Intel Discloses Details on “Poulson,” Next-Generation Itanium

This week at ISSCC, Intel made its first detailed public disclosures about its upcoming “Poulson” next-generation Itanium CPU. While not in any sense complete, the details they did disclose paint a picture of a competent product that will continue to keep the heat on in the high-end UNIX systems market. Highlights include:

  • Process — Poulson will be produced in a 32 nm process, skipping the intermediate 45 nm step that many observers expected to see as a step down from the current 65 nm Itanium process. This is a plus for Itanium consumers, since it allows for denser circuits and cheaper chips. With an industry record 3.1 billion transistors, Poulson needs all the help it can get keeping size and power down. The new process also promises major improvements in power efficiency.
  • Cores and cache — Poulson will have 8 cores and 54 MB of on-chip cache, a huge amount, even for a cache-sensitive architecture like Itanium. Poulson will have a 12-issue pipeline instead of the current 6-issue pipeline, promising to extract more performance from existing code without any recompilation.
  • Compatibility — Poulson is socket- and pin-compatible with the current Itanium 9300 CPU, which will mean that HP can move more quickly into production shipments when it's available.
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AMD Bumps Its Specs, Waits For Interlagos And Bulldozer

Since its introduction of its Core 2 architecture, Intel reversed much of the damage done to it by AMD in the server space, with attendant publicity. AMD, however, has been quietly reclaiming some ground with its 12-core 6100 series CPUs, showing strength in  benchmarks that emphasize high throughput in process-rich environments as opposed to maximum performance per core. Several AMD-based system products have also been cited by their manufacturers to us as enjoying very strong customer acceptance due to the throughput of the 12-core CPUs combined with their attractive pricing. As a fillip to this success, AMD this past week announced speed bumps for the 6100-series products to give a slight performance boost as they continue to compete with Intel’s Xeon 5600 and 7500 products (Intel’s Sandy Bridge server products have not yet been announced).

But the real news last week was the quiet subtext that the anticipated 16-core Interlagos products based on the new Bulldozer core appear to be on schedule for Q2 ’11 shipments system partners, who should probably be able to ship systems during Q3, and that AMD is still certifying them as compatible with the current sockets used for the 12-core 6000 CPUs. This implies that system partners will be able to quickly deliver products based on the new parts very rapidly.

Actual performance of these systems will obviously be dependent on the workloads being run, but our gut feeling is that while they will not rival the per-core performance of the Intel Xeon 7500 CPUs, for large throughput-oriented environments with high numbers of processes, a description that fits a large number of web and middleware environments, these CPUs, each with up to a 50% performance advantage per core over the current AMD CPUs, may deliver some impressive benchmarks and keep the competition in the server  space at a boil, which in the end is always helpful to customers.

HP webOS TouchPad Tablet: In The Race, But Apple Still Leads The Pack

Today HP unveiled its new line of webOS phones and the HP TouchPad, the first of a family of tablets HP is planning to launch. Here's our take on the TouchPad product strategy:

  • Product: The TouchPad marries the best of HP and Palm with features like Beats audio, printer compatibility, and nifty applications of Palm's Touchstone technology. Just as important, they've chosen a 9.7-inch screen size to make it as easy as possible for developers to port over their apps from the iPad, which will help them build their app ecosystem quickly. The device is thicker than the iPad and lacks the cool aluminum casing, but it has features the iPad doesn't (yet) have, like a front camera and multiple ports. There's still room for future improvement, like jazzing up the black hardware with a Vivienne Tam design as HP has done with its netbooks and notebooks to give the TouchPad more personality--and of course, launching 3G and 4G, which they plan to do later this year.  
  • Place: In a Forrester survey in January of 4,000 US online consumers, the No. 1 place consumers said they'd prefer to buy a tablet was electronic stores like Best Buy--40% of consumers considering buying a tablet said they'd prefer this channel, compared with only 11% that said they'd prefer to buy from a mobile service provider like Verizon. Here, HP has a huge advantage over Android tablet-makers like Samsung who are primarily relying on carriers to make the sale. HP has a strong relationship with Best Buy and the Touchstone technology will play well on retail shelves; however, Apple still has a stronger play on distribution since it's not only in Best Buy, Target, etc. but also owns its own channel--the Apple Store is a laboratory for teaching consumers about the iPad (and how to buy content on it).
  • Price: An unknown. HP is not announcing price at this time.
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The Passing Of A Giant – Digital Equipment Founder Ken Olsen Dead At 84

One evening in 1972 I was hanging out in the computer science department at UC Berkeley with a couple of equally socially backward friends waiting for our batch programs to run, and to kill some time we dropped in on a nearby physics lab that was analyzing photographs of particle tracks from one of the various accelerators that littered the Lawrence Radiation Laboratory. Analyzing these tracks was real scut work – the overworked grad student had to measure angles between tracks, length of tracks, and apply a number of calculations to them to determine if they were of interest. To our surprise, this lab had something we had never seen before – a computer-assisted screening device that scanned the photos and in a matter of seconds determined it had any formations that were of interest. It had a big light table, a fancy scanner, whirring arms and levers and gears, and off in the corner, the computer, “a PDP from Digital Equipment.” It was a 19” rack mount box with an impressive array of lights and switches on the front. As a programmer of the immense 1 MFLOP CDC 6400 in the Rad Lab computer center, I was properly dismissive…

This was a snapshot of the dawn of the personal computer era, almost a decade before IBM Introduced the PC and blew it wide open. The PDP (Programmable Data Processor) systems from MIT Professor Ken Olsen were the beginning of the fundamental change in the relationship between man and computer, putting a person in the computing loop instead of keeping them standing outside the temple.

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