AMD also plans this year an upgrade for its 40 nm Brazos notebook chip, adding USB 3 support and a turbo core mode. AMD sold 30 million Brazos chips in 2011, its big success last year.
The big additions to the client road map are the tablet processors, the company’s first sub-5W x86 chips. Temash, the 2013 chip, will include an upgraded x86 core called Jaguar.
At the event, AMD demoed three tablet wins using its existing Zacate processor, two from Acer and one from Taiwan’s MSI. All three were relatively thick systems shown running a range of Android 4.0 and Windows 7 and 8 OSes.
Rounding out the 2013 client processor road map, AMD will roll out two other 28 nm parts. Kaveri is a high end notebook/desktop chip using a new version of AMD’s Bulldozer core called Steamroller; Kabini is a mainstream notebook chip using the Jaguar core. Both will also include versions of AMD’s next-generation 28nm graphics core.
AMD’s server road map looks sketchy, limited to 32 nm parts shipping mainly this year.
It is rolling out this year lower-end versions of its 16-core Interlagos. Later, it will debut versions for the same CPU sockets upgraded with a new core called Piledriver. Interestingly, the 32nm Piledriver core does not appear on the client road map where parts are quickly shifting to 28 nm technology.
Nevertheless, Su promised disruptive server products based on targeting specific workloads in the fragmenting data center market with integrated markets. “It is not one size fits all and that plays into our strength,” she said.
In graphics, AMD is already shipping its first 28 nm chip, the Radeon HD 7970. It plans to ship a follow-on version later this year and another new 28 nm graphics core in 2013.
The company is anticipating significant growth in the gaming segment in 2012. It’s not clear if that’s because it expects to win share in traditional PCs with the new high end graphics chips or has a new design win in the console market that could be shipping in the holiday season.
What is clear is AMD is putting graphics into new process technologies first, recognizing it as the sector where it has a performance advantage over both Intel and Nvidia.
In terms of x86 cores, AMD showed a road map where today’s Bulldozer is followed by Piledriver, Steamroller and Excavator, but it gave no details on the architecture or time frame for those cores. Presumably each core is targeted to a new process node with Excavator geared for a 20 nm bulk or SOI technology that AMD has yet to choose.
AMD will more aggressively market its processors at select embedded markets, especially ones that can use its graphics, Su said. She called out digital signage, medical imaging, gaming and thin clients as likely targets.
Orange = 28nm, Blue = 32nm, Green = 40nm
It's all 32nm on a mainly 2012-focused server road map.
Talking straight, which chips are faster and more reliable, Intel's or AMD's?
To me it looks like it's also a thing of marketing. Intel's brand has been longer and the logo looks nicer than AMD's.
With the small amount of red color in the logo it reminds me of the left wing, like communism and socialism.
I think the world at this moment in history is right wing, capitalist. I think whatever doesn't transmit the idea of being part of the right wing will remain being 2nd best. Get a new logo AMD.
I wish AMD would give me a call after I send them my business proposal to help them if they help me on my People's Project.
People just don't believe in people most of the time. Did you know every game company denied Tetris or Pac man when they came out? They were hits but no one believed and kicked themselves in the buck for not accepting these games intitially.
David Patterson, known for his pioneering research that led to RAID, clusters and more, is part of a team at UC Berkeley that recently made its RISC-V processor architecture an open source hardware offering. We talk with Patterson and one of his colleagues behind the effort about the opportunities they see, what new kinds of designs they hope to enable and what it means for today’s commercial processor giants such as Intel, ARM and Imagination Technologies.