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Intel to spend $5 billion on new 14nm fab in Arizona, create 4,000 new jobs this year
When Paul Otellini isn't too busy talking about being jilted by Nokia, he spends his time hosting presidents and splashing billions of dollars on new manufacturing facilities. Intel's CEO is wrapping his tumultuous week on a high note, having welcomed Barack Obama to Chipzilla's Oregon facility and treated the president to the happy news that Intel will invest $5 billion back into the US economy by building its most advanced fab yet -- which will introduce an impossibly small 14nm production process -- in Arizona, to begin operation in 2013. Construction starts in the middle of this year and is expected to create "thousands" of jobs, both temporary and permanent. Aside from that, Otellini has disclosed Intel's intention to create 4,000 new jobs in the US, mostly in R&D and product development. Music to Obama's ears, we're sure.
Vlad Savov02.19.2011IBM forms new partnership with ARM in hopes of developing ludicrously small chip processing technology
We've seen IBM and ARM team up before, but this week both companies announced a new joint initiative to develop 14nm chip processing technology. That's significantly smaller than the 20nm SoC technology ARM hopes to create in partnership with TSMC, and makes the company's previous work with IBM on 32nm semiconductors look like a cake walk. The potential benefits, though, are faster processors that require less power, and feature lower per unit manufacturing costs Who knows if or when we'll see tangible results from the tag team, but if IBM's Watson can beat Jeopardy champions, further reducing the average size of a feature that can be created on a chip should be elementary, right? To read over the full announcement check out the press release after the break.
Ben Bowers01.19.2011IBM claims world's fastest processor with 5.2GHz z196
Remember when a 1.4GHz processor was deemed the world's fastest? Man, that was ages ago. Recently, IBM has laid claim to that very record, with its 5.2GHz z196 processor being the focal point. Of course, we've seen a number of consumer chips hum along at speeds well beyond that (thanks to sophisticated cooling systems, of course), but this here enterprise chip does it without any liquid nitrogen-based assistance. It's a four-core slab that was manufactured using the outfit's 45 nanometer technology, boasting 1.4 billion transistors and the ability to handle more than 50 billion instructions per second. Interestingly, Fujitsu's Venus CPU is said to handle a staggering 128 billion calculations per second, so we're guessing that IBM won't be snagging this crown without any debate from the competition. At any rate, there's a very convincing video waiting for you after the break, and no, you won't find this thing in your next Alienware anytime soon.
Darren Murph09.06.2010Microsoft becomes official ARM licensee, could an MS microprocessor be next?
ARM processors are so hot right now, especially in the mobile space, where they power many of the greatest smartphones, tablets, and mobile devices coming down the turnpike. Microsoft is apparently looking to merge in on that action, becoming an official ARM licensee. It's unclear exactly what MS will be doing with its new found technical rights, but General Manager KD Hallman said "With closer access to the ARM technology we will be able to enhance our research and development activities for ARM-based products." This likely means Microsoft will be better optimizing Windows Embedded and Windows Phone for the processor architecture, but also opens the door for Ballmer & Co. to create their own magical microprocessor and, ultimately, use it to rule the world with an iron fist. Terms of the agreement were not given, but hopefully nobody in Redmond had to lose any appendages to seal the deal.
Tim Stevens07.23.2010NCSA prepares for Blue Waters petascale supercomputer, and we've got the video to prove it
How often do you get to see an unboxing of this magnitude? Our buddy Bill at the NCSA (National Center for Supercomputing Applications at the University of Illinois) has been kind enough to hit us up with a video that shows the arrival and installation of the facility's new IBM 780 hardware at the National Petascale Computing Facility. This hardware will allow scientists to prep code in anticipation of the Blue Waters -- which, as previously reported, will be the largest publicly accessible supercomputer in the world when it goes online in 2011, thanks to its over 16,000 Power7 nodes. Video after the break.
Joseph L. Flatley05.28.2010Nazomi Communications makes friends by suing everyone you know
When the Java programming language burst onto the scene in the mid-'90s, the mantra was "write once, run anywhere." Any Java coder will tell you that dream never quite became a reality, and while plenty have worked on ways to make Java code run like instructions specialized for this or the other family of processors, Nazomi Communications wants there to be only one: its way. The company was founded in the late '90s by Sun expatriates and created some processors capable of running compiled Java code natively. Now its biggest production is a lawsuit against Amazon, Microsoft, Nokia, Garmin, Sling, and others for patent infringement. Exactly which patent hasn't been made clear at this point, but we wouldn't be surprised if it's 6,332,215, the same one the company referenced when suing ARM back in 2007. Nazomi lost that suit (plus a subsequent appeal) and, given how much we dislike these annoying patent disputes from tiny, seemingly struggling companies (Nazomi currently has four whole employees according to LinkedIn), we're hopeful that all these lawsuits go away soon too.
Tim Stevens02.11.2010Intel said to be cooking up DDR3-lovin' Atom N475 and Atom N455 CPUs
We've maintained that Intel's range of Atom chips were simply too weak to really love and adore the way a slab of silicon should be, but that's probably because of our infatuation with things like "overclocking" and "Core i7 Extremes." Whatever the case, it's beginning to look a wee bit better for the lineup, as Fudzilla has it that the company will be adding DDR3 memory support to the 1.83GHz N475 and 1.6GHz N455. Both of those chips are expected to maintain their current TDP ratings, and both are expected to launch in Q3 of this year. Nah, DDR3 compatibility won't make your next netbook scream or anything, but when we're talking Atoms, we'll take all the baby steps we can get.
Darren Murph02.02.2010Intel's Arrandale and Clarkdale CPUs get benchmarked for your enjoyment
Whoa, Nelly! Just weeks after Intel came clean with its new Pine Trial nettop and netbook platform, the company is today cutting loose with a few more. This go 'round, we've got the 32nm Arrandale (which consists of the Core i5 Mobile and Core i3 Mobile) heading for the laptops and the 32nm Clarkdale chips over on the desktop front. Starting with the former, most reviews found the CPU + GPU solution to be faster than rivaling Core 2 Duo + integrated GPU options, with the Core i5 being particularly potent in highly threaded applications. Better still, battery life didn't seem to take a hit even with the extra performance, though high-end, high-res gaming was still a lesson in futility when working without a discrete graphics card. Overall, the chip was a welcome addition to the fold, but we got the feeling that the first wave was priced too high and offered too little of a performance increase on the gaming side to really warrant a wholehearted recommendation. As for the Clarkdale? The Core i5 661 that everyone seemed to snag was found to be blisteringly fast, with most folks deeming it the outright champion in the dual-core realm. Unfortunately, the integrated GPU was -- again -- not awesome for hardcore gaming, and the questionable pricing didn't exactly thrill some critics. Do yourself a favor and dig into the benchmarks below -- we get the feeling we'll be seeing oodles of machines hit the wires this week with these chips within. Update: Check out the Arrandale in action after the break! Arrandale reviews Read - HotHardware Read - AnandTech Read - Tom's Hardware Read - PCPerspective Read - Legit Reviews Clarkdale reviews Read - NeoSeeker Read - HotHardware Read - HardOCP Read - TechSpot Read - MissingRemote Read - AnandTech Read - PCPerspective Read - Legion Hardware Read - Overclockers Club Read - Bit-tech
Darren Murph01.04.2010IBM developing 10 petaflop supercomputer, Power7 to ship next year
The last we heard, IBM was hard at work on its Power7 processor. Now the company's announcing that the thirty-two core chip -- and copious amounts of eDRAM -- are at the heart of its newest supercomputing project. To be housed at the University of Illinois, IBM's Blue Waters will be the largest publicly accessible supercomputer in the world when it goes online in 2011, theoretically capable of achieving 16 petaflop speeds by connecting up to 16,384 Power7 nodes, although IBM said that initially the theoretical peak performance will likely be closer to 10 petaflops -- with more realistic sustained real-world performance near one petaflop. To keep things from overheating, a system was devised that includes water-cooling for the whole rack, including the processor itself. But why should government agencies and large corporations have all the fun? According to CNET, IBM plans to ship Power7 processors with commercial server products sometime next year.
Joseph L. Flatley12.07.2009Core Values: The silicon behind Android
Core Values is our new monthly column from Anand Shimpi, Editor-in-chief of AnandTech. With over a decade of experience poring over the latest in chip developments, he's here to explain how things work and why our tech is the way it is. Remember this chart? It's interesting for a number of reasons, but I want to highlight that all present day Android phones use virtually the same Qualcomm application processor, all based on a sluggish 528MHz ARM11 core. Blech. I've got nothing against Qualcomm, but a big reason most Android phones feel slow is because they're running on slow hardware. The ARM11 core was first announced in 2003. It's old and creaky, and it's used so frequently because it's cheap. But the basic rules of chip design mean that things are about to change fast.
Anand Shimpi10.14.2009Intel begins production of 32nm Westmere processors
Were you so impressed by the reviews of Intel's latest Lynfield Core i7 chips that you ran out and paid the early-adopter premium to buy one? Your period of superiority hasn't lasted long, dear reader, with the company announcing initial production of 32nm processors has begun. It's taken many years (and a $7 billion manufacturing investment) to get these Westmere chips onto silicon, with the Clarkdale (desktop) and Arrandale (notebook) lines expected to start showing up in over-sized cardboard boxes before the end of the year. What's next for 45nm chips, like those new Lynnfields? A slow fade to obsolescence, as they're likely to be the last of the breed -- but they at least can take pride in knowing they were the king of their class; a class that resulted in a whopping 200 million sales. Check out the video after the break for a some silicon and cleanroom action.
Tim Stevens09.14.2009Seven Samurai chipmakers set to take on Intel
You know, it's been nearly forty years since Intel introduced the first microprocessor, and even at this late date the company comprises a whopping eighty percent of the global market for CPUs. But not so fast! Like an electronics industry remake of The Magnificent Seven (which is, of course, an American remake of The Seven Samurai) NEC and Renesas have teamed up with a stalwart band of companies, including Hitachi, Toshiba, Fujitsu, Panasonic, and Canon, to develop a new CPU that is compatible with Waseda University professor Hironori Kasahara's "innovative energy-saving software." The goal is to create a commercial processor that runs on solar cells, moderates power use according to the amount of data being processed (a current prototype runs on 30% the power of a standard CPU), remains on even when mains power is cut, and, of course, upsets the apple cart over at Intel. Once a standard is adopted and the chip is used in a wide range of electronics, firms will be able to realize massive savings on software development. The new format is expected to to be in place by the end of 2012. [Warning: Read link requires subscription]
Joseph L. Flatley09.04.2009Movie Gadget Friday: Weird Science
Ariel Waldman contributes Movie Gadget Friday, where she highlights the lovable and lame gadgets from the world of cinema. We last left off on the cyberpunk streets of LA in Strange Days. This week, in honor of the loss of the man behind so many 1980's icons, Movie Gadget Friday is paying homage to filmmaker John Hughes with a look into the 1985 cult-classic Weird Science. Tapping into the geek-fiction fantasies of most tinkering teenagers, real-life gadget specs are stretched to surreal capabilities to create the ultimate female bombshell. It's without surprise that the character's name, Lisa, was inspired by the Apple Lisa, Apple's first GUI computer.
Ariel Waldman08.28.2009IBM brings the ruckus -- and new Power7 processor
IBM likes its servers and supercomputers. A lot. After giving the Power6 plenty of self-congratulatory publicity, Big Blue is ready to move on to the 7th generation of Power, which is set to be announced at the Hot Chips conference this evening. With eight cores and up to four SMT4 threads running on each, the 45nm Power7 can perform 32 simultaneous tasks per chip. The designers have slapped in a whopping 32MB of eDRAM in each chip for improved latency, dual DDR3 memory controllers for a sustained 100GB per second bandwidth, and even error correcting code and memory mirroring for redundancy. Sounds like a major boon for research into the brains of mice and the history of dirty words, but we don't expect to hear much about this proc outside the server farm.
Vlad Savov08.26.2009AMD's 3.4GHz Phenom II X4 965 Black Edition review roundup: fast, but not Intel fast
Say what you will about AMD, but don't you dare call it lazy. Within a matter of weeks, the outfit has launched a 2GB FirePro for um, pros, a 785G integrated chip for laypeople and now a new Phenom II X4 for the gamers in attendance. The all new Phenom II X4 965 Black Edition is the "highest clocked quad-core processor for desktop PCs," checking in with a stock frequency of 3.4GHz and support for DDR3 and AMD OverDrive 3.0. Based on the Dragon platform, the chip is actually identical to the 955 it replaces at the top save for the clock speed, and during the collective web's testing, it easily outpaced every other AMD option out there. Unfortunately, it still couldn't put the hurt on a smattering of Intel chips, with the Core 2 Extreme QX9770 and Core i7 920 besting it in all but a few tests. All told, the chip was found to be an incremental (albeit fun) update, but given that it's currently priced between Intel's Core 2 Quad Q9550 ($219) and the aforesaid Core i7 920 ($279), it's not a clear-cut bargain at $245. Still, give it a lil' shelf time, let the MSRP sink and it just might be worth another look in due time.Read - HotHardware reviewRead - Tom's Hardware reviewRead - Anandtech's reviewRead - PC Perspective's reviewRead - Elite Bastards reviewRead - Neoseeker reviewRead - Overclocker's Club review
Darren Murph08.13.2009Samsung, LG, and SKT hook up for chip design
There's a lot of Kumbaya going around in South Korea this morning with the announcement that Samsung and LG -- normally the most bitter of archrivals -- will start working together to develop the next generation of chips for digital TVs and phones. Also being pulled into the love fest is domestic carrier SK Telecom, South Korea's largest, who will be working specifically on designing wireless systems-on-chip for use in handsets. Interestingly, it seems Sammy will be left out of the loop on actual design; that'll be left to LG and others, while Samsung will be responsible for manufacturing and testing the goods. For its part, the government seems to like what it sees here -- it's pumping some 19.5 billion won (about $15.7 million) into the project, though there's no word on when we'll see the fruits of the labor in a retail product.
Chris Ziegler07.27.2009AMD parties hard after shipping 500 millionth x86 processor
Get on down with your bad self, Mr. Spaceman -- AMD just shipped its 500 millionth x86 processor! Shortly after the company celebrated 40 years of hanging tough and doing its best to overtake Intel, the outfit has now revealed that a half billion x86 CPUs have left its facilities over the past two score. We pinged Intel in order to find out just how that number stacked up, but all we were told is that the 500 million milestone was celebrated awhile back down in Santa Clara. We'll just chalk the vagueness up to Intel not wanting to spoil an otherwise raucous Silicon Valley shindig. Classy.[Via HotHardware]
Darren Murph07.24.2009Intel applies "stars" ratings to processors, processors lose self-esteem
It looks like those confused by the multitude of Intel processors out there needn't linger in indecision any longer, as Intel itself has now come up with a new scheme that it hopes will help simplify the buying process significantly. As you can see above, that consists of a new rating system that gives processors between one and five stars, which Intel says indicates "relative performance, not a price-performance type of thing." As you might expect, the five-star rating is reserved for the like of the Core i7 and Core i7 Extreme, with the one-star ranks apparently occupied solely by various Celeron processors -- the Atom, it seems, is in a class all its own. Somewhat less notably, Intel has also taken the opportunity to roll out some spruced processor logos, which should already be showing themselves in stores along with displays featuring the new star rating system.[Thanks, Simon B]
Donald Melanson04.10.2009Intel Core 2 Quad S-Series shaves power consumption to 65W
In a relatively hush-hush manner, Intel recently slipped out energy saving versions of its Core 2 Quad Q8200, Q9400 and Q9550 CPUs, all of which are suffixed with a simple "s." Put simply, these S-Series chips are built using the same 45 nanometer process technology as used on the regular models, and aside from TDP, all the specifications are exactly alike. The difference comes in power consumption, as the S crew sucks down just 65 watts compared to 95 watts in the standard issue models. Tom's Hardware had a chance to handle, benchmark and report on these new power sippers, and lucky for you, they found performance to be equal to that of the higher power chips. Granted, you'll have to pony up a few extra bucks in order to treat Mother Earth (and your energy bill) better, but at least we're working down the power ladder instead of the other way around.[Via Tom's Hardware, thanks Jonathan]
Darren Murph03.29.2009AMD nets final approval to create The Foundry Company
After having to delay the final vote earlier this month due to a lack of participation (d'oh!), AMD has dotted the final 'i' in its attempt to spin off semiconductor manufacturing. Said company, along with the Advanced Technology Investment Company, have now secured the final approval necessary to create The Foundry Company. Stockholder approval was the only remaining hurdle to be jumped, and the joint venture transaction is expected to fully close by March 2nd of this year. By the numbers, AMD stockholders approved a proposal to issue 58 million shares of its common stock along with warrants to purchase 35 million shares of its common stock and 35 million shares of the company's common stock upon exercise of those warrants to an affiliate of the Mubadala Development Company PJSC (perplexing, we know). Now, let's see if AMD can keep up with Intel's own $7 billion investment.
Darren Murph02.19.2009