Today, NVIDIA officially announces its new GeForce GTX 200 family of graphics processing units (GPUs) and the first two products in the family, the GeForce GTX 280 and the GeForce GTX 260.
NVIDIA's GeForce GTX 280 graphics chip
(Credit: NVIDIA Corporation)The GeForce GTX 280 is the new flagship of NVIDIA's GPU product line, taking over from last year's GeForce 9800 GTX. (The change in the product-name format from "9800 GTX" to "GTX 280" is potentially confusing and doesn't seem that useful to me, but I'm sure we'll get used to it over time. I suppose NVIDIA's other choice was to go with numbers above 10,000, which might have been even worse.)
NVIDIA disclosed the details of these products at an Editor's Day conference in May, and most of the attendees, including myself, received GTX 280 graphics cards for editorial review. These cards are NVIDIA reference boards, not retail products.
I'll be doing this review in multiple parts, each addressing a different aspect of these products and the effects they'll have on the PC graphics market.
First, an overview of the GTX 280 chip itself.
This is a huge chip. NVIDIA won't say exactly how large, and I'm not going to bust open the chip package on my reference board just to find out, but NVIDIA VP of technical marketing Tony Tamasi says ... Read more
Graphics performance improves rapidly. We can be confident that each new generation of graphics chips will be faster than the previous one, and that AMD and NVIDIA will regularly surpass each other with new product launches. I've been watching this process professionally since 1996, when I began covering graphics technology for Microprocessor Report.
NVIDIA's GeForce GTX 280 graphics chip
(Credit: NVIDIA Corporation)As of today, NVIDIA is on top. The new GeForce GTX 280 is the fastest graphics chip you can get. See the first part of this review for details of the chip itself.
If you can get one, anyway. NVIDIA says boards based on the GeForce GTX 280 and its companion GeForce GTX 260 will be available "in quantity" tomorrow (June 17), but if previous launches are any indication, those quantities won't be enough to satisfy everyone.
And you may not be able to afford one-- a GTX 280 board with 1GB of RAM will likely be priced around $649, while GTX 260 boards with 896MB will go for about $399. (The GTX 280 / 1GB board I tested was made by NVIDIA, so it isn't necessarily representative of commercial products.)
But avid gamers won't be discouraged by these prices. Both AMD and NVIDIA like to point out that an expensive graphics card is a much better investment than a high-end CPU or motherboard if you care about gaming.
The standard of comparison for gaming performance is the number of frames per second that can be rendered for a given combination of screen resolution and quality features... or, conversely, what resolution and features can be used without reducing the frame rate below a playable level.
So in my own testing, I used frame rate as a metric for games that could run acceptably with maximum quality at the maximum resolution of my monitor (1,600 x 1,200 pixels), and quality for other games.
I did my testing with four games: ... Read more
It's been a big week for small systems.
On May 29, VIA formally announced (here) its "Nano" family of low-power x86 processors. These chips will be especially valuable in small laptops, UMPCs, and so-called mobile Internet devices (MIDs).
Then on June 2, NVIDIA announced (here) its Tegra 600 family, which is also being marketed for MIDs. But Tegra is a very different animal. It's based on an ARM11 processor core, which can run Windows Mobile or Linux but not Windows XP or Vista.
VIA's Nano processor. The chip itself, the silver rectangle in the center, is about 7.7mm x 8.3mm.
(Credit: Courtesy of VIA Technologies, Inc.)VIA's Nano processors are based on a new microarchitecture that is a giant step beyond previous VIA products and not far behind that of competing parts from AMD and Intel. Unfortunately, in this business, third place isn't a good place to be. VIA's older processors sold in relatively small quantities for low prices. Fortunately, they were very small and thus economical to make and sell.
The new Nano family offers much higher performance, with clock speeds from 1.0 to 1.8 GHz... but it's difficult to know what these clock speeds mean by comparison with AMD's or Intel's, and VIA isn't telling us, at least not directly. In this white paper on the Nano family, VIA only compares the performance of the new chips to its older C7 series.
But VIA does publish some numbers, so I was able to make some comparisons.
Take, for example, the Nano L2100 at 1.8 GHz vs. AMD's 2005-vintage Turion 64 ML-34 at the same speed, as found in the famous Acer Ferrari 4000 (reviewed here by PC World). The single-core ML-34 was much faster despite the clock-speed parity:
| Worldbench 6 test | VIA Nano L2100 | AMD Turion 64 ML-34 | AMD advantage |
|---|---|---|---|
| Windows Media Encoder | 585 | 467 | 25% faster |
| Adobe Photoshop | 809 | 412 | 96% faster |
| Roxio VideoWave | 507 | 381 | 33% faster |
Of course, the ML-34 consumes much more power than VIA's processor; the ML-34 has a 35W TDP (thermal design power) specification, whereas the L2100 has a 25W TDP. The L2100 idles at a mere 500mW, but the ML-34 probably consumes at least ten times as much when idle.
To be fair, I'm not sure these are entirely fair comparisons, since VIA didn't publish the details of their system configuration. Also, VIA's performance position probably looks better on simple productivity applications, but I prefer to look at multimedia performance since that's what we usually find ourselves waiting on. It's been a while since we had to worry about out-typing our word processor...
I'm looking forward to seeing some good performance and power figures for Intel's Atom; I think the VIA chips will turn out to be effectively faster but run a little hotter. When I get more data, I'll post a comparison.
But considering that the Nano is generally 60% to 200% faster than the C7 and much more power-efficient than competing products from AMD and Intel, the new product family will likely improve VIA's market position significantly over the next year.
NVIDIA's Tegra, a high-integration processor for handheld gizmos such as mobile Internet devices.
(Credit: Courtesy NVIDIA Corporation)NVIDIA's Tegra, on the other hand, offers no compatibility with existing PC systems or software, and its performance isn't even in the same class. The Tegra 600 family's ARM11 processor core runs at a maximum speed of 800MHz and, because it's a much simpler design, it offers a fraction of the effective performance of VIA's Nano.
So how can it possibly compete with Nano in mobile Internet devices?
Well, one answer is that Tegra is meant to deliver a much more complete solution with much lower power consumption. Instead of being just a core on a chip, like the Nano family, the Tegra 600 and 650 consist of a CPU core, a GeForce GPU, special-purpose hardware for accelerating digital video decoding and camera functions, and a dual-display controller that supports HDMI, LCDs, CRTs, and NTSC/PAL video. All of that on a chip the size of a dime, as you can see in the photo.
But the real answer is that what NVIDIA means by "mobile Internet devices" is different than what Intel (which coined the phrase), AMD, and VIA mean by it.
What NVIDIA means is basically any device with a size somewhere between that of a smartphone and a laptop, which can be used to access the Internet. But this doesn't strike me as a very useful definition; it boils down to encompassing anything like a smartphone with a larger screen. It's one thing to claim the Tegra 600 family supports a "full Internet experience" as NVIDIA did in advance briefings last month, but with the wide variety of sophisticated Web 2.0 websites out there, it really takes a PC-compatible system to deliver that experience.
Now, there's no doubt that the Tegra 600 and 650 will enable fun and interesting gizmos for people who buy lots of gizmos. (And honestly, I'm exactly that kind of person.) But I believe most people are not going to be interested in them. Anything larger than a cellphone is too big to carry around all the time. Anything with a screen smaller than about 7" to 9" isn't big enough for comfortable web browsing and movie watching. Anything with a screen that large might as well be a full Windows-compatible system.
Now, over time, these segments will inevitably blur together. Moore's Law will let us squeeze more performance into handheld devices. Software technologies like Adobe's Flash and Microsoft's Silverlight will allow more websites to work on simpler systems. Hardware like high-resolution LCDs and OLEDs and tiny projection displays will help solve size problems too.
But for now, I believe the Tegra 600 family is aimed at a market segment that isn't ready to develop, whereas VIA's Nano has a big market ready and waiting for it. The Nano won't sell as well as competing PC processors from AMD and Intel, but it should help raise awareness of VIA among PC buyers and encourage PC makers to keep pushing more functionality into smaller packages.
Welcome back to the ongoing Speeds and Feeds coverage of Hot Chips 19 at Stanford. They give us comfy chairs and free Wi-Fi, so blogging about it is the least I can do. By the way, Dean Takahashi of the San Jose Mercury News is also blogging from Hot Chips, so you can get another perspective on the event here.
Session 2 is the first of two sessions of "Multi-Core and Parallelism" presentations. This one happens to be all about Nvidia. Session 3, up next, will include presentations about AMD's ATI Radeon HD 2900, Intel's 80-core "Tera-Scale" processor, the TRIPS project at the University of Texas at Austin, and the Tile Processor from Tilera.
The first presentation in this session, "The Nvidia GeForce 8800 GPU," is an overview of that chip. As I mentioned in my Siggraph coverage, the 8800 includes 128 ... Read more
- prev
- 1
- next
