ISSCC Agenda Reveals Faster Power6, Cell, Intel CPUs
January 4, 2007 7:06 PM
comment(s) - last by
A quick look at the program outline for the International Solid State Circuits Conference reveals Power6 chips faster than 5GHz, Cell chips faster than 6GHz and 80-core Intel processors
This article was first published at
Many believe that the race for GHz ended with the Pentium 4 architecture, but you wouldn’t be able to tell by looking at the speed of these two upcoming IBM processors. According to the agenda of the International Solid State Circuits conference, IBM’s Power6 Processor will operate at speeds of over 5GHz in high-performance applications. The second-generation of the Cell Broadband Engine processor, which was co-developed by IBM, Sony and Toshiba, will run at 6GHz. More details of Intel's "teraflop-on-a-chip" network processor will also be revealed.
ISSCC2007 advanced program (PDF)
claims IBM Power6 server processors are expected to begin shipping in 2007. Although it has been widely believed that the processors will run at a clock frequency between 4GHz and 5GHz, information provided by IBM for the ISSCC agenda states otherwise. The processor will run at over 5GHz in “high-performance applications” while also running at under 100 watts in “power sensitive applications.”’
IBM states that the Power6 offers “ultra-high frequency operation, aggressive power reduction, a highly scalable memory subsystem, and mainframe-like reliability, availability, and serviceability.” The dual-core 341 square millimeter processor features 700 million transistors. It is constructed using a 65-nanometer manufacturing process.
The ISSCC program also revealed technical details of the second generation IBM, Sony and Toshiba Cell Broadband Engine. The first generation of the chip, which is currently used in the Sony PlayStation 3, runs at frequencies up to 3.2GHz. The second generation chip, on the other hand, will receive a frequency boost of nearly 3GHz and have an operating frequency of 6GHz at 1.3V. In addition, it will be constructed using 65nm CMOS SOI technology and will feature a dual power supply helping increase memory performance.
Despite IBM’s evident advancements in clock speed, Intel will still be holding firm to its multi-core approach to performance. According to the program schedule for ISSCC, Intel will reveal more details regarding its 80-core Tera-scale processor which can run 1.28 trillion floating-point operations per second.
Described as a “network-on-chip architecture,” the 225 square millimeter chip has 80 cores, each operating at 4GHz. The die is built using a 65nm process and is able to “achieve a peak performance of 1.0TFLOPS at 1V while dissipating 98W.” Currently, the processor is not able to run conventional applications for Intel chips.
Even though the chip is currently little more than a prototype, Intel CEO Paul Otellini claims it will be available within five years. The processor was first announced last September at
the Intel Developer Forum
The International Solid-State Circuits Conference will be taking place February 11-15 at the San Francisco Marriott Hotel. Other notable appearances will be given by Sun Microsystems, who will be discussing its Niagara2 processors, and AMD, who will be talking about its quad-core
expected to ship mid-2007.
This article is over a month old, voting and posting comments is disabled
1/5/2007 4:28:49 PM
i agree with you almost completely. But what if the concept of what a 'modern' game is were to be changed? What if it wasn't the job of developers to make their software adapt to efficiently run dualcore?
IMO, it would be far more efficient, power, and adaptive to make a multicore chip that can (ON THE HARDWARE LEVEL) teem processors where needed to , and turn off the others like you said. This would allow for sheer speed in single processes. The same chip would be able to teem sets of a few processors to make less, faster ones- where some multitasking is needed, but not on an 80-core scale. Or it could flat-out run all the processors at default for things like rendering- everyone would win here.
The processor would adapt to meet the needs of the task, instead of software and users having to adapt to hardware, which is almost always obsolete as soon as it is sold. Considering the fact that revisions to hardware are so frequent, is it not to much to ask that the hardware adapt to the market instead of the other way around?
"Paying an extra $500 for a computer in this environment -- same piece of hardware -- paying $500 more to get a logo on it? I think that's a more challenging proposition for the average person than it used to be." -- Steve Ballmer
AMD 2007 Server Roadmap
December 14, 2006, 9:47 AM
Intel Shows Off Teraflop-on-a-Chip
September 26, 2006, 2:49 PM
"Prepare to be Punished": Microsoft is Killing OneDrive With Cuts, Blames Users
November 3, 2015, 8:23 PM
Apple's New "Magic" Peripheral Line Packs High Tech, High Prices
October 13, 2015, 9:39 PM
Samsung Adds 2 TB 850 EVO, PRO SSDs for $800, $1000
July 7, 2015, 4:23 PM
Seagate Senior Researcher: Heat Can Kill Data on Stored SSDs
May 13, 2015, 2:49 PM
How to Recover Most Apps After Your NVIDIA Driver Crashes in Windows 10
March 30, 2015, 12:54 PM
Tinkerer Gets Old School Mac Plus Running on the Modern Web
March 24, 2015, 6:41 PM
Latest Blog Posts
Sceptre Airs 27", 120 Hz. 1080p Monitor/HDTV w/ 5 ms Response Time for $220
Dec 3, 2014, 10:32 PM
Costco Gives Employees Thanksgiving Off; Wal-Mart Leads "Black Thursday" Charge
Oct 29, 2014, 9:57 PM
"Bear Selfies" Fad Could Turn Deadly, Warn Nevada Wildlife Officials
Oct 28, 2014, 12:00 PM
The Surface Mini That Was Never Released Gets "Hands On" Treatment
Sep 26, 2014, 8:22 AM
ISIS Imposes Ban on Teaching Evolution in Iraq
Sep 17, 2014, 5:22 PM
More Blog Posts
Copyright 2016 DailyTech LLC. -
Terms, Conditions & Privacy Information