbooks and nettops offer both an easy-to-use mobile device with simple interfaces and targeted performance for a good online experience. They are rugged and compact in design, and offer the freedom and flexibility of wireless connectivity¹.

Great for Internet, these devices are an affordable option for education, photo and video viewing, social networking, voice over IP, e-mail, messaging, browsing, and numerous other Internet activities and basic applications.

All Intel® Atom™ processors feature:

Small Form Factor CPU Package
Low TDP
Power Optimized Front Side Bus
Enhanced Data Prefetcher and Enhanced Register Access Manager

Intel® Atom™ Processors For embedded computing

Intel® Atom™ processors, implemented in 45nm process technology, are power-optimized to deliver robust performance per watt, making them ideal for many embedded applications such as interactive kiosks, point-of-sale terminals, in-vehicle infotainment systems, media phones, industrial automation equipment, digital security systems, and residential gateways.

These single-core processors are software-compatible with previous 32-bit Intel® architecture and complementary silicon. They include embedded lifecycle support, which protects system investments by enabling extended product availability for embedded customers.

A three-chip solution is offered with the Intel® Atom™ processor N270Δ and the mobile Intel® 945GSE Express Chipset. A two-chip solution is offered with the Intel® Atom™ processor Z5xx series and the Intel® System Controller Hub US15W.

Product Highlights:

Intel hafnium-based 45nm Hi-k metal gate silicon process technology reduces power consumption, increases switching speed, and significantly increases transistor density over previous 65nm process technology.
Enhanced Intel SpeedStep® Technology reduces average system power consumption.
Intel® Hyper-Threading Technology (Intel® HT Technology)¹; available in designated SKUs provides high performance-per-watt efficiency in an in-order pipeline. HT Technology provides increased system responsiveness in multi-tasking environments. One execution core appears as two logical processors, and parallel threads are executed on a single core with shared resources.

Intel® Server Processors

Intel® server processors deliver enhanced, energy-efficient performance for data-intensive business applications. Powering a range of multi-core 64-bit servers◊, Intel server processors enable you to optimize and scale computing environments to maximize server utilization to workload, while providing you with headroom for growth.

Intel® Xeon® processor 5500 series

Intel® Xeon® processor 5500 Sequence Overview:

The Intel® Xeon® processor 5500 series automatically and intelligently adjusts server performance according to your application needs for an up to 9x performance gain over single-core servers at 18 percent less operating power. This enables you to achieve a 9:1 server consolidation ratio, reducing operating costs by up to 90 percent resulting in an estimated 8-month return on a new server investment.

Faster performance enabled by Intel® microarchitecture, codenamed Nehalem
Automatically increase processor frequency and utilize Intel® Hyper-Threading Technology (Intel® HT Technology) as needed
Efficiently manage energy expense by scaling power consumption to workload, enabled by Intel® Intelligent Power Technology
Next generation Intel® Virtualization Technology enables best-in-class virtualization performance, superb scalability, enhanced flexibility, and simplified server management
Intel® Data Center Manager (Intel® DCM) software development kit provides power and thermal monitoring and management for servers, racks, and groups of servers in data centers. Management Console Vendors (ISVs) and System Integrators (SIs) can integrate Intel® DCM into their console or command-line applications and provide high-value power management features to IT organizations.

View the demo

Go inside the latest innovations in Intel® Turbo Boost Technology, Intel® QuickPath Technology, and Intel® Hyper–Threading Technology.

Features and benefits of the Intel® Xeon® processor 5500 series:

Next-generation Intel® microarchitecture	Intelligent next-generation Intel® microarchitecture adapts to the workload, automatically increasing processor frequency for greater performance
Intel® Turbo Boost Technology	Better performance enabled by Intel® Turbo Boost Technology, increasing processor frequency and enabling faster speeds when conditions allow
Intel® Intelligent Power Technology	Lower energy costs while minimizing impact to performance by automatically putting processor and memory into the lowest available power state
Integrated power gates	Individual cores are reduced to near-zero power independent of other operating cores
Intel® Virtualization Technology (Intel® VT)	Virtualize different generations of Intel® Xeon® processor–based servers in the same pool to deliver peak performance during high-use periods and automatically reduce energy cost during low-use periods
Intel® Virtualization Technology FlexMigration	Integrates multiple generations of Intel® Xeon® processor-based servers, improving flexibility for failover, load balancing, and disaster recovery
Intel® 64 architecture	Flexibility for 64-bit and 32-bit applications and operating systems
DDR3 memory support up to 1333 MHz	Up to 64 GB/s for three times the memory bandwidth over previous memory technology Up to 144GB supports higher performance for data-intensive applications Enhanced reliability, availability, and serviceability features
Intel® I/O Acceleration Technology (Intel® I/OAT)	Moves data more efficiently for fast, scalable, and reliable network performance Ability to significantly reduce CPU overhead, freeing resources for more critical tasks
Enhanced reliability and manageability	Many memory controller features, together with PCI Express* RAS features, combine to help improve platform reliability vs. previous-generation platforms New features include Error Correcting Code (ECC) system bus, new memory mirroring and I/O hot-plug

Intel® Xeon® processor 7400 series

Intel® Xeon® processor 7400 Sequence Overview:

The Intel® Xeon® processor 7400 series is designed to handle any IT consolidation project with ease while maintaining peak load application responsiveness. With key innovations like large on-die L3 cache, support for four or more processors, and expanded memory of up to 256 GB, servers based on the Intel® Xeon® processor 7400 series is the ideal choice for your large virtualization projects and data-intensive, business-critical performance requirements.

Extending today's lead in virtualization performance with built-in hardware assisted features and breakthrough gains in performance and energy efficiency
Built for data-demanding enterprise applications with up to 6 cores and a large shared 16MB L3 cache per processor, enabling more transactions per server
More headroom, improved reliability, and the highest scalability available for large scale server consolidation and business-critical virtualization

Features and benefits of the Intel® Xeon® processor 7400 series:

Intel® Xeon® processor 7400 series	Scalable performance with decreased footprint and power demands Industry's lowest watt per core platform with available 65 watt processor Based on 45nm Intel® Core™ microarchitecture enabling low voltage options for ultra-dense deployments Platform compatible with previous generation Intel® Xeon® processor 7300 series
Hardware-assisted virtualization technology	Maximize virtual machine density through large memory capacity and more processor resources Investment protection and flexibility with Intel® Virtualization Technology FlexMigration (Intel® VT FlexMigration) More efficient disaster recovery and high availability through virtualization Broadest ecosystem support with virtualization software providers and leading OEMs
Up to 16 MB shared L3 cache	Keeps more needed data closer to the cores for access faster than off-chip memory
Intel® 64 architecture	Flexibility for 64-bit and 32-bit applications and operating systems
Enhanced reliability and manageability	Outstanding platform reliability with many memory controller features, combined with PCI Express* RAS features Error Correcting Code (ECC) system bus, new memory mirroring and I/O hot-plug

Intel® Xeon® processor 3000 sequence

The Intel® Xeon® processor 3000 series-based platforms unleash the computing power of Intel® Xeon® processors. Based on the next-generation Intel® microarchitecture, codenamed Nehalem, these processors provide your business with exceptional performance and power efficiency at a very affordable cost.

The Intel Xeon 3000 processor-based servers protect critical business information and offer the performance and headroom to make employees and businesses more productive, making them ideal for small and medium business owners looking for ways to support rapid business growth on small technology budgets.

Intelligent Xeon processor-based servers adapt to your diverse workloads, automatically delivering peak performance when your business needs it
Dependable Intel® Xeon® processor-based servers protect your critical business information by providing error correcting memory and support for redundant storage capabilities
With the increasing dependence on computers, the Internet, and digital data, an Intel® Xeon® processor-based server offers the performance and headroom to keep your employees productive as your business grows

Features and benefits:

Next-generation Intel® microarchitecture, codenamed Nehalem	Intelligent next-generation Intel® microarchitecture adapts to the workload, automatically increasing processor frequency for greater performance.
Intel® Turbo Boost Technology	Better performance enabled by Intel® Turbo Boost Technology, increasing processor frequency and enabling faster speeds when conditions allow
Intel® Intelligent Power Technology	Lower energy costs while minimizing impact to performance by automatically putting processor and memory into the lowest available power state.
Integrated power gates	Power to the individual processor cores is reduced to near-zero power, independent of other operating cores.
Intel® Virtualization Technology	A suite of virtualization-specific hardware enhancements to Intel® processors, chipsets, and I/O devices to increase application reliability, security and overall system performance Enhancements to Intel Virtualization Technology performance that further speeds up virtual machine transition (entry/exit) times. Supports hardware assist for I/O virtualization using Intel Virtualization Technology for Directed I/O (Intel® VT-d).
Intel® 64 architecture	Flexibility for 64-bit and 32-bit applications and operating systems

Intel® Itanium® Processor 9000 Sequence

Itanium®-based servers deliver the scalable performance, reliability, and headroom for your most compute-intensive workloads, including direct replacement for RISC and mainframe platforms. Because Itanium processors are available in commercial off-the-shelf hardware from a rich ecosystem of system and solution providers, they can quickly meet mission-critical needs.

Itanium-based servers are incredibly scalable, allowing configuration in systems of as many as 512 processors and a full petabyte (1024TB) of RAM. Together with full support for both 32-bit and 64-bit applications, that capacity provides unmatched flexibility in tailoring systems to your enterprise needs.

Large-scale databases, data warehouses, ERP, business intelligence, and data analytics
Scales up to 512 processors and an incredible full Petabyte (1024TB) of RAM
Ultimate scalable performance, flexibility, and reliability

Features and benefits:
Dual-core processing, EPIC architecture, and Intel® Hyper-Threading Technology	Supports massive, multi-level parallelism for today's data-intensive workloads Provides headroom for fast access to information and real-time decision making Delivers fast responses to complex computations
Support for up to 512 processors and one petabyte (1024TB) RAM	Provides scalable performance for enterprise flexibility Gives IT the ability to increase processor and memory capacity as needed, in an open-ended framework
Up to 24MB of low-latency L3 cache	Prevents idle processing cycles with a high-bandwidth data supply to the execution cores Increases the efficiency of the memory subsystem
Intel® Cache Safe Technology	Automatically recovers cache after cache errors Delivers mainframe-class availability
Enhanced machine check architecture	Automatically detects, logs, and corrects errors Provides maximum system uptime
Intel® Virtualization Technology (Intel® VT)	Reduces virtualization complexity and increases performance Increases operating system compatibility
Demand-based switching	Dynamically reduced energy consumption during typical CPU utilization (in conjunction with enabled OS)
Core level lock-step	Enables one processor core to mirror the operations of the other

Intel® Workstation Processors

Changing ideas into reality just became faster. Workstations based on the Intel® Xeon® processor W5590, built on the new Intel® microarchitecture, codenamed Nehalem, deliver intelligent performance features that scale performance to meet your most daunting workstation tasks. Design, model, create, and visualize faster on innovation platforms powered by Intel.

Sunday, May 15, 2011

Intel® Xeon® processor W5590

Designed specifically for workstations, the Intel® Xeon® processor W5590 series with intelligent performance creates a new category—the digital workbench, combining high-performance computing (HPC) and workstation features into a single powerful innovation platform.

With digital workbenches, users can:

Create virtual wind tunnels
Simulate virtual drop test
Virtually test for manufacturability and assembly
Virtually test ideas with customers with photo-realistic digital mockups

Intel® Xeon® processor W3500 series and Intel® Core™2 processor family

Designed for single processor workstations, the Intel® Xeon® processor W3500 series, with intelligent performance features delivers the scalable performance necessary for premium single processor workstation experience;

enabling digital content creation, engineering, and financial users to create new ideas faster than ever before.

Intel® Core™2 processor family provides entry workstation users a functional feature set that delivers a rich workstation experience for entry design and development.