Intel Core i7 intel’s latest CPU is here

It's hard to recall a more anticipated CPU release than the Core i7, the desktop CPU which will be available in a few weeks, based on the microarchitecture codenamed Nehalem that is being launched today. As soon as Intel began releasing�bits of information last year and started showing off their architecture at conferences, performance exceeded expectations, and the buzz began.
And from there, the buzz grew, along with expectations. The desktop processor came to be known as Core i7 (with no explanation where the number 7 came from, but it's easy to see why Intel kept the highly successful Core name), and we're finally able to share full information and benchmarks with you - a full 2 weeks ahead of the official launch of the retail desktop CPU.
Sometimes Great Isn't Good Enough
Intel's previous microarchitecture, codenamed "Core", stems from sheer necessity due to the failure of "Netburst" microarchitecture. After the debacle that was the Prescott core, Intel abandoned Netburst, and worked on developing a version of their Pentium-M microarchitecture (which is actually a hybridized, modernized�version of Pentium 6 for mobile, since there was no way they could make Netburst work for mobile computing) for desktop and server applications. This came to be known as Core, and because Intel alternates between refreshing a microarchitecture, and inventing a new one every other year, turned into Penryn last year.
Core and Penryn had little trouble dominating anything AMD had to offer during those years. Just last week, we took a look at AMD's fastest desktop processor - the Phenom X4 9950, and it could barely keep up with Intel's bottom- and middle- range quad core processors. However, because of the way they are designed, there is at least one thing holding them back from their true potential - the Frontside Bus.
Although Intel made vast improvements going from Netburst to Core to Penryn, the Frontside Bus remained. Intel was able to sort of negotiate around it, by offering vast amounts of L2 cache on their higher-end models, and eventually had the FSB running at 1600 MHz. However, the limits of of the FSB were quickly being reached, and there was no way Intel could take Penryn much further without a huge change in architecture. That's why Nehalem introduces an integrated memory controller, and an interface known as QuickPath�for the CPU cores to communicate extremely efficiently.
If all this sounds familiar, you are correct -�AMD saw the need to move to a similar design many years ago, and they have been using an integrated memory controller with the HyperTransport bus since 2003. This tells us that it isn't the design of AMD's processors that fail, but the implementation (at least on the desktop side).
Core and Penryn bore many processors; on the desktop there were about 10 different core codenames, including the "XE" variants. The mobile platform also saw 10 of its own, and Intel offered 11 variants intended for the server market. This sounds like a lot of different cores, but many of the same ones overlap between markets. For the most part, these cores are all very similar; the main differences are usually cache size, FSB speeds, and a few other things.
And that clearly explains one of the main philosophies of Nehalem - have a core that can be adapted and manipulated as Intel sees fit, depending on the target user of the processors. Nehalem will supply Intel with desktop, server, and mobile processors, and there will be more differences other than cache size and FSB speeds

Intel adds two new Atoms for netbooks

Intel on Wednesday introduced two new Atom processors for mobile Internet devices, or MIDs, such as netbooks, and demonstrated an upcoming Atom-based netbook platform that it said significantly cuts power usage.
The Atom processor powers many of the netbook PCs that have proven popular in recent years, such as Asus's Eee. Demand is such that, in March, Intel announced it would begin outsourcing Atom production to Taiwan Semiconductor Manufacturing Co (TSMC) in order to increase the chip's availability.
The two new processors, the Z550 and Z515, include performance enhancements. The Z550 runs at 2GHz--the fastest yet for an Atom chip--and supports Hyper-Threading, a technology designed to allow more calculations to be carried out in parallel. The chip is the highest-performance processor running at under three watts of power, Intel said.
The Z515 is aimed at conserving power in hardware with small and light form factors. It uses a technology called 'Burst Performance' that allows it to run at 1.2GHz when higher performance is needed, for short periods.
Also on Wednesday, Intel's Ultra Mobility Group general manager Anand Chandrasekher gave the first demonstration of Moorestown during a keynote speech at the Intel Developer Forum in Beijing. Moorestown is an Atom-based platform set for release next year.
When idling, the platform uses 10 times less power than Intel's current Atom-based platform, Intel said. This is achieved through the use of new power-management techniques and a more advanced manufacturing process, the company said.
Moorestown features a system-on-a-chip that has an Atom processor core manufactured using Intel's 45nm process. This is integrated with a graphics, memory and video controller and an input/output hub.
Recently introduced netbooks using Atom include Samsung's N120 and Dell's Inspiron Mini 10.

Intel pushes new mini motherboards

Chipmaker Intel Wednesday launched two new motherboards suited to nettops and small form factor desktops at its annual partner conference on the Gold Coast.
One of the boards, the D945GSEJT (codenamed Johnstown), featuring the 45nm Intel Atom processor and Mobile intel 945GSE Express Chipset, will only be available for system integrators and channel original equipment manufacturers.
The board adds extra features--such as fanless passive cooling, VGA and DVI dual graphics, wireless connectivity via the PCI express mini card slot and a horizontal SO-DIMM leading to a total motherboard height of 20mm. These features, however, come at a higher price which has led Intel to believe that the broader channel would use the company's other cheaper boards.
Those who buy it would have to build a custom board for their own needs, according to Norman Cheng, product line manager within Intel's desktop group.
Johnstown will be available towards the end of the first half of this year. The second board, the DG41MJ (codenamed Misty Lake), was expected to have wider appeal and will be available to the broader channel.
The board is intended for small form factor PCs for home entertainment and daily computing. Misty Lake was Intel's answer to requests to make a cheaper version of its other options. The small board, which supports Core 2 Duo and Core 2 Quad processors, has legacy features such as a parallel port, integrated VGA and DVI, Intel High Definition Audio and an integrated 10/100/1000 network connection.
The board is now available for PC manufacturers and system builders to order from Intel distributors. The company was unable to say when it would be more broadly available at the time of publication.

Gelid Silent Spirit review CPU cooler

Product:
Silent Spirit Heatpipe CPU cooler
Manufacturer:
Gelid
SKU code:
TBA
Information:
website
Street price:
35 USD \ 23 EUR
Aaah, I can't tell you how refreshing it is to review something as simple as a CPU cooler every now and then. Believe it or not, all that graphics, CPU, mainboard and memory testing can get a little boring at one point. Change is good. And that "change" definitely applies in the world of cooling. Over the years we have seen several methods applied. The traditional aluminum fan activated coolers, water-cooling, Peltier cooling, yet the most extraordinary and now commonly accepted form of cooling is heat-pipe based.
What? Heatpipe cooling ? Well, when done right you can achieve three things. Pretty decent cooling, low noise, and nice aesthetics.
This is where we land at the premises of the new and unknown Gelid. Armed with Swiss management and design team, yet based in Hong Kong Gelid is what might become the new Arctic cooling. Now I make that statement as Gelid ... well let's look it up in the dictionary:
Adj. 1. gelid - extremely cold; "an arctic climate"; "a frigid day"; "gelid waters of the North Atlantic"; "glacial winds"; "icy hands"; "polar weather"arctic, frigid, icy, glacial, polarcold - having a low or inadequate temperature or feeling a sensation of coldness or having been made cold by e.g. ice or refrigeration; "a cold climate"; "a cold room"; "dinner has gotten cold"; "cold fingers"; "if you are cold, turn up the heat"; "a cold beer"
Need I say more ? You'll notice a lot of similarities. Recently Gelid silently introduced their thermal paste and silent design fan, a couple of weeks ago they however launched their Gelid Silent Spirit, as you can guess a heatpipe based cooling solution.
Today we'll test a Intel Core Extreme QX9770 processor in both a default and overclocked state with this cooler. But first let's have a peek.

IBM Says Alliance Set for 28nm

On the heels of Globalfoundries' 28nm hint yesterday, IBM is announcing that its entire bulk processing alliance is ready to manufacture using 28nm.Recently Globalfoundries hinted to the upcoming 28nm processing in an interview with X-bit Labs, briefly mentioning the process while talking about competing for AMD's graphics business. Although partially owned by AMD, the company is actually one of many manufactures in IBM's Bulk Process Alliance; Chartered Semiconductor, Samsung Electronics, ST Microelectronics, and Infineon Technologies are also part of the Alliance. However, prior to the interview, manufacturers--or rather early access clients--received hands-on access to a 28nm low-power technology evaluation kit back in December 2008. Then, in March, the kit was made available to the general marketplace. With that said, it's really been no secret that 28nm processing would arrive in the near future.However, early this morning, IBM officially announced that the Alliance companies are jointly developing the 28nm, high-k metal gate (HKMG), low-power bulk complementary metal oxide semiconductor (CMOS) process technology. While that description may seem rather long-winded, the wait for the actual technology will be even longer, as IBM said that "early risk" production for 28nm is slated for Q2 2010. IBM also said that when the time comes, current clients using the 32nm technology will be able to migrate to 28nm without having to completely overhaul the design."Clients can begin their designs today in leadership 32nm HKMG technology and then transition to 28nm technology for density and power advantages, without the need for a major redesign," IBM said. "By assuring a path from 32nm to 28nm technology, this migration methodology offers clients lower risk, reduced cost and faster time-to-market."But why is 28nm such a big deal? As stated by IBM, the low-power 28nm technology platform can provide a 40 percent performance improvement when compared to the larger 45nm chip, and more than 20 percent reduction in power. Additionally, the HKMG technology--allowing for one of the industry's smallest SRAM cells at 0.120 square microns--offers favorable (power) leakage characteristics, stability, and low minimum voltage, providing an optimized battery life for mobile products."Through this collaboration, IBM and its alliance partners are helping to accelerate development of next-generation technology to achieve high-performance, energy-efficient chips at the 28nm process level, maintaining our focus on technology leadership for our clients and partners," said Gary Patton, vice president for IBM's Semiconductor Research and Development Center on behalf of the technology alliance

Intel Says 6-Cores Not Delayed

Intel clarifies that 6-core 'Gulftown' processors not delayed from 2009 to 2010.
Yesterday we ran a report indicating that several other sites reported that Intel would be delaying the release of its 32nm 6-core Westmere-based CPU, codenamed Gulftown. Intel's Westmere codename represents the 32nm line of Nehalem micro-architecture processors. Intel today confirmed with us that the reported delay is not true, and that Gulftown has always been a 2010 product.
Some sites, including even Wikipedia, incorrectly indicate Gulftown as being a late 2009 product. Intel's public roadmap says 2010 and Intel representatives confirm that the roadmap has not changed.
Intel's first 32nm CPU line based on the Nehalem architecture will be its Westmere line, starting off with a 2-core CPU slated for Q4'09 production.

Intel Cuts Prices of Core 2 Duo, Quad Chips

Late last month rumors did the rounds about Intel cutting processor prices, with the first round slated to occur on April 19. Good news folks, the rumors were true!
Intel this week confirmed suspected price cuts of several Core 2 Quad CPUs. The company also cut prices on a few of its Core 2 Duos. Price cuts aside, last month's rumors also fingered April 19 as the release date for the launch of the Core 2 Quad Q8400 (95W) and the Core 2 Quad Q8400S (65W), both clocked to 2.66 GHz and priced at $183 and $245, respectively. Also true.Given that these rumors were true, it's safe to assume that the same reports were correct in saying Intel would launch more new processors at the end of May, including Celeron and Pentium Dual-Core parts, the Core 2 Duo E7600 and two new Core i7s: the 3.06 GHz 950 and the 3.33 GHz 975, priced at $562 and $999, respectively. We'll keep you posted on that one. Further price cuts are also scheduled for around this time in July.
Check out the April price cuts below:
CPU
Old Price
New Price
Reduction
April 19
Core 2 Quad Q8400 (2.66 GHz)
N/A
$183
N/A
Core 2 Quad Q8400S (2.66 GHz)
N/A
$245
N/A
Core 2 Quad Q9300
$266
$213
19.92%
Core 2 Quad Q9550S
$369
$320
13.28%
Core 2 Quad Q9400S
$320
$277
13.44%
Core 2 Quad Q8200S
$245
$213
13.0%
Core 2 Duo SP9400
$316
$284
10.13%
Core 2 Duo SL9400
$316
$284
10.13%
Core 2 Duo SU9400
$289
$262
9.3%

AMD: 6-Core Istanbul Available in June

AMD plans to ship the six-core Opteron in May to boost profitability. Intel says that its processors are still better.
Zoom
AMD began its sixth anniversary of the Operton with the launch of two low-power Opteron EE chips, targeted towards cloud computing or other dense server environments. The company finished up the day with even better news: the official announcement of AMD’s six-core “Istanbul” processor, set for a May release.For those of you thinking you’ve suddenly missed out on a few months of your life, don’t panic. Originally, the 45-nm Istanbul had been scheduled to ship later in the year, but speaking to financial analysts earlier this week, AMD’s president and chief exec, Dirk Meyer, said that the company decided to "pull in" the timetable. Yesterday afternoon AMD held a news conference to discuss its server roadmap and the company released additional details about Istanbul.AMD claims the soon to be released processor will produce 30 percent more performance than the existing "Shanghai" quad-core processor at the same power requirements and said we can expect to see systems incorporating Istanbul in June. And just because every announcement made in the processor market these days seems to come with its own little piece of soap opera drama, the Register reports that upon hearing the announcement, Intel had this to say:

12-core in 2010, 16-core in 2011

Talk about KAPOW, Batman! AMD revealed that its plans a 12-core Opteron processor in 2010, and a 16-core Opteron in 2011
ZoomWhile celebrating the Opteron processor's sixth anniversary, AMD offered a "glimpse" into the company's server platform roadmap, announcing that it plans to launch the six-core Opteron Istanbu processor in June. Fitting into the same platform as current quad-core Opteron processors, Istanbul will offer a 30-percent performance increase while using the same thermal envelope.However, the company also revealed a few "meatier" Opteron offerings, complete with 12-core and 16-core versions expected to ship in 2010 and 2011 respectively. AMD said that a shift in consumer value has pushed the high-end server market into offering performance, expandability, and virtualization through more cores and scalability, thus resulting in the processors set to hit the server market within the next two years.In 2010, AMD will launch the Opteron 6000 series for 2P and 4P servers, debuting on the G34 socket with the Maranello platform. The 6000 is geared towards performance and expandability, best suited for virtualization, databases, and HTC. Not only will the Opteron 6000 series be based on a 45nm 8-core (2 socket) and 12-core (4 socket) Magny-Cours run, but also offer 4 channels of U/RDDR-3, and up to 12 DIMMs per socket.2010 will also bring along the Opteron 4000 series for the 1P and 2P server market, using the San Marino platform along with AMD's 45nm 4-core and 6-core Lisbon processor. AMD said that its 4000 series is ideal for power efficiency and value, geared for cloud computing, HPC, file and print sharing, and more. The San Marino platform utilizes the C32 socket, 2 channels of U/RDDR-3, and up to 4 DIMMs per socket.As for 2011, AMD is expected to release two processors for both platforms. 32nm 12 and 16-core Interlagos processors will be available for the 6000 series, based on the "Bulldozer" core; it too will fit right in with the Maranello platform. Additionally, the 4000 series will also receive a CPU upgrade with the 32nm 6- and 8-core "Valencia" processor, fully compatible with the San Marino platform.According to charts provided by AMD, the Interlagos16-core processor will nearly triple in floating point performance when compared to the Istanbul 6-core processor released in June; the Magny-Cours 12-core processor, released next year, will only offer double the performance. When compared to the quad core released in 2008, the Magny-Cours 12-core processor will more than double the integer performance; the "Interlagos" 16-core processor will triple the performance.Still, despite the charts and all the boasting, seeing is believing, and we'll just have to wait until next year to see if charts and figures turn out to be real hands-on numbers. However, with all this processing power, desktop owners may feel left in the stone ages. Try not to worry: the Bulldozer processor will also fall into mainstream consumer's hands sometime in 2011 as well.

Core i5 Cranks up to 3.6 GHz?

Hkpc.net is reporting that Intel has optimized the processor's Turbo Mode, cranking up the clock speed to 3.6 GHz
ZoomSet for a launch in Q3 2009, Intel's 45nm Core i5 (Lynnfield) processor will come in three flavors: 2.66 GHz, 2.8 GHz, and 2.93 GHz. All three versions will feature four cores (4 threads for the 2.66 GHz version, 8 threads for the other two), 8 MB of L3 cache, a TDP of 95 watts, and will fit snug into the LGA-1156 socket. Additionally, all three versions feature 731 million transistors, an integrated DD3 memory controller, an integrated PCI-Express graphics controller, and support for Turbo Boost. As of today, Intel plans to price the 2.66 GHz version around $196 USD; the 2.96 GHz Core i5 will cost around $562 USD.However, according to a report over on the Chinese website HKEPC, Intel optimized the Nehalem core as well as its Turbo Mode technology, thus giving the Core i5 a significant 5-step boost while staying within the 95 watt TDP. When set in turbo, Intel's 2.66 GHz version will speed up to 3.2 GHz, whereas the 2.8 GHz version will boost to 3.46 GHz and the 2.93 GHz to 3.6 GHz. The site also said that the two current Core i7 processors--specifically the 2.66 GHz and 2.93 GHz versions originally released in November 2008--will climb two steps as well while remaining within the 130 watt TDP.HKEPC also confirmed that the Clarksfield quad-core processor for mobile devices will feature Hyper-Threading technology and a TDP of 35 watts; it was speculated that the processor would require a TDP of 45 or 55 watts. Additionally, the processor will come in three flavors--1.6 GHz, 1.73 GHz, and 2.0 GHz--and will also be available in Q3 2009. However, unlike the core i5, the three Clarksfield processors will be a bit more costly, ranging from $364 USD to $1054 USD.

AMD Athlon X2 7850 Black Edition Review

We have seen one week ago the amazing performance of the new AMD Phenom II X4 955 which was clocked at 3.2GHz. It beat the Intel Core 2 Quad architecture most of the time and in many cases it was able to outperform the lower-end Core i7 920. Considering the performance and the amazing price tag, I have seen debates on whether the X4 955 is a mid-range or high-end processor. I would classify it more as high-end, however What seemed to make unanimity though is that the Phenom II X3 710 and 720 belong to the mid-range.
But what does AMD offer in the lower-end market? The Athlon series has been present on the market since a long time ago, ten years to be exact. At the same time this year, Advanced Micro Devices reaches its 40 years of existence. That is definitely something to celebrate. To do so, it launches a new processor: The Athlon X2 7850. It is based on the 65nm K10 architecture codenamed 'Kuma' and comprises 2MB of L3 cache and is clocked at 2.8GHz, making it the fastest Athlon Kuma. Obviously it is a Black Edition so it also features an unlocked multiplier.
The Athlon X2 7850 has a suggested retail price of $69, however it seems Newegg will sell it for $74. This makes a really cheap solution for an HTPC and even a low-cost gaming rig. Here is a list of processors in that price range, taken from Newegg:
Athlon 64 X2 5400+ 2.8GHz - $70
Intel Pentium E5200 2.5GHz - $70
Athlon X2 7850 Black Edition 2.8GHz - $74
Athlon 64 X2 5800+ 3.0GHz - $75
Intel Pentium E5300 2.6GHz - $79
Clearly, the K10 Athlon has the power to win over its competitors. I feel the Intel E5300 might be close to it, but it is sold for a few bucks more! Furthermore, an entry-level motherboard without integrated graphics costs as low as $55.

Mini Palm Pre, Pre Centro in the works

There's been a ton of Palm Pre chatter this week, leading many people to think that its launch is imminent. However, the latest rumors don't revolve around the Pre but rather future Palm Web OS devices.
According to TechCrunch's Michael Arrington, he talked to one of his "better sources", who revealed that Palm is "very far along" on a second Pre-like device that will ship as early as the fall.
TechCrunch didn't have many specifics on the device, other than it would be smaller in size, leading some to think that it might forgo a physical keyboard. Also, it's not meant to be a next-generation Web OS smartphone. Instead, it will simply offer customers another option.
Also in the world of rumors, Boy Genius Report has a very blurry photo of what it is calling Palm's next Web OS smartphone--a device similar to the Palm Centro in design but obviously, running the new OS.
Engadget Mobile actually found a clearer picture of the smartphone, as well as a name and a list of specs. Dubbed the Palm Eos, the quad-band mobile will offer 4GB of storage, HSDPA support, Bluetooth 2.1, and a 2-megapixel camera, among other things. It also looks to be quick thin and light at 4.3 inches tall by 2.1 inches wide by 0.4 inch thick and weighs 3.5 ounces. Engadget seems to think that the Eos, also known by its codename Castle, is AT&T bound and will go for US$349 before rebates. If the Eos is meant to be the successor to the Centro, which was initially offered at US$99 with contract, we really hope that price is wrong or there are some serious carrier discounts.
While all these rumors seem thin on details, the idea of a mini Palm Pre or Pre Centro isn't completely off the mark. Palm said that the Pre was only the first in a family of devices. Plus, the whole idea behind the Palm Web OS was to create a platform that offered enough flexibility to meet the different needs and lifestyles of its customers. With that in place, it only makes sense that Palm brings new form factors to market. Also as TechCrunch and PhoneDog point out, this is definitely an area where Palm could get ahead of Apple.

Win 7 Desktop Graphics Loves Multi-core CPUs

Graphics performance is one of the most scrutinized part of modern computer systems. The Windows 7 team is working on boosting the upcoming operating system’s graphics performance.
Here on Tom’s Hardware we like to measure graphics performance by running 3D benchmarks but gaming is only relevant to a small segment of Windows users. Even those of us who spend hours playing games spend more of our time in the 2D desktop UI.
For that reason, it makes sense for the Microsoft software engineers to devote a significant part of their time trying to make the desktop environment as snappy as possible. The challenge for Windows is that it must take into account a countless combination and wide range of hardware configurations and try to make it all work.
We detailed in a previous article the lengths at which the team has gone to improve the response time of the start button. Now in the latest Engineering Windows 7 blog, the team has revealed a couple more changes it has made to the graphics system that will make working in Windows better.
One problem that some Windows users experience (prior to Windows 7), is slight pauses or even freezes. Using testing data, Microsoft analyzed thousands of reports where the tester experienced a frozen desktop anywhere from 100msec to several seconds.
The way Windows Vista does it
“The type of issues ranged from an antivirus blocking disk access for all applications while updating itself on the vendor’s website to an application doing network access from a UI thread,” explained Ameet Chitre, a program manager on Microsoft’s Desktop Graphics feature team.
Microsoft found that a large portion of ‘freezes’ came from multiple applications waiting around for one another to be finished with the GDI (Graphics Device Interface) before each could update the desktop with a new render.
In Windows Vista, a single application could hold a system-wide lock on the GDI, basically creating a bottleneck, especially if there are other applications waiting in line to access the graphics stack. While such a design decision may have been okay in the past, it’s been re-engineered for Windows 7.
The way Windows 7 does it
“The solution to the problem was therefore to reduce the lock contention and improve concurrency by re-architecting the internal synchronization mechanism through which multiple applications can reliably render at the same time,” Chitre wrote. “Contention due to the global exclusive lock is avoided by implementing a number of fine-grained locks which are not exclusive but aid parallelism.”
The shift in architecture adds a small overhead cost when only a single application is accessing the GDI at a time, but trade off to aid in multitasking is worth it.

Intel Facing Huge Fines from European Union

Those European Union Antitrust regulators are having a busy week, folks, and today reports suggest the EU could impose its biggest ever market-dominance related fine on Intel.
Zoom
Early in March we reported that Intel could be facing fines from the European Union in relation to the company’s pricing model. It seems the European Union has a big problem with the way Intel has been doing business, in particular rebates to computer makers and retailers. The European Commission said Intel’s pricing practices were an attempt to drive AMD out of the market and was set to rule on whether or not the company should be fined. The New York Times today reports that the size of that penalty is to be discussed by representatives from 27 European Union governments in early May. However, we wouldn’t be so jacked up about the money itself. Sure, it could be the EU’s biggest fine handed out ever, but previous reports suggest that the maximum fine allowed would be 10 percent of Intel’s revenue, which while unpleasant, wouldn’t exactly clean the company out. The New York Times cites legal experts as saying Intel’s fine could reach roughly €1 billion, or $1.3 billion. Intel’s annual sales were $37.6 billion in 2008. However, there is a distinct possibility that the EU could impose new rules in order to remedy Intel's actions. Former Commission official Michael Tscherny hinted at just that last month when he spoke to Reuters and said the European Commission could destroy Intel’s pricing model.Intel denies charges related to rebates offered as long as manufacturers agreed to obtain the majority of their processors from Intel as well as paying them to either to delay or cancel the launch of AMD based products. The company maintains that its actions were within legal boundaries.

Phenom II X3 720 Black Edition review

Could three be the magic number the second time around? If you've been following the online cacophony kicked up by AMD's new Phenom II X3 processor, you might well think so.
You may also recall that AMD's triple-core chip is nothing more than a quad-core chip with one core disabled.
That's not news. The fuss all started when a Korean PC enthusiast discovered it was possible to spool up the dormant core on the new 45nm version of AMD's X3 chip via the toggling of a BIOS option.
Four cores for the price of three, what's not to like?
Superficially, absolutely nothing. However, on closer inspection, there are a number of catches. For starters, you need a chip where the stepping code starts with the numbers 904.
You must also have an AMD 790FX motherboard with an AMI-based BIOS. If that wasn't specific enough, that AMI-based board must also be made by either Biostar or Asrock.
If you have the required kit, just hop into the BIOS, enable Advanced Clock Calibration in the CPU features and watch your triple-ganger go four-way. After that, you may find you have a stable quad-core system, or you may not. Many X3 chips are triple core for good reason.
In other words, there's something rotten about the disabled core. You can enable it by all means, just don't assume it will work.
Sadly, we can't report any first hand experiences of this sleight of silicon. However, what we can say is that the X3 is a great little chip regardless of any of these core-enabling larks. Just like the recent 45nm Phenom II X4, the new X3 model is an absolute whore for high frequencies.
Overclocking monster
Our 720 Black Edition sample was stock clocked at 2.8GHz, but we had it humming a 3.7GHz tune within minutes of booting. Spend an afternoon fiddling and you can probably add at least 200MHz to that figure.
The upshot of all this is that an overclocked X3 comes remarkably close to matching the performance of a stock clocked X4 chip in highly multi-threaded apps.
Even better, though, is its performance in apps that don't scale particularly well across multiple cores and respond well to raw clockspeed. Yup, you guessed it: games!
If, therefore, you're on the lookout for a dirt-cheap gaming CPU that also has adequate multi-threading chops, you could do a lot worse than the Phenom II X3.
The fact it drops into both existing AM2 motherboards as well as the latest AM3 socket, thus supporting both DDR2 and DDR3 memory, only adds weight to its appeal.