The mighty Fudzilla has dropped a rumor that we can expect the first Core i7 to arrive in the US in week 46, between the 10th and 14th of November. They also said that Japanese customers might even be able to buy them as early as the first days of November. They cite unnamed sources.
Intel of course, remains mum only saying to expect it sometime in Q4 of 2008. Intel is more of a tease than my first girlfriend.
As Fudzilla notes there are plenty of X58 based motherboard prototypes that have floated on the internet in the pasted few months from names like MSI, Gigabyte, and Asus. If there is a mid November launch of Core i7, there should be a selection of motherboards available for it, some with overclocking features.
I have only had my Newegg wish list system configured since last March. It has gone through several revisions waiting on Core i7, and the power supply is up in the air depending on the stated needs of the motherboard I pick. I figured on $300 on the CPU and another $300 on the Motherboard. Yeah, I know it is no Dream Machine. However, I have to operate like the government and tell the wife that my stated budget is $1800, when in reality its $2,200 and I am going to run a little over that. Better to beg forgiveness and have a nice new game machine to console myself with, than to ask permission and be denied. I know my limits however and racking up a $5,000 bill on a game system would result in my summary execution. Another $500 bucks I can fix with flowers, chocolate and extra attention (I hope).
Anyone else have a wish list for their new Core i7 system? Tell me about it below!
The high density NAND-flash-based SSD boasts a maximum read speed of 120MB/sec and maximum write speed of 70MB/sec. On the other hand, the small-sized Flash Modules, which support 8GB, 16 GB and 32 GB densities, are claimed to be capable of a maximum read speed of 80MB/sec and maximum write speed of 50MB/sec. Both drives utilize the SATA-2 interface.
Let us see if Toshiba can pleasantly surprise everyone with cheaper than expected prices.
There’s no secret that GPUs have some extreme muscle behind them, and a team of researchers at Michigan Technological University are harnessing this power to better understand the most complicated of real-life systems.
The project, lead by Roshan D’Souza is supercharging agent-based modeling, a powerful and computationally massive forecasting technique, with the goal of modeling complex biological systems such as the human immune response to the tuberculosis bacterium.
Mikola Lysenko, the computer science student that wrote the software demonstrated the ability of the program. A demo showing an impressive swarm of bright green immune cells surrounding and containing yellow tuberculosis bacterium was the product of millions of real-time calculations. D’Souza claims “I've been asked if we ran this on a supercomputer or if it's a movie.”
D’Souza’s only real concern is being able to do more with the technology, “We can do it much bigger,” he says. He hopes to model how a tuberculosis bacterium infection could spread from the lung to a patient’s lymphatic system, blood and vital organs.
Agent-based modeling is something that will be used to revolutionize medical research. Dr. Gary An, a surgeon specializing in trauma and critical care at Northwestern University’s Feinberg School of Medicine is pioneering its use. He’s doing so by modeling another matter of life and death, sepsis. These infections, which consist of billions of agents (including cells and bacteria), have had too complex of a model to map – until now.
While admittedly most of us will need our own supercomputer to decipher the medical jargon used to simply describe the actions of the GPU powered agent-based modeling, there’s no doubt that the results will be astonishing. And it appears that they’re not the only ones taking advantage of this supreme power.
Whether you’re turning off the water while you’re shaving or driving a fancy new biodiesel fueled car, going green is something that just about everyone has on their mind. But if you’re using a computer (which I’m going to assume you are) you’ve got one more thing to add to your “going green” check list.
Where your PC winds up at the end of its life is something that’s come under heavy scrutiny lately. An estimated 1.8 billion pounds of PCs are disposed of every year, and only half of that (about 865 million pounds) are processed by recyclers, according to a report by International Data Corporation. While some of the nearly 900 million pounds of unrecycled computers are reused, for the most part they’re thrown in a landfill or incinerated.
A huge reason for this is because IT organizations are failing to accept responsibility for the end-of-life destination of the PCs that they purchase. While computer vendors such as Dell, Hewlett Packard, Lenovo, Apple, Sony, Toshiba and IBM all offer take back programs for computers, most organizations donate their PCs, which simply shifts the responsibility to religious institutions or school districts.
So what can you do to help? Mostly keep your eyes open when you’re buying a machine. Check out if the computer that you’re purchasing has a good life cycle, and if the company that you’re buying from has a take back program (and be sure to use that program when the time comes to get rid of that computer).
Their initiative that is aimed at speeding up the adoption of cloud computing amongst enterprises was announced at Oracle OpenWorld 2008 the conference in San Francisco. They will be focusing on developing standards for cloud computing. They also intend to make clouds more secure and efficient. Everyone is heading for the clouds!
With some news that is sure to surprise absolutely nobody, the Department of Homeland Security is currently in the process of developing a new way to spy on you. The new technology, called “Future Attribute Screening Technology,” or FAST (catchy, huh?) will use crowd-monitoring body sensors that detect individuals’ pulses, body language, breathing rates and facial temperatures to determine threats.
FAST is said to have had accurate results, identifying suspicious behavior in four out of five scenarios. One such scenario, run at a ranch in Maryland involved roughly 140 participants. They were told to walk through FAST’s sensors, with a small group of them instructed to act suspicious or hostile. The effective accuracy rate of FAST was 78% on mal-intent detection, and 80% on deception.
The Department of Homeland Security is said to still be relatively early in their research, but say it looks very promising.
Criticism comes in the form of John Verdi of the Electronic Privacy Information Center. He states that FAST is “substantially more invasive in airports,” referring to it as a medical exam that the government has no right to conduct. There’s also concern that FAST could improperly identify physical conditions heart murmurs, breathing problems, and high stress levels as threats.
Should FAST be implemented, it might be a common sight at concerts, sporting events and other public gatherings, right alongside the mobile toilets or catering trucks.
Holy high core-count Batman, just imagine how many Chrome tabs you could have open with a 36-core Nehalem! But before you get too excited, this isn't some secret project Intel has been working on. The feat comes courtesy of Tilera, a small start-up from 2004 and self-proclaimed "industry leader in highly scalable multi-core embedded processor design." And with a 36-core chip, who's to argue?
This isn't even Tilera's highest cored processor, as the company introduced a 64-core CPU last year. This time around, the scaled down TilePro36 is being marketed as a midrange part suitable for devices like high-end video conferencing, according to Bob Doud, Tilera's director of marketing.
Intel and AMD needn't be worried though, as the Tilera doesn't target servers and home PCs, as the architecture would get summarily thumped by today's fastest chips. But for its targeted applications, the tiled RISC processing core puts out a bit of pep when configured in a distributed network, and the new 36-core version only sips between 10 to 16 watts.
There seems to be no other device more inane than a pocket-sized projector. But then again, the only thing that could save a swanky cocktail party from total failure is whipping out that compact projector and flaunting last Wednesday’s financial report you so diligently put together. Everyone in attendance will be so impressed by your Powerpoint skills (look at the way that text swivels!). And fortunately for you and the rest of those lackluster cocktail parties you’re sure to attend, Toshiba plans on releasing an ultra compact projector the size of an iPod, so it’ll be easier to take your presentations with you on the go.
The prototype was on display earlier this month at Berlin’s IFA 2008, one of the biggest consumer electronics trade shows. The projector is small enough to fit comfortably inside any pants pocket and runs solely on battery. The device radiates a luminance of about 7lm and can display images as big as 50 inches.
Toshiba hopes that it will be successful at introducing the product in 2009. Afterwards, the company can focus on increasing the specs of the projector, gearing it up with more power and more capabilities. The projector may cost an upwards of $400 USD. Specifications may change before the device’s official release.
More price cuts are on the horizon from Intel, with some processors soon to reach their end of life (EOL), say motherboard makers. As DigiTimes reports it, Intel will announce product discontinuance notices (PDNs) for the Core 2 Extreme QX9770 and QX9650 in the first quarter of 2009. PDNs will also be sent out for four quad-core chips, one of which is the Q9450 and ten dual-core CPUs, including the E8300.
Specific numbers haven't been released, but come October 19, Intel is expected to cut the price of the Core 2 Quad Q8200 and Q6600, Core 2 Duo 7300, and Pentium E2220 and E2220 CPUs. Around the same time the chip maker will launch its Core 2 Duo E7400.
In November, look for Intel to release a Core 2 Quad Q8300 clocked at 2.5GHz, Pentium E5300 clocked at 2.6GHz, and a dual-core Celeron E1500 at 2.2GHz. Prices in thousand-unit quantities will sit at $224, $86, and $53 respectively.
And finally, on January 18, 2009, Intel plans to launch the Core 2 Duo E7500 (2.93GHz, $133) and will make the following price cuts:
Core 2 Quad Q8200 from $193 to $183
Core 2 Duo E7400 from $133 to $113
Pentium E5200 from $84 to $76
Pentium E2200 from $84 to $64
Celeron E1400 from $54 to $43
Keep in mind that none of this is official, with Intel declining to comment on the price cuts and product launches.
Buffalo Technology, makers of high-end storage and networking peripherals (their products are apparently very popular in Japan), today announced several new products which they hope will bolster their market share in the US. One of the more exciting products they showed us is the Mini-Station portable hard drive, which is easily the smallest hard drive we’ve seen, period. The 60GB storage device is a mere 5 millimeters thick (.2 inches), and measures 3.4 by 2.2 inches. Inside the tiny frame is the smallest external spinning hard drive on the market, a single platter 1.8” drive.