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

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 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.

Transcend triple channel DDR3-1333 memory kits

Transcend Information Inc has released its DDR3-1333 triple channel memory kits for use with Intel Core i7 processors and Intel X58 Express Chipset motherboards. Transcend’s triple channel kits are designed specifically for the new platform, and offer an optimized combination of low voltage (1.5V), speed and enhanced latency (9-9-9-24) to deliver suitable performance and compatibility with next-generation PCs.

Available in two different capacities of 3GB (1GBx3) and 6GB (2GBx3), Transcend’s DDR3-1333 triple channel memory kits’ three identically matched DDR3 modules are carefully matched for use in triple-channel configuration, which together provide memory bandwidth of up to 32GB/sec. To ensure extra-stability and signal integrity, all DDR3 modules use robust PCBs that fully comply with JEDEC standards.Each chip is manufactured using small Fine-Pitch Ball Grid Array (FBGA) packages with extra contacts to assure better thermal dissipation, electrical efficiency and reliable computing quality.

Transcend memory modules are built to the highest specifications with the finest chips and materials available, and undergo rigorous testing to ensure they provide the best performance possible. All Transcend memory modules come with a lifetime warranty and the support of a global service network.

ARM and x86 Microprocessors for Portable Device Market

The processor vendors supplying chips for ultra-mobile devices (UMDs) are playing a pivotal role in how this market is shaping up. x86-based processors are well entrenched in the PC world and ARM-based processors are well entrenched in the handset world. It is well known that the war is coming, but it remains to be seen who will benefit from it.

Since UMDs sit right between the PCs and handsets in terms of power, size, and function, x86-based and ARM-based processors will compete in the UMD space and are already fighting it out, starting with marketing wars.

“x86-based processor vendors are in a very good position in the near term as far as product wins and market share are concerned. However, as mobile internet devices (MIDs) start to surpass netbooks in shipment volumes, ARM-based solutions will be in a better position,” said ABI Research analyst Philip Solis.

Processors based on the x86 architecture hold a key advantage in that they are compatible with all x86-based applications – the same PC applications most people use today.

Since they evolved in a more portable and mobile device world, ARM-based processors have always excelled at low power consumption. For devices such as MIDs that may be used very heavily all day or may need to last for days without recharging, ARM-based processors hold the advantage.

The x86 vendors will have to make significant advancements in terms of power consumption while executing instructions in order to put up a better fight across the whole UMD space, while ARM is working with software vendors to ensure that as they develop processor architectures and instruction sets, the latest versions of software are compatible.“The future shape of this market will be determined by engineering success on the x86 side versus business success on the ARM side,” Mr. Solis concluded.
via:xbitlabs

Intel announced completion of 32nm Process Development Phase

Intel announced that it had completed the development phase of its next-generation manufacturing process that further shrinks chip circuitry to 32 nanometers.

The company said that it is on track for production readiness of this future generation using even more energy-efficient, denser and higher performing transistors in the fourth quarter of 2009.Intel will provide technical details around the 32nm process technology along with several other topics during presentations at the International Electron Devices meeting (IEDM) next week in San Francisco.

Finishing the development phase for the company's 32nm process technology and production readiness in this timeframe means that Intel remains on pace with its ambitious product and manufacturing cadence referred to as the company's "tick-tock" strategy.That plan revolves around introducing an entirely new processor microarchitecture alternating with a cutting edge manufacturing process about every 12 months.

The Intel 32nm paper and presentation describe a logic technology that incorporates second-generation high-k + metal gate technology, 193nm immersion lithography for critical patterning layers and enhanced transistor strain techniques. These featuresenhanced transistor strain techniques. These features enhance the performance and energy efficiency of Intel processors. Intel's manufacturing process has the highest transistor performance and the highest transistor density of any reported 32nm technology in the industry, the company claims.

"Our manufacturing prowess and resulting products have helped us widen our lead in computing performance and battery life for Intel-based laptops, servers and desktops," said Mark Bohr, Intel Senior Fellow and director of process architecture and integration. "As we've shown this year, the manufacturing strategy and execution have also given us the ability to create entirely new product lines for MIDs, CE equipment, embedded computers and netbooks."

Other Intel IEDM papers will describe a low power system on chip version of Intel's 45nm process, transistors based on compound semiconductors, substrate engineering to improve performance of 45nm transistors, integrating chemical mechanical polish for the 45nm node and beyond; and, integrating an array of silicon photonics modulators. Intel will also participate in a short course on 22nm CMOS Technology.

Core 2 processors with TDP desktop systems

Despite the recent debut of solutions based on Nehalem architecture, marketed under the brand name of Core I7 few days, Intel seems not willing to stop the development of solutions Core 2 Duo systems for Socket 775 LGA least for the first part of 2009 .

The debut of some new cpu with Intel quad core architecture characterized by low levels of consumption of particular content, with maximum TDP in 65 Watt said.

The models are to debut Core 2 Quad Q9550, with clock frequency of 2.83 GHz and L2 cache of 12 Mbytes, Core 2 Quad Q9400 with clock of 2.66 GHz and 6 MB of L2 cache and Core 2 Quad Q8200 with clock of 2.33 GHz and L2 cache of 4 MB. For all these cpu are the same value as TDP quad pumped bus and by 1333 for MHz clock.he prices are respectively 369, 320 and 245 U.S. dollars excluding taxes.

The following versions of the processor that will be presented by Intel during the month of November.
Core 2 Extreme QX9300
Core 2 Quad Q9100
Core 2 Extreme X9100
Core 2 Duo T9600
Core 2 Duo P9500
Core 2 Duo T9400
Core 2 Duo P8600.

Alienware Core i7 Area-51 X-58 desktop

Alienware has just introduced the Core i7-powered Area-51 X-58 and ALX X-58 gaming systems. Starting at $1,349, the Area-51 X-58 can be equipped with Core i7 920 (2.66GHz), 940 (2.93GHz) or Core i7 Extreme (3.2GHz) Core i7 CPUs, a X58 motherboard, up to 12GB DDR3 1066 MHz memory, at least a Radeon HD 4670 graphics card, 2TB of storage and even a 4x Blu-Ray writer.

At $3,699, the ALX X-58 has the same CPU and memory options but comes with at least one Radeon HD 3870 X2 or two GeForce 9800 GTX cards, 2TB via two 7,200 RPM drives or 600 GB through two 10,000 RM HDDs, and a Blu-Ray burner.Alienware Core i7 Area-51 X-58 desktop

DELL GAMING LAUNCHES THREE ALL-NEW SYSTEMS FEATURING INTEL® CORE™ i7 AND CORE i7 EXTREME PROCESSORS

· Alienware Area-51® X-58 – Starting at $1,649
· Alienware Area-51® ALX X-58 – Starting at $3,699
· Dell XPS 730x – Starting at $1,999
Miami – Nov. 17, 2008 – Dell Gaming brings unprecedented speed and performance with the launch of the Intel® Core™ i7, offering users the world's most powerful processors on three all-new extreme gaming desktops; the Alienware Area-51® X-58, Alienware Area-51 ALX X-58 and the Dell XPS 730x. By incorporating Intel's breakthrough new microarchitecture into these three dynamic systems, Dell Gaming delivers a revolutionary leap in in-game performance. The Intel Core i7 processor generates a greater number of instructions per clock cycle, enhancing the systems' simultaneous processing capabilities. This translates into improved physics, greater environmental interactivity, more intelligent AI and an overall boost in the immersive, real-to-life experience hardcore gamers demand.

The News
· Available today at www.alienware.com/X58 and www.dell.com/gaming, the Alienware Area-51 X-58 and ALX X-58 feature up to 12GB of triple channel DDR3 memory, while the XPS 730x offers up to 6GB. All three systems utilize the all-new Intel QuickPath Architecture to speed up communication between the processor and components throughout the systems. This delivers faster load times between game levels without sacrificing background applications such as game utility packages, surfing the Net or downloading movies and music. With a performance increase of over 20 percent compared to the previous generation platform, Intel Core i7 processors help these rigs crank out maximum benchmarks at peak game settings.
· In addition to this aggressive performance, the Area-51 X-58, Area-51 ALX X-58 and XPS 730x feature Dell Gaming exclusives such as:
o Alienware AlienFX® customizable lighting controls: Allows gamers to customize the system looks with software-controlled multi-zone lighting. Includes event-driven activities, like changing automatically when programs are launched or email is received.
o Alienware Command Center: Advanced user controls in a centralized, user- friendly access port for exclusive applications such as AlienFX® lighting, AlienFusion power management, and AlienSense facial recognition security features. (Alienware Only)
o XPS internal theater lighting for "under the hood" activities: a series of battery powered LEDs automatically light the interior when the side panel is removed. (XPS Only)
o Dell Gaming's bold, signature case designs, giving gamers maximum customization and an intense, immersive user experience.
· Gaming enthusiasts will be able configure Dell gaming systems to meet their unique specification with options like:
o Air-cooled or AlienIce™ or H2C high-performance cooled CPUs and chipsets
o Video card solutions from both ATI and NVIDIA, and all systems are ATI CrossfireX™ and NVIDIA SLI-ready.
o Multiple single and dual hard drive options, with support for RAID 1, 0, and 1+0 (up to 2TB on XPS, 4TB on Alienware).
o Choice of 750, 1000, 1200-watt power supply (Alienware only)
With Intel Core i7 processors, you get the advantage of:
· Intel 45nm Technology – delivers higher speeds, enhanced efficiency and improved thermal management
· Intel QuickPath Architecture – utilizes an on-board memory controller to move beyond the capabilities of the FSB and enjoy the full benefits of multi-core and microarchitecture-based CPUs
· Intel Hyper-Threading – enables Windows to deliver eight-threaded performance capability on four cores
· 64-Bit OS Ready – processes double the information of 32-bit-based systems, increasing responsiveness and maximizing your hardware's potential
· Intel Turbo Mode – shifts the processor into a higher gear for mind-blowing performance without a heat penalty
The Quotes
"By incorporating the revolutionary capabilities of Intel Core i7 and Core i7 Extreme Edition processors into the Alienware and XPS lines of gaming systems, Dell Gaming continues to lead the industry in delivering performance levels and in-game benchmarks that shatter all previously perceived limitations," says Arthur Lewis, head of Dell gaming group.

"Intel Core i7 processors represent the next stage in the evolution of desktop performance," says Doug Parker, Intel's Director of Marketing for America's Sales and Marketing Group. "By combining this dramatic technology with the expert engineering of Alienware and XPS systems, Intel and Dell are redefining gamers' expectations for power and efficiency."
For more information on Intel Core i7 processors in Alienware and XPS systems, please visit: www.alienware.com/X58 and www.dell.com/gaming.

Atom 330 is benchmarked

Atom 330 is benchmarked, worse than expected

Atom 330 is benchmarked

Intel's dual-core, 1.6GHz Atom 330 coupled with a 7200 RPM SATA hard drive and 1GB of DDR2 RAM,was benchmarked run-through, and they've got some conflicting details to pass on to you. Overall, the testers found the Atom to be, as expected, faster than the N270, but only by 16 percent. In specific tests, the 330 ran Office 2003 slower than both a 2GHz VIA C7-D and the single-core Atom; PC Pro actually performed the test several times just to be sure it wasn't a glitch... and it wasn't. The 330 performed better running 2D graphics, outpacing the N270 by 41 percent, and it also outperformed its competitors in encoding and multitasking.

Atom 330 is benchmarked

source

Intel Core i7 Nehalem launching on November 17

Intel provided information about its next-generation micro-architecture (Nehalem) with the Core i7 processors at a media event on Wednesday in Athens, Greece, prior to the worldwide official release of the system on November 17.Intel Core i7 Nehalem launching on November 17

The event ran under the headline of "the fastest processor on the planet". The two major characteristics of the new i7 architecture are the triple-channel integrated memory controllers and the new interface called Quick Path Interconnect (QPI). Other highlights include the monolithic die to consolidate all four cores in a single piece of silicon, and the shared L3 cache. Further improvements include the use of the Hyper-threading as well as the Turbo Boost technologies. The Core i7 processors are also optimized to operate with Intel's X58 chipset.The Corei7 series will feature three quad-core models: The 2.66 GHz Core i7 920 will aim for the sub-$1000 class of PCs, the 2.93 GHz Core i7 940 for more expensive PCs in the $1500-$2000 range and the 3.2 GHz 965 Extreme Edition at enthusiast PCs.

The prices (1K pieces) of these CPUs are $999 for the Extreme Edition, $562 for the 940 and $284 for the 920.The X58 Express chipset covers both the northbridge/southbridge operations. The X58 IOH supports up to 36 PCIe 2.0 lanes. Depending on the processor model, QPI may run at either 6.4 GT/sec (Core i7-965) or 6.4 GT/sec (Core i7-940, i7-920) to communicate with the X58 Express chipset in each direction. This is twice the bandwidth of Intel's currently available X48 chipset, plus the full-duplex transport instead of the half-duplex. AMD's HyperTransport 3.0 still has an advantage herewith up to 41.6GB/s of bi-directional bandwidth.However, the X58 Express does not support the legacy PS/2 IDE, serial or parallel ports.

Turbo mode

Under the "TurboMode", the utilization of the number of active cores is used to adjust the frequency. For example, if only two cores are active, then there will be much more headroom within the thermal and power envelope and the CPU will be clocked higher. So the "turbo" frequencies of each core depend on the number of cores active. We could say that this is mainly a power saving feature.

Turbo Mode boasts single threaded applications as well as the performance of multi-threaded applications, according to Intel. Below is a graph that Intel showed with the Core i7 Extreme CPU to process in single-core and quad-core configurations, with Turbo Mode enabled. The graph shows the percent performance increase with Turbo Mode enable.
Technorati Tags: core i7, intel i7, chipset, core i7, gadgets, hardware, Intel, Nehalem Chipset, processor

Intel shows working 80-core processor

Last year, Intel announced a project to build a processor that would pack no less than 80 cores. While the idea may seem rather futuristic to some, the chip maker is reported to have already demonstrated the CPU at the Gitex Dubai trade show. Reports say that the Santa Clara based company wasn't shy at all at showcasing the processor, with the demonstration being made in the general public area outside of the trade show.

Intel shows working 80-core processor

As we all know, Intel has other multi-core projects in the pipeline, and Larrabee is one of them. However, the showcased processor was not Larrabee, but another CPU. The company is said to have started working on this CPU long before Larrabee came into play. The showcased CPU features 80 small cores, and is able to deliver 1 Teraflops of computing power. The 80-core chip is said to need only 78.35W of power, and that it features a 3.13GHz clock speed.

According to Fudzilla, Intel also detailed several other features of the CPU. The technology it comes with allows for almost all of the cores to be totally shut down when not needed. Also, it seems that the CPU can downclock all the way to 780MHz in such situations, and that the peak Teraflops performance will drop to 0.01. The CPU would only need 6.45W to compute the 4tile, 4x4 matrix mult withcomm equation.The research processor was built under the 65nm process and the company expects it to be ready for the market in the next five or seven years. It seems that Intel will come out with this eighty-core CPU as a part of the future line of sixteen, thirty two, sixty four CPUs, right before a ninety six-core version. The chip manufacturer considers the multi-core as being the near future for the CPU industry, although such an approach might sound rather idealistic.

Since the current multi-core processors are already facing problems concerning the lack of adequate software able to scale on a large number of cores, Intel should also consider conducting a research project in this area as well, so as to allow users to benefit from all the eighty featured cores.

Technorati Tags:intel, cpu, 80-core, processor, gpu, hardware

Core i7 dated for November 17th

Intel will launch its Core i7 processors at a press event in San Francisco on the 17th of this month and already we have pricing estimates sliding off whispering lips. Distributors buying in bulk will pay a modest $284 for the 2.66GHz Core i7-920, $562 for the 2.93GHz 940, and $999 for the 3.2GHz Extreme 965 -- consumers will pay more of course, but we don't know exactly how much. Even the 920 squarely defeated the Core 2 Quad Q9650 in benchmarks, and we'll admit we had fun playing with the 965 over the weekend. As for those of you who haven't been so lucky, your chance to run up that credit card debt is fast approaching.
source:TG Daily

Kingston’s First 2GHz Memory for Intel Core i7 Platforms

Kingston detailed its family of triple-channel memory module kits designed for next-generation Intel Core i7 processor and Intel X58 chipset-based platforms. Apparently, Kingston will be the first company to offer end-users 2GHz memory modules designed for Intel Core i7 chips.

“Kingston is excited to bring the fastest DDR3 triple-channel memory products to market as we are the first to deliver 2000MHz gaming kits of three with reduced voltage. All of our triple-channel kits can be overclocked manually or by using XMP-ready profiles. The 2GHz modules have been tested to support up to that speed on Asus P6T Deluxe motherboards while the Intel DX58SO motherboards have been tested up to 1600MHz,” said Mark Tekunoff, senior technology manager at Kingston.

Kingston’s DDR3 triple-channel memory kit family looks as follows:

• Kingston HyperX PC3-16000 3GB with XMP: 2000MHz clock-speed, CL9 9-9-27 latency settings, 1.65V voltage (KHX16000D3K3/3GX) – $334
• Kingston HyperX PC3-14900 3GB with XMP: 1866MHz clock-speed, CL9 9-9-27 latency settings, 1.65V voltage (KHX14900D3K3/3GX) – $317
• Kingston HyperX PC3-14400 3GB with XMP: 1800MHz clock-speed, CL9 9-9-27 latency settings, 1.65V voltage (KHX14400D3K3/3GX) – $312
• Kingston HyperX PC3-12800 3GB with XMP: 1600MHz clock-speed, CL8 8-8-24 latency settings, 1.65V voltage (KHX12800D3LLK3/3GX) – $285
• Kingston HyperX PC3-11000 3GB with XMP: 1375MHz clock-speed, CL7 7-7-20 latency settings, 1.65V voltage (KHX11000D3LLK3/3GX ) – $192
• Kingston ValueRAM PC3-10666 6GB: 1333MHz clock-speed, CL9 9-9 latency settings, 1.5V voltage (KVR1333D3N9K3/6G) – $240
• Kingston ValueRAM PC3-10666 3GB: 1333MHz clock-speed, CL9 9-9 latency settings, 1.5V voltage (KVR1333D3N9K3/3G) – $132
• Kingston ValueRAM PC3-8500 6GB: 1066MHz clock-speed, CL7 7-7 latency settings, 1.5V voltage (KVR1066D3N7K3/6G) – $240
• Kingston ValueRAM PC3-8500 3GB: 1066MHz clock-speed, CL7 7-7 latency settings, 1.5V voltage (KVR1066D3N7K3/3G) – $142

With 2GHz DDR3 memory modules with relatively low voltage settings designed for Intel Core i7 central processing units in the lineup, Kingston has all chances to substantially boost its sales and become more popular among enthusiasts seeking for maximum performance possible. source:xbitlabs.com

Rumours about Intel launching Montevina Platform for notebooks

Intel is going to update its Montevina notebook PC platform in April, 2009 with the introduction of the Montevina Refresh platform, according to a DIGITIMES report, which cites unnamed sources within Intel. The launch of the platform will be accompanied by two new processors, the Core 2 Duo T9900 and P8800.


Intel also plans to unveil its GM47 chipset for high-end notebooks in first quarter of next year. Entry-level and small form factor (SFF) PC will also not be over looked, as Intel will launch the GL43 and GS40 chipsets in July or August.A deluge of new processors for the Centrino 2 platform are soon going to be made available by the world’s leading chip maker. Also, the GM55 chipset for Intel’s upcoming 6th generation Centrino platform, Calpella, will become available in July or August next year.

Intel thinking use of jet engine's cooling technique

Intel is looking to cool your laptop with the exact same technology that a jet engine does. The issue of burning legs (that’s right, burning legs) has been an issue on the mind of Intel for some time now, and they’re looking to soothe that with their latest breakthrough.

Intel jet engine's cooling technique

Intel has been focusing on the increasing issue of hot thighs with something called Laminar Flow. Laminar Flow occurs when a fluid or gas/air flows in parallel layers, allowing a non-turbulent way to misdirect hot air away from the surface of a jet engine (or laptop). As demonstrated, this technology allows efficient cooling of temperatures upwards of 1,000 °C.A demo of this technology was given at this week’s Intel developer forum in Taiwan by Mooly Eden, Intel’s head of Mobile Platforms Group. “We are licensing it to our customers so they can keep making thinner and thinner laptops,” said Eden.

Technorati Tags:laptop, notebook, processor, intel jet cooling, jet engine cooling

Intel's Clarksfield to begin production in second half of 2009

Penryn-based Monteniva just hit the streets a few months ago, but hardware geeks are fickle fellows, so Intel said today that Clarksfield, its Nehalem-based mobile CPU, will go into production in the second half of next year; sadly, there was no word on when the chips will actually be available to consumers in the Calpella platform, which (rumor has it) will have built-in WiMAX. Clarksfield will include an onboard memory controller and a bunch of other new techs like its desktop brethren, so the promise of performance gains comparable to what we've seen in the desktop benchmarks is there -- we'll just have to wait at least a year to enjoy them, so get comfy.

Memory Kits For Intel i7 CPUs from OCZ

Memory Kits Optimized for Intel i7 CPUs from OCZ

OCZ Technology unveiled the industry's first triple channel memory kit designed specifically for the impending Intel Core i7 processor / Intel X58 Express Chipset, available in 3GB and 6GB kits.

The new memory modules are Optimized for the Core i7's triple channel mode, combining low voltage requirements, speed, and latency.

Memory Kits For Intel i7 CPUs from OCZ

Developed for enthusiasts and early-adopters, the low voltage OCZ Triple Channel solutions are the choice counterparts for leading-edge performance that won't inhibit the functionality of Core i7 CPUs."OCZ engineered these 3GB and 6GB kits specifically for Intel's imminent platform," commented Dr. Michael Schuette, VP of Technology Development at OCZ Technology. "By using special-screened, low voltage-capable ICs, these modules are the perfect complement for the Intel X58 Chipset to deliver the maximum performance by enabling low latency settings and higher system frequency."The advanced memory modules offer clock speeds up to 1600MHz at just 1.65V memory voltage. Elpida memory has also anounced the development of DDR3 memory that match these specifications.

OCZ will release the triple channel kits under the Platinum and Gold series designed specifically for enthusiasts and gamers:

OCZ PC3-10666 Gold 3GB (3X1GB) 1333MHz CL 9-9-9-20 1.65V
OCZ PC3-10666 Gold 6GB (3X2GB) 1333MHz CL 9-9-9-20 1.65V
OCZ PC3-12800 Gold 3GB (3x1GB) 1600MHz DDR3 CL8-8-8-24 1.65V
OCZ PC3-12800 Gold 6GB (3x2GB) 1600MHz DDR3 CL8-8-8-24 1.65V
OCZ PC3-10666 Platinum 3GB (3x1GB) 1333MHz CL7-7-7-20 1.65V
OCZ PC3-10666 Platinum 6GB (3x2GB) 1333MHz CL7-7-7-20 1.65V

OCZ?s Triple Channel kits feature propriety XTC (Xtreme Thermal Convection) heatspreaders. The company has not provided pricing details.

Intel Initiates Shipments of Core i7 Microprocessors.

Paul Otellini said during a conference call with financial analysts that the chipmaker has initiated shipments of its new microprocessors based on Nehalem micro-architecture. The new chips will enable higher performance and will also utilize radically different platform architecture that will resemble that of Advanced Micro Devices.

Intel Core i7/Nehalem Now Shipping

“I am pleased to announce that we began shipments of our Nehalem product family during the third quarter and expect to formally launch these products in November. Nehalem brings a new micro-architecture and new performance features. This new product family will further extend our performance leadership in microprocessors,” said Mr. Otellini while announcing financial results for the third quarter.

Mr. Otellini said that despite of economy crisis Intel intends to release its Core i7 as well as Xeon processors based on Nehalem micro-architecture as soon as possible in order to boost demand in certain market segments, which would naturally offset lowering demand from corporate segment in the USA.

“We are trying to pull them in as fast as possible. I think having those products simply makes us even more competitive and I think they generate some demand in some segments where we haven’t been participating, so that’s one where I feel pretty good about the product line and the sooner we get to it, the better across the board,” said chief executive of Intel Corp.

The release of Intel Xeon processors powered by Nehalem micro-architecture will particularly improve Intel’s positions on the market of servers, where AMD still can offer a lot of advantages over rival’s offerings. Given that Intel’s desktop processors aimed at professionals and entertainment enthusiasts are already faster than those from AMD, the chip giant only needs new chips in that segment to encourage end-users for upgrades.

Best Third Quarter Revenue in Its History – Intel

Intel on Tuesday announced record third-quarter revenue of $10.2 billion along with operating income of $3.1 billion, net income of $2 billion and earnings per share (EPS) of 35 cents.

“Intel delivered the best third-quarter revenue in its history. We were solidly profitable, with operating income of over $3 billion, reflecting strong across-the-board execution and best-of-class products” said Paul Otellini.

The company said that strong product portfolio and new product launches will help the company to remain successful amid financial crisis.

“As we look to Q4, it is hard to know what impact the financial crisis will have on end customer demand. We are confident that our product portfolio, strong cash flow, commitment to deploying new technology and market momentum will allow us to outpace peer companies at a time when business levels are difficult to predict,” the head of Intel promised.
New Chips Set to Boost Performance by 52%

Documents from Intel Corp. allegedly seen by a web-site earlier this month reportedly mention that Intel Core i7 processor 965 (3.0GHz) delivers 52% speed improvement in 3D games, 41% higher performance in media encoding and editing applications as well as 38% greater 3D rendering speed when compared to Intel Core 2 Extreme QX9770 (3.0GHz). If the information regarding performance improvements is correct, then it means that the new micro-architecture in its first implementation provides roughly 52% more performance at the same clock-speed compared to currently used Core 2 micro-architecture.

The main micro-architectural enhancement for Intel Core i7/Nehalem that Intel has discussed so far is increased parallelism – the new microprocessors will be able to execute 33% more concurrent micro-ops at the same time. Additional improvements include faster unaligned cache accesses and faster synchronization primitives. In order to exclude situations when execution units stand idle, Intel also implemented new 2nd level branch predictor.

Another key enhancement of Intel Nehalem is completely redesigned cache sub-system. The new chips will feature 2nd level 512 entry translation look-aside buffer (in addition to 1st level TLB) in order to further reduce the so-called TLB miss rate, a completely new feature on x86 microprocessors. In addition, Intel Nehalem processors (at least, in certain implementations) will have three-level cache hierarchy: 64KB L1 (32KB for data, 32KB for instructions), 256KB L2 cache per core, 8MB L3 cache per processor. Traditionally, Intel chips use inclusive cache policy.

The Intel Core i7 chips will feature triple-channel DDR3 memory controller (with up to 1333MHz clock-speed supported initially), will use Quick Path Interconnect (QPI) bus and will support multi-threading technology similar with Intel Hyper-Threading that was first unveiled back in 2002 as well as SSE4.2 instructions. source

Intel patent attorneys kick some dirt at AMD

AMD's breakup into two separate companies is certain to have wide-ranging impact in the industry, and unsurprisingly, Intel's among the first to react -- it's warning that it has "serious questions about this transaction" as it relates to its patent cross-licensing agreement with AMD and that it'll "vigorously protect" its intellectual property rights. That's about as aggro a patent attorney can get without coming to your house and peeing on the lawn , so we'll see how this shakes out -- for its part, AMD says that it's taken the deal into account, and that it'll "continue respecting Intel's intellectual property rights, just as we expect them to respect ours."


While Intel has expressed concerns over the recently-announced spin off of AMD's manufacturing assets, the Athlon and Phenom maker has stepped up to say it believes there's nothing to worry about. According to Intel, the spin off deal may result in a violation of its patents through the breaking of the cross-licensing agreement signed by the two chip companies.

In response, AMD stated that their move won't lead to any patent issues and will respect Intel's IP (Intellectual Property). That surely isn't enough for Intel so expect a bit more drama coming out of this.

Intel: Core i7 to Be Up to 52% Faster Compared to Core 2 Quad.

Intel Predicts Massive Performance Improvements with New Chips: Intel Core i7

Intel Corp. expects its forthcoming Intel Core i7 processors to be much more powerful compared to existing central processing units, according to documents reportedly seen by the media. If the information turns to be precise enough, then Intel has all chances to keep processor performance crown even after smaller rival Advanced Micro Devices launches its new chips.

Documents from Intel Corp. mention that Intel Core i7 processor delivers 52% speed improvement in 3D games, 41% higher performance in media encoding and editing applications as well as 38% greater 3D rendering speed when compared to Intel Core 2 Extreme QX9770.

Intel Core i7 965 is a premium class Nehalem-micro-architecture microprocessor for desktops that operates at 3.20GHz. The Core 2 Extreme QX9770 is Intel’s top-of-the-range CPU at the moment at that also works at 3.20GHz. If the information regarding performance improvements is correct, then it means that the new micro-architecture in its first implementation provides roughly 52% more performance at the same clock-speed compared to currently used Core 2 micro-architecture.

The numbers are quite vague, but it is directly coming from Intel. Compared to a more expensive product, we can’t expect more. (QX9770>1450USD, Core i7-965=999USD)
Intel did not comment on the news-story.

Advanced Micro Devices recently said that its forthcoming quad-core processors powered by improved K10 micro-architecture will be roughly 35% more powerful than its existing chips at the same clock-speed.