Server

Seagate is making a belated but potentially market-changing entry into the solid-state drive market.

Solid-state drives are generally faster than hard-disk drives, particularly at retrieving data, and have won limited acceptance in the laptop market. Seagate, however, is targeting the more lucrative and potentially larger server market and will compete with likes of Intel, Micron Technology, Samsung, and STEC.

Seagate's first salvo in the market is the new Pulsar drive, which is designed for blade computers and general server applications and offers up to 200 gigabytes of capacity based on the industry-standard Serial ATA interface.

Though pricier than hard-disk … Read more

IBM will release a radical new chip next year that will go into a University of Illinois supercomputer in a quest to build what may become the world's fastest supercomputer.

That university's supercomputer center is a storied place, home to both famous fictional and real supercomputers. The notorious HAL 9000 sentient supercomputer in "2001: A Space Odyssey" was built in Urbana, Illinois, presumably on the University of Illinois Urbana-Champaign campus.

Though not aspiring to artificial intelligence, the IBM Blue Waters project supercomputer, like the HAL 9000 series, will be able to do massively complex calculations in an instant and, like HAL, be built in Urbana-Champaign. It is being housed in a special building on the Urbana-Champaign campus specifically for the computer that will theoretically be capable of achieving 10 petaflops, about 10 times as fast as the fastest supercomputer today. (A petaflop is 1 quadrillion floating point operations per second, a key indicator of supercomputer performance.)

Part of the National Center for Supercomputing Applications (NCSA) at the University of Illinois, it will be the largest publicly accessible supercomputer in the world when it's turned on sometime in 2011.

Supercomputers are essentially a large collection of microprocessors acting in concert on a complex problem. As processor designs go, the upcoming Blue Waters' IBM Power7 processor--due in the first half of 2010--is a big step for IBM: the processor integrates the features of a chip used in its "Roadrunner" supercomputer, which has often been ranked as the fastest supercomputer in the world. Power7 fuses the flagship Power chip design with key technology from a separate "Cell" processor--the latter was part of IBM's Roadrunner system at the Los Alamos National Laboratory, according to Bradley McCredie, an IBM Fellow in the Systems and Technology Group.

"We took some of that genetic material from the Cell program--ways to do floating point (calculations)--and embedded that right into the Power7 core," McCredie said in an interview with CNET.

But that's not the only thing that makes the Power7 chip special. It integrates eight processing cores in one chip package and each core can execute four tasks--called "threads"--turning an individual chip into a virtual 32-core processor. As a yardstick, Intel's high-end Xeon processors typically have two threads per processing core.

IBM is also using novel memory technology. Widely used "static" RAM memory, used as the on-chip memory in almost all processors today, can add as much as a billion transistors to high-end processors. IBM wanted to avoid these ballooning--and costly--chip counts and elected to use a technology called E-DRAM, keeping the total number of transistors to 1.2 billion. "The equivalent number of transistors if we had done all of the cache in (static RAM) is well in excess of two billion," McCredie said.

And the chip's speed? Between… Read more

Intel on Monday disclosed a version of its Xeon processor line optimized for supercomputers and announced a partnership with NEC to develop future supercomputers.

At Supercomputing 2009 in Portland, Ore., Intel unveiled a future version of its "Nehalem-EX" processor optimized for supercomputers. The six-core chip will run at higher speeds than eight-core versions of the Nehalem-EX processors and will offer advantages for supercomputer specific tasks, Intel said in a statement. Intel also refers to supercomputing as high-performance computing, or HPC.

The chip architecture will offer greater memory speeds and capacity and will allow customers to build single computers … Read more

Updated at 2:15 p.m. PDT: adding information about Dell system.

The main message of the new Core i5 chip is simple: it's cheap--even cheaper than Intel chips based on older technology.

The i5, which brings Intel's new "Nehalem" microarchitecture into the mainstream PC market, immediately makes many, if not most, of the older desktop processors obsolete. Consumers need look no further than pricing on sites like Amazon. The i5-750 lists for $250, while the older--based on Intel's last-generation "Core 2" microarchitecture--Q9650 lists for $319.

The official pricing from Intel in quantities … Read more

The Hot Chips conference in Palo Alto, Calif this week is focusing on high-end chips for servers and scientific computers, with IBM's upcoming Power7 as a standout.

On Tuesday, IBM will give a presentation on its next-generation server chip, the Power7. IBM documentation describes the chip as having up to eight cores. A dual-chip module holds two processors for a total of 16 cores, according to IBM.

Each core has a rated performance of 32 gigaflops, providing 256 gigaflops per processor--one of the fastest chips to date based on this scientific-centric performance benchmark.

Power7 will be used in the … Read more

Core i3, i5, i7. A straightforward, if not insipid, branding scheme, right? Wrong. Those alphanumeric identifiers are fighting words.

Last week, Intel announced a new branding scheme for its upcoming processors. In a blog, spokesman Bill Calder wrote that the branding will be "simplified into entry-level (Intel Core i3), mid-level (Intel Core i5), and high-level (Intel Core i7)." Intel calls the "i" suffix an identifier.

The upcoming Lynnfield chip for desktop PCs, for example, will be available as either Intel Core i5 or Intel Core i7 depending upon the feature set and capability. The upshot of the new branding is to make it easier for less tech-savvy consumers to readily identify classes of Intel chips based three simple identifiers, according to Calder.

But judging by the tenor of many of the comments attached to Calder's brand structure blog, you would think the chipmaker had committed high treason.

In the minds of some, it did. The shortcomings of the current naming scheme notwithstanding, many tech-savvy consumers have gotten used to it. For example, Core 2 Quad means a chip built on the Core 2 architecture with 4 processing cores. Core 2 Duo indicates two cores.

One of the most common criticisms cited in the comments section is that i3, i5, and i7 are too vague. "Above all, I'd like to see...at a glance how many cores and what features they have (or have not)," one comment said. Another comment suggested that Intel add more identifiers. For example, Intel Core i5 4100, where 4 is the number of cores and 100 is a speed rating.

Yet another idea was this: Intel/name/number/year, where "name" is the product name, "number" is a bigger-is-better ranking, and "year" the year the architecture was released.

And another: "Either ditch the Celeron, Pentium and Xeon names completely or embrace them completely. These are fairly well known as the 'good, better, best'." … Read more

AMD launched its first six-core processor, which will compete against Intel's "Dunnington" chip.

The "Istanbul" Opteron processor is for high-end server computers that use two, four, and eight processors or "sockets." Intel has been shipping a six-core processor for this market since September of last year and will bring out a processor based on its new Nehalem architecture for this segment later this year.

Among other new features, AMD is touting an Istanbul technology called HT Assist. The previous way of retrieving data from the processor's memory was "like checking every … Read more

Intel on Tuesday said it will ship a server chip that contains up to eight processing cores later this year, while IBM showed off a high-end server in the works that uses eight such chips, yielding 64 cores.

Intel's Nehalem-EX processor, in production later this year and expected to be shipping in high-end server systems by early 2010, will feature up to eight cores inside a single chip that supports 16 threads, according to Boyd Davis, Intel's general manager of the Server Platforms Marketing Group, speaking at a teleconference on Tuesday.

Using threads, Intel essentially doubles the amount … Read more

Updated at 10:00 a.m. PDT with correction about launch of Nehalem-EX processor.

Intel is expected to announce details of an 8-core processor for the high-end server market next week.

The chip itself will not actually ship in systems until late 2009 or early 2010.

The 8-core "Nehalem-EX" Xeon processor is designed for servers that can use more than two processors (referred to as "sockets" in server argot). Currently, Intel is shipping Nehalem Xeon processors for servers with two sockets.

Nehalem is the same architecture used in Intel's Core i7 desktop processor line.

The … Read more