VIA

VIA’s line of CPUs, developed by its Centaur subsidiary, have focused on delivering “enough” performance at very low power. The Centaur line is also very low cost, due to tiny die sizes relative to Intel and AMD CPUs.

Rather than take Intel head-on, however, VIA’s approach has been to develop a complete platform, based around its tiny motherboards, which are suitable for low power, embedded applications. Some of the more recent products, like the C7 line, have also garnered design wins in low cost “mini-note” laptops and ultra-mobile PCs.

However, the VIA CPUs were also derided as being low performance. “Good enough” was probably good enough for very light duty office applications, “nettop” PCs, and dedicated, embedded applications where power and form factor was critical.

Glenn Henry, Centaur’s chief architect, decided it was time to flex a little design muscle and develop a processor that offered performance good enough to compete in a more mainstream environment.

The VIA Nano architecture certainly has the right ingredients. The CPU is an out-of-order, superscalar design with a substantially beefed-up floating point unit. It is, however, still a very lean design, eschewing enhancements such as simultaneous multithreading. The Centaur team did build in the hooks to build multicore versions of the Nano, but the first CPUs off the fab lines will be single core processors.

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Alas, time and technology march on. Intel has adopted the low power religion, shipping iterations of the Silverthorne architecture. Now known as Atom, Intel’s new CPU seems like a throwback: An in-order design that sacrifices advanced architectural features in order to minimize power usage.However, Atom does have one ace up its sleeve: simultaneous multithreading (SMT), which Intel calls Hyper-Threading. That turns out to be pretty important, as we’ll shortly see.

Via Technologies is making processors based on a new architecture this year that may help the tiny company inch up the chipmaking pecking order.

The chips, which utilize the so-called Isaiah architecture, are expected to provide double the performance of the company’s current chips but consume the same amount of power. They will come with two cores and run at 2 gigahertz.

The first Isaiah chips will make their debut toward the middle of the year. Via announced the architecture in 2004, but it has now released the fuller specifications.

Via occupies only a sliver of the market, but it has managed to land a few interesting design wins with its low-power chips. Hewlett-Packard has used Via chips in some computers sold in China, while Samsung Electronics and Oqo have put Via processors into handheld computers. Many thin-client makers also buy processors from the Taiwanese company.

For Via, the new processors sport a few firsts. For one thing, the chips can process instructions out of order, something chips from Intel and Advanced Micro Devices have done for years. This enables the chip to keep churning while waiting for crucial data.

To date, Via has stuck with in-order execution to keep power consumption low.

“With out-of-order execution, you can do things while waiting. The bad news is that you execute things that later get thrown away” and hence consume more power than necessary, said Glenn Henry, president of Centaur Technology, which is Via’s processor design subsidiary.

The chips will also be capable of processing 64-bit software. AMD has had 64-bit chips since 2003. Intel came out with so-called x86 chips for desktop and notebooks that can process 64-bit software a few years later.

Although 64-bit chips have been out for years, few consumers or even business users actually use 64-bit software on their desktops and notebooks. The several delays to Microsoft’s Windows Vista operating system hurt the evolution of a 64-bit market.

Frigital Records

VIA Nano Takes on Intel’s Atom

Via makes way for 64-bit chips

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