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Intel Core 2 Duo E8400 3.0GHz

In the summer of 2006, Intel released their 65nm Conroe-based processors, and to say they won the hearts of many would be an understatement. It was one product-launch that Intel didn't want to hit lightly, especially since AMD were actively taking from their customer base - on the enthusiast side, most notably. When said and done, Intel did accomplish what they planned to do. They put the industry through a blender and showed us how to be excited about processors again. Although frequencies with Conroe were not as high as what we were used to seeing from Intel, the folks in Santa Clara proved that a high frequency didn't mean much if the processor itself was inefficient. Indeed, a 2.4GHz Conroe Dual-Core proved just how much better an efficient processor could be, and it quickly became the most common processor choice for the enthusiast.The following summer, follow-up processors were released, including the E6750 Dual-Core which we evaluated at the time. Besides speed bumps, those processors didn't bring much to the table in way of new features, except for native 1333FSB support. Instead, the processor we are taking a look at today is one of the few new models that effectively replace the Conroe-based chips that we came to love so dearly in summer of '06.

I won't delve deep into how 45nm improves on 65nm, as I explained all of that in our QX9650 review, but I will touch on things briefly. One large benefit that comes with all die shrinks is better power efficiency and lower temperatures. Chips have the capability to run just as fast, if not faster, than their predecessors, all while running cooler and drawing less power. It's a win/win situation.But with 45nm, Intel introduced more than just a die shrink. The biggest feature that most people will be interested in is the SSE4 instruction set. It affects media-buffs only - those who encode videos - but the performance gains are so evident, that developers of such applications are bound to begin supporting it sooner than later. The speed increases could be as large as 2x, even though it's difficult to believe.

Other improvements include increased L2 cache, half-multipliers (eg, 9.5x), a faster front-side-bus, improved Super Shuffle Engine, Smart Cache (to improve how split loads are accessed and stored) and so many transistors on a single die, it can give people headaches to think about it!The obvious downside of the QX9650 launch in November was the fact that no other processors complimented it. Therefore, it was QX9650 or bust - until now that is. During CES earlier this month, Intel officially announced their 45nm launch plans, which include the desktop side, server and also mobile. We found out at that time that the Quad-Core models (Q9300 - Q9550) were pushed back to sometime in Q1. Although a solid date was never settled on, original road maps showed January as the scheduled launch. However, the rumor is that due to poor performing Phenom Quad-Core sales, Intel decided to hold off on the launch to help push remaining 65nm models to consumers first.So how does the road map stand now that some time has past? Although Intel announced near-immediate availability of all 45nm desktop Dual-Cores at CES, only the E8400 has shown up on e-tailers. One popular e-tailer has the other models listed for availability in April. How true that is, I'm unsure, but it's strange given the fact that they were supposed to be available by now.Processor Name

Intel® Core™2 Processor Family

When launched later this year, the Intel® Core™2 Duo processor will provide enhanced performance and energy-efficiency in mobile applications while bringing for the first time the benefits of energy-efficient performance to mainstream desktop computing. It will be Intel's highest performing desktop processor ever and the new first choice of gamers and multimedia professionals worldwide.As with the Intel® Pentium® processor brand, use of the number "2" signals the arrival of the next generation of technology to the Intel® Core™ processor line. In order to be consistent with our current Intel Core processor naming, we are continuing to use "Duo" to creatively and effectively indicate Intel® dual-core technology.

Intel unveils first India chip

The world’s largest chipmaker, Intel, on Tuesday unveiled its latest microprocessor for servers, designed entirely by its Bangalore team and developed in a record two years. The Intel R&D centre in Bangalore designed the Xeon 7400 series processor and it marked the first time that work on the 45 nanometre technology was taken up by the company outside its US home base. The six-core microprocessor is based on Intel’s x86 architecture.A 300-member team from Bangalore undertook the work with support from units in the US and Costa Rica, Intel India president Praveen Vishakantaiah said.Intel’s Bangalore R&D operations, which started a decade ago, have grown to become one of the largest centres outside the US. Besides the six-core microprocessor, the India R&D team has made important contributions to the teraflop and quad-core Xeon processor.Mr Vishakantaiah described it as a validation of the Bangalore operations and termed the country as a strategic destination as Intel India continues its focus on high-end technology development. The company said that upgradation costs in moving to the new server chips would be limited as the existing technology platform would support its new microprocessor. R Ravichandran, South Asia sales director Intel said the new processor would allow a10-fold reduction in power consumption while substantially increasing performance.

22nm 8-core processor

In the 'Tick, Tock' model, Tock means a new CPU architecture every two years followed by the Tick which means die-shrinkWhile the world is still talking about Intel's shift from 45nm to 32nm, Intel has gone one step ahead and added a 22nm 8-core processor micro-architecture to their design roadmap.At the Intel Developer Forums, Intel talked about their 'Tick, Tock' model of chip development, transition from 45nm to 32nm and also briefed about the 22nm chip design plans. This update comes in the wake of Intel's talks with regional R&D engineers, who shared the project status for next 5 years. A French site called CanardPlus managed to grab the slide from Intel Developer Forum.In the 'Tick, Tock' model, Tock means a new CPU architecture every two years followed by the Tick which means die-shrink. Intel has announced the 45nm Nehalem's successor called Westmere (previously Nehalem-c) on 32nm die-shrink due for release in 2009. Westmere's special feature is the 8-core CPU design where each core will have its own 512 KB L2 cache, and general divided 16 MB cache at the third level.During 2011-12, Intel plans to release 'Ivy Bridge' as the first 22nm chip in 2011, and then follow it up with the 22nm micro-architecture, code named Haswell, that will carry 8-cores in 2012. The Ivy Bridge will be released after 'Sandy Bridge' (previously named Gesher) from the 32nm micro-architecture in 2010.Source: Techtree.com

Intel Processor Details

When we look at a Notebook or PC which comes with Intel Processors, we see they are mentioned as Intel Pentium or Intel Dual Core and a model number, such as Pentium 631or Core 2 Duo E4400 or Core Duo T2080 or may be Pentium D 820…What is those numbers mean ??You may take a look at Intel Web site information for Intel Processor number details and for convenience you may refer to this below information for all the model number details…You may download the complete chart for all Intel Processor number and their details from the bellow

Universal Type Server

1. Fits any corporate or workgroup environment—regardless of size, workflow or IT support
2. Designed from the ground-up using modern architecture for great stability and speed
3. Leverages SQL-based server and clients with state-of-the-art user interfaces (Cocoa and .NET), outstanding previews and enhanced font handling
4. Supports Mac and Windows environments, offering a great user experience regardless of platform
5. Features web-based administration. Manage your type libraries, users, and backups from anywhere—anytime
6. Includes powerful User Roles for easier administration and more granular control
7. Tracks font licenses and provides reports on usage
8. Provides a seamless transition for both Suitcase Server and Font Reserve Server customers with free migration tools and Active Directory import
9. Meets compatibility requirements: Windows (including Vista), Mac OS X (including Leopard), Adobe CS2/CS3, and QuarkXPress 6.5/7
10. Universal Type Server will be available Spring 2008

AMD unleashes triple-core,

Everything hasn’t exactly been great for AMD lately, but the plucky chip maker has some news for us today. Despite the tough times, the company earned a number of positive reactions from the recent First, triple-core is finally here.

We have been hearing about this for months, and after all complaints about triple-core being nothing more than failed quad-core processors, consumers will be able to find out for themselves. The triple core Phenoms will launch as mainstream processors, aimed at users who are interested in additional performance relative to dual-core offerings, without having to substantially increase the amount they are spending. AMD says that triple-core Phenoms will be ideal for budget-minded users who have high-definition content in mind, and that the processor will be a great match for 780G.and it is following that up with three announcement today.

So far, we know about the Phenom 8600 (2.3GHz) and 8400 (2.1GHz). They will have L1 cache sizes of 64K of instruction and 64K of data cache per core (512KB total L1) and L2 will hold 512KB of L2 data cache per core (2MB total L2 per processor). These are 65 nm processors that are backwards compatible with AM2 motherboards. The TDP for both models is 95W. We are still waiting on , but it looks like they will be a bit over US$150.The next piece of news dropped concerned new processors, including the Phenom X4 9850 Black Edition and Phenom X4 9750. These are additions to AMD’s quad-core lineup that will run at 2.5GHz and 2.4GHz, with TDP ratings of 125W. The new in the 95W TDP are the 9650 and the 9550, which will come in at 2.3GHz and 2.2GHz. So, nothing groundbreaking, but the larger point is that AMD is aiming to make quad-core accessible, while maintaining it as the company’s high-end offering. A quad-core Phemon matched with the 790 chipset is the companies top-shelf offering for gaming, supposing you also pony up the dough for a competitive video card. These are bug-free B3 revision processors.

Intel Core 2 Duo

it hasn't been a full year since we saw Intel launch their Core 2 Duo processors, but we will soon be seeing a line-up refresh. This is one product that really needs no introduction, but seeing as this is a refresh, refreshing everyones minds seems appropriate. Intel launched the Core 2 Duo to much fanfare last July. Months prior to this, enthusiasts were drooling over leaks of performance reports, which fortunately, turned out to be right on the money.

The entire Conroe line-up is built on a 65nm process, with the mainstream products offering 4MB of L2 cache. Improved over the previous Pentium 4/Pentium D line-up was better power efficiency resulting in a lower TDP and better overall temperatures. This is appreciated, as two cores under the same IHS can potentially create an unwanted room heater.

All but the lowest end Core 2 Duos take advantage of a 1066FSB. This is where this refreshed line-up comes into play, as it ushers in 1333FSB computing. This noticeable speed bump is all done while retaining the same TDP.

All Conroe 1333FSB processors are identified by by a 50 at the end of the product name, hence E6750, which is effectively taking over the spot of the E6700. Nothing has changed except for the FSB and speeds, except the ratio of course, which had to be altered in order to compliment the upgraded frequency.

One thing that should be cleared up is that most overclocking enthusiasts have already accomplished the same speeds we are seeing today, with most being exceeded. In fact, there is nothing stopping anyone from popping in an E6600 and overclocking using a 333FSB and 8 multiplier. That would effectively give you the exact same speed as the E6750 we are taking a look at today.

You might be wondering where the benefit is, with this official speed bump. Primarily it will benefit those non-overclockers most. There is no comparison to equal processor speed at 1066FSB and 1333FSB. That added FSB frequency should make a much more noticeable performance difference than the CPU frequency boost itself.

Intel® Core™2 Duo Desktop Processor

Depending on the type of system and the chassis characteristics, new system and component designs may be required to provide adequate cooling for the processor. The goal of this document is to provide an understanding of these thermal characteristics and discuss guidelines for meeting the thermal requirements imposed on single processor systems using the Intel® Core™2 Duo desktop processor E6000/E4000Δ sequences, Intel® Pentium® Dual Core Processor E2000Δ sequence, and Intel® Pentium® 4 Processor 6x1Δ Sequence.

The concepts given in this document are applicable to any system form factor. Specific examples used will be the Intel enabled reference solution for ATX/uATX systems. See the applicable BTX form factor reference documents to design a thermal solution for that form factor.

64-bit computing on Intel architecture requires a computer system with a processor, chipset, BIOS, operating system, device drivers and applications enabled for Intel® 64 architecture. Processors will not operate (including 32-bit operation) without an Intel® 64 architecture-enabled BIOS. Performance will vary depending on your hardware and software configurations. Consult with your system vendor for more information.

Δ Intel® processor numbers are not a measure of performance. Processor numbers differentiate features within each processor family, not across different processor families. See www.intel.com/products/processor_number/ for details.

Not all specified units of this processor support Enhanced Intel SpeedStep® Technology. See the Processor Spec Finder at processorfinder.intel.com or contact your Intel representative for more information.

Intel® Virtualization Technology (Intel® VT), Intel® Trusted Execution Technology (Intel® TXT), and Intel® 64 architecture require a computer system with a processor, chipset, BIOS, enabling software and/or operating system, device drivers and applications designed for these features. Performance will vary depending on your configuration. Contact your vendor for more information.

Enabling Execute Disable Bit functionality requires a PC with a processor with Execute Disable Bit capability and a supporting operating system. Check with your PC manufacturer on whether your system delivers Execute Disable Bit functionality.