Hitachi announced two lines of USB 2.0 external hard drives, the SimpleTOUGH and the SimpleDRIVE. The SimpleTOUGH is a rugged external hard drive that is water- and shock-resistant. It can sustain a three meter drop (9.8 feet) and able to withstand the pressure of a one-ton class commercial truck. Based on Hitachi’s TravelStar hard drives, the SimpleTOUGH is available in 250GB ($99.99), 320GB ($119.99) and 500GB ($149.99) capacities.
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Hitachi SimpleTOUGH and SimpleDRIVE Mini Portable Hard Drives
The C905a Cyber-shot features a 2.4-inch LCD display and a 8.1 Megapixel camera with Xenon flash, auto focus, GPS geo-tagging and face detection. On t
IronKey presents the S200 drive for government and enterprise customers, which is claimed to be the “world’s most Physically and Cryptographically Secure USB Flash Drive”. The IronKey S200 meets the government security requirements of FIPS 140-2, Security Level 3 and offers hardware-based AES 256-bit encryption in CBC mode. It has a tamper-resistant and tamper-evident rugged metal case. The S200 is available in several versions, Basic, Personal, Enterprise and Enterprise Server. No mention on pricing and capacities, though it won’t be cheap.
Intel's Platform Power Management: Like Milliscond Power Naps for Your Entire Computer
Intel Research showed me a demo of their Platform Power Management system. Essentially, they're applying the smart, quick, hardware level idling you find on a CPU to many system parts. The result: systems that idle at 10x less juice.
The tech is applied to things like USB ports, which in 3.0, will go from polling (clock based, always checking) devices to being managed via events, so they can sleep whenever not being used. And graphics, when the page isn't changing, can be run out of a frame buffer so the GPU and video RAM can sleep. When I say more sleep, I mean for additional milliseconds or longer. This adds up, over the course of a day when people stop to read or step away from their computers. In the past, the OS controlled the power savings, and that required power to process in turn, so you were using the system's power to manage power, keeping those other components from ever really turning off. By doing power management with more granularity, in hardware and software together, you can switching things on/off fast enough to fit in lots of "naps" and you can also do it with less processing overhead.
I'm excited for this tech to go everywhere where there's a chip.
Intel and Nokia Partner To Make Future Something-Or-Other
Image via CrunchBase
Just as reported, Intel and Nokia had a big fancy announcement to tell everyone that they're going to be doing something together in the future—the specifics of which wasn't important (or defined) enough to mention today.
The two did say that they're going to be sharing Nokia's HSPA/3G modem technology so Intel can put those into their own equipment, and that they're going to be all up in the open source world. Other than that? Not a whole lot going on. Sounds to us like Nokia's going to be making some more N800-like devices with Intel inside. [Nokia]
Intel Launches New Desktop Processor
Following AMD’s launch of its latest server chips last week, it’s Intel’s turn to be in the spotlight.
Intel plans to launch its newest generation of desktop processors on Monday. Called Core i7, the chips are aimed at the high-end desktop and gaming market.
The move puts Intel ahead of its rival AMD by more than a few months, as AMD’s comparable desktop processor isn’t scheduled to launch until early next year.
"AMD now just doesn’t have a competitive chip against Intel on the desktop," says Patrick Wang, an analyst with brokerage firm Wedbush Morgan.
And until AMD launches its product, Intel is going to be the only option for consumers who want the latest chips for their computers, says Wang.
The Core i7 will be almost four to six times faster than Intel’s current platform, says the company, and will have greater power efficiency than ever. It is based on the 45-nanometer production technology that first appeared in a server chip called Xeon (aka Penryn), which debuted earlier this year.
The 45-nm chips utilize smaller circuitry than the previous, 65-nm generation, making them faster, and also enabling Intel to manufacture them more cheaply.
The new Core i7 chips are based on a newly designed microarchitecture called Nehalem, which includes major design changes in areas such as power management and integrated memory control.
The first three quad-core Core i7 chips from Intel will reintroduce "hyperthreading" technology, which gives the chips the ability to execute 8 threads simultaneously on 4 processing cores, greatly increasing their processing power. Hyperthreading was seen earlier in Pentium 4 chips and some Xeon processors from Intel.
Core i7 processors are also different from their predecessors in that they have "QuickPath," a new microarchitecture that integrates memory controller into each microprocessor. QuickPath will replace Front Side Bus used in
Xeon and Itanium platforms.
The move increases the bandwidth directly available to the processor, reducing lag time before a CPU can begin executing the next instruction.
"Core i7 will be one of the first Intel chips to integrate a memory controller," says Shane Rau, PC analyst at research firm IDC, "though it is something AMD has had for a while."
Intel is taking no chances with Core i7. The company has spent millions to test the chips and ensure flaws in it don’t trip it up, says The New York Times.
In the past, both Intel and AMD have paid a big price for bugs in their chips. In 1994, Intel’s Pentium chips sported a tiny error in floating-point calculation that led to a product recall.
More recently, AMD’s Barcelona range of chips that launched last year were delayed by months after discovery of flaws that among other things caused systems to lock up and crash.more