The Sunnyvale, Calif.-based chipmaker is prepping an energy-efficient notebook chip, code-named Griffin, as well as a platform based around Griffin called Puma, (similar to Intel's Centrino) that will likely allow AMD to better compete in the rapidly growing notebook market.
Griffin will go into mass production toward the end of the year and Puma-based notebooks sporting the chips will hit in mid-2008, according to AMD Fellow Maurice Steinman.
Intel has produced chips sporting architectures optimized for notebooks since 2003 and has come out with. Partly as a result, Intel has maintained a in laptops over AMD than in other markets.
After Griffin's release, AMD will follow with Fusion, a chip that integratesinto the processor core in 2009, he said. Fusion will first appear in notebooks. (Last year, AMD said Fusion would come out in 2008 or 2009.)
Griffin is AMD's first chip specifically designed for notebooks, said Steinman. AMD sells chipsnow, but these products are effectively just more power-efficient versions of the other chips AMD sells into other markets.
"If you look at our current offerings, it's really the same basic microarchitecture being offered in notebooks, servers and desktops," he said.
By adopting a new architecture, the company says it can cut power consumption further without worrying as much about making changes that might affect how the architecture works in the server world, for instance.
In Griffin, for instance, the two processing cores and the integrated memory controller-- which shuttles data back and forth between the processing cores and memory--are all on separate power planes. By separating all of these subcomponents in Griffin onto different planes, two can go into deep sleep states while the last one continues to work. The memory controller can also operate at a lower voltage.
In Barcelona, an upcoming four-core server chip from AMD, the memory controller is on a separate power plane, but the four cores are all on the same voltage plane, he said. Power consumption is important in servers, but not to the same degree as with notebooks, noted Steinman.
Griffin will also be able to drop to slower speeds when full performance isn't needed. Currently, AMD chips can drop to 800 megahertz. The cores in Griffin, independent of each other, will be able to drop to one-eighth the chip's stated speed. Thus, if it's a 2.4GHz chip, a single core will be able to drop to 300MHz to conserve power.
"You can get some real work done at those lower frequencies," he said.
In another twist, Griffin will be able to shut down lanes inside of the HyperTransport 3 links connecting different processors, when not in use, he said. These power savings techniques will largely be controlled by the CPU and the chipset, he said, and will be independent and above any power management techniques implemented by the operating system.
Griffin, though, won't be able to accommodate as much memory as a server chip, Steinman said. He didn't specify how much less, but said the chip was designed for notebook-size memory loads, not the massive amounts of memory servers can require. Again, this architectural difference saves power.
The chip will initially come out on the 65-nanometer process. Each core will contain a 1MB cache.
Puma, meanwhile, will continue the power management theme by coming with a feature, called PowerXpress that shuts off the discreet graphics processor in notebooks when they are running on batteries. In the unplugged mode, notebooks will run on the graphics capabilities in the chipset.
Most notebooks, Steinman conceded, actually don't come with a discreet graphics chip, but it will save power for those that do.
Puma, though, may raise some diplomatic problems for AMD. For years, the company has carped about Centrino, claming that it locked notebook makers and consumers into an all-Intel world. In the meantime, AMD bought chipset and graphics maker ATI Technologies. As Centrino is all-Intel, Puma is an all-AMD solution.
AMD signaled it would start to move toward platforms.
In 2003, Intel came out with Centrino, a notebook platform designed around the then new. The Pentium M relied on a different architecture than other Intel chips at the time and consumed substantially less power. Centrino also came with Wi-Fi chips, rare then, and the notebooks were tuned to ensure they would work with public hot spots. Sales zoomed and the success helped spur Wi-Fi adoption.