The Tripticon laser mouse isn't nearly as awesome as the Ravage USB flash drive, nor does it look particularly ergonomic. And at only 800 dpi, there's not much more here than meets the eye. But it is another Decepticon peripheral for your PC, which makes us wonder where the Autobots have been hiding (here's one!)
At last count, BigBadToyStore.com was offering almost half a dozen Transformer peripherals, the coolest of which just might be the Blaster USB hub (hey, another Autobot!).
Catch the full lineup here, then hit the jump and tell us which one is your favorite.
We're not sure what it is about Corsair and May 20, but on that same date last year, the memory maker set a world record for DDR3 memory frequency by pushing its Dominator kit to 2462MHz. Fast forward a year later, and on May 20, 2009, Corsair Labs announced it had coaxed 2533MHz out of a 6GB triple channel DDR3 Dominator GT kit, which the company says is the highest frequency ever achieved on a Core i7 platform using three modules.
"When it comes to overclocking and memory, Corsair has proven -- once again -- that its engineering team truly is the best," said Kevein Conley, Vice President of Engineering for Corsair. "As the new world record shows, Corsair's modules are second-to-none in terms of performance, stability, and quality."
To set the new mark, Corsair slapped a Dominator GT 2000C7 tri-channel kit into an Evga X58 3X Classified motherboard and ran fairly aggressive 7-8-7-20 timings. Other components included an Intel Core i7 Extreme 975 processor, GeForce 8800 GTS videocard, and a Corsair P256 SSD.
Whether you're chasing a world overclocking record or ever thought to yourself, "Self, if only I could get this RAM to sub-ambient temp levels, I think it'd really shine," Corsair's Cooling Ice Series T30 apparatus might be just what you've been waiting for.
Designed specifically for both Corsair's Dominator and Dominator GT modules, the T30 is a thermo-electric cooling (TEC) unit that hooks up to your existing water-cooling setup. Water block, humidity sensors, and control circuitry are all included, just bring your own 3/8-inch tubng. Once installed, Corsair claims the T30 will cool your modules up to 20C degrees below ambient temperature, which, according to the company's own testing, was enough to increase memory frequency overclocking by up to 100MHz over standard cooling.
If street pricing holds true to the MSRP, that extra 100MHz will run you $199. No word yet on availability.
The last time you saw Ravage, he was transforming from a demon cat into a mini-cassette, but that's no way to lie inconspicuous in the modern era. Not to worry though, because Soundwave's minion has managed to avoid obsolescence by now transforming into a 2GB USB thumb drive.
That's just cool, albeit pricey. You can pre-order the drive now for $43 (ships in September), and toss in another $2 to upgrade to "Collector's Grade,' which guarantees packaging to be 90 percent mint or better. That could come into play when, decades from now, your grandkids ask you what the hell a USB thumb drive is.
We love the excitement of being on the cutting edge, but have to also acknowledge the risks of being early adopters of hardware. In fact, there have been numerous occasions where tech enthusiasts have put their faith into the seemingly fastest or the more innovative pieces of technology, only to be burned months or years later when that tech is revealed to have to a serious design flaw or falls victim to sudden obsolescence. In this roundup, we spotlight some of the most memorable PC parts and computing gadgets that showed huge promise but just didn’t deliver in the end. Whether it was high defect rates, underperformance, or bad launch timing, these products were poised to be market leaders if not for their spectacular failure.
How could the world's fastest optical drive be a failure? Read on!
Try to imagine where 3D gaming would be today if not for the graphics processing unit, or GPU. Without it, you wouldn't be tredging through the jungles of Crysis in all its visual splendor, nor would you be fending off endless hordes of fast-moving zombies at high resolutions. For that to happen, it takes a highly specialized chip designed for parallel processing to pull off the kinds of games you see today, the same ones that wouldn't be possible on a CPU alone. Going forward, GPU makers will try to extend the reliance on videocards to also include physics processing, video encoding/decoding, and other tasks that where once handled by the CPU.
It's pretty amazing when you think about how far graphics technology has come. To help you do that, we're going to take a look back at every major GPU release since the infancy of 3D graphics. Join us as we travel back in time and relive releases like 3dfx's Voodoo3 and S3's ViRGE lineup. This is one nostalgiac ride you don't want to miss!
Biostar's second Core-i7 compatible motherboard, the TPower X58A, is now available for sale, and here's why the company believes you should look at upgrading to the platform, price be damned.
"Although Intel X58 chipset based motherboard is sold at a relatively higher price in the market, Biostar still has an excellent reputation for TPower series, in which TPower X58 and TPower I45 are very popular with a lot of power users," Biostar writes in its press release.
Alrighty then. But quirky marketing aside, the revised TPower X58A does come with some enthusiast features, such as adopting an overclocker-friendly 12+2 power phase design (12-phase CPU and 2-phase memory), Ferrite core chokes, all Japananese manufactured solid capacitors, support for up to 24GB of DDR3-1333/1600/2000, three PCI-E 2.0 x16 slots, eSATA support, and a 'Rapid Debug 3' POST LED display to help you figure out which device(s) might be failing.
It's worth noting that Biostar has made a major push in the past 12 months to shed its reputation as a budget option and compete at the high end, snagging overclocking and frontside bus world records along the way.
Not only is there still a market for DDR2 modules, but there are even new products still coming down the pipeline. Take for example OCZ's just-announced Blade and Platinum Series Low Voltage kits, which the company says have been qualified to excel at low voltages.
"Though enthusiasts are known for applying increased voltage to modules in order to obtain higher performance, our newest modules offer exceptional speeds at lower voltages improving overall performance and stability," commented Eugene Chang, Vice President of Product Management at the OCZ Technology Group.
The new series comes in 4GB kits with speeds ranging from DDR2-1066 to DDR2-1200. Regardless of stock frequency, each kit comes rated at 5-5-5-18 latency timings and consumes just 1.8V. Giving the stock frequency ceiling, 1.8V is pretty impressive when you consider some enthusiast kits have required up to an uncomfortable 2.3V.
Acer, who sits as the global market share leader in the netbook category with a 30.5 percent share of the pie (1.8 million units shipped), has just released an 11.6-inch netbook it believes is just what you're looking for.
"We predict that the larger display and keyboard will be a game-changer for mobile consumers looking to take it to the next level with the ultimate mobile device," said Sumit Agnihotry, vice president of product management for Acer America.
The new AO751h sports a full size keyboard and is "thinner than previous generations" at 1-inch high. Acer says it will be available in several configurations, with a baseline model boasting an Intel Atom Z520 processor (1.22GHz, 490MHz frontside bus, 512KB L2 cache), 1GB of DDR2-533 memory, a 160GB hard drive, integrated Intel GMA950 graphics, built-in media card reader, three USB 2.0 ports, and Windows XP Home with SP3.
As configured above, the AO751h carries and MSRP of $350, or $380 with a 6-cell battery.
Just in case you were worried that Intel wasn’t committed to it’s heavily delayed Larrabee platform, a 12 million dollar investment in a new Visual Computing Institute should help convince you otherwise. Located at Saarland University in Saarbrücken, Germany, this is the largest joint project ever formed between Intel and a European university. The institute will help Intel explore advanced graphical computing technologies, which includes everything from more realistic gaming, to advanced 3D user interfaces.
The primary focus of the research will be applied to Intel’s terascalling program. This will help them better understand how they can apply Larrabees unique multi x86 core architecture to achieve sustainable performance increases over modern day GPU’s. Larrabee has been delayed until some unknown date in 2010, presumably because it hasn’t yet achieved the type of performance gains they were hoping for against Nvidia & AMD.
In addition to terascalling research, Intel will also work with other hardware design labs in Barcelona, Spain, and Braunschweig, Germany to help optimize the Larrabee design. Z-buffering, clipping, and even ray tracing are all promises made by the Larrabee team, but clearly the software needed to make all this happen still requires some work.
Want more details? Click here to watch the press video.
So is Larrabee really the future? Or does this only prove Nvidia’s case that its promise is overhyped?