AMD has announced the next generation in mainstream consumer computing with the availability of the new high-performance AMD Fusion A-Series Accelerated Processing Units (APUs). Enabling immersive computing experiences in consumer notebooks and desktops, the AMD A-Series APUs enable brilliant HD graphics, supercomputer-like performance and over 10.5 hours of battery life.
In an increasingly digital and visually oriented world, consumers are placing ever-higher priorities on multitasking, vivid graphics, lifelike games, lag-free videos, and ultimate multimedia performance. To meet these needs, the AMD A-Series APUs combine up to four x86 CPU cores with powerful DirectX 11-capable discrete-level graphics and up to 400 Radeon cores along with dedicated HD video processing on a single chip.
AMD A-Series APUs also allow for advanced capabilities such as gestural interfaces, multi-monitor support, 3D entertainment and real-time image stabilization.
“The AMD A-Series APU represents an inflection point for AMD and is perhaps the industry’s biggest architectural change since the invention of the microprocessor,” said Rick Bergman, senior vice president and general manager, AMD Products Group. “It heralds the arrival of brilliant all-new computing experiences, and enables unprecedented graphics and video performance in notebooks and PCs. Beginning today we are bringing discrete-class graphics to the mainstream.”
The AMD A-Series APUs (previously codenamed “Llano”) are currently shipping and scheduled to appear in more than 150 notebooks and desktops from OEMs throughout the second quarter of 2011 and beyond. Delivering powerful serial and parallel computing capabilities for HD video, 3D rendering and data-intensive workloads in a single-die processor, the AMD A-Series APUs offer software developers unprecedented power and potential in an ever smaller package.
The AMD A-Series APU delivers the power to match how consumers actually use their PCs: all day – without sacrificing performance. Delivering more than 10.5 hours of resting battery life – a more than 50 percent increase compared to the 2010 AMD Mainstream Platform – users can get their work done or watch multiple HD movies on a single charge5. Additionally, AMD dynamic switchable graphics optimize battery life on PCs featuring AMD dual-graphics solutions by intelligently managing power states on the APU and separate discrete AMD Radeon GPU.
“The battery life of the AMD A-Series APU is a huge leap forward and will surprise many consumers and commercial customers,” said Chris Cloran, Vice President and General Manager, Client Division, AMD. “And the supercomputer-like performance will give people some revolutionary capabilities, like real-time image stabilization –taking out all the shakes and jitters in those hand-held videos on the fly, while you’re watching.”
Also introduced with the AMD A-Series APU is a new feature called AMD Steady Video designed to stabilize videos during playback – making unsteady, jumpy content look steady and smooth. The AMD A-Series APU can also enables advanced capabilities like gestural interfaces, 3D gaming and 3D Blu-ray video entertainment – features that are now key to consumer PC experiences and expectations.
Every PC built with an AMD A-Series APU delivers HD by offering discrete-class DirectX 11-capable graphics – with models available at virtually every price point. Only AMD Fusion APUs offer true AMD Dual Graphics, with up to 75 percent graphics performance boost, when paired with an AMD Radeon™ discrete graphics card7. This faster, higher-quality, more vivid and lifelike delivery makes consumers feel fully present in their digital world, especially when gaming.
With up to 400 gigaflops for notebook, and up to 500 gigaflops for desktops, AMD A-Series APUs ensure users have the horsepower needed to handle the most demanding applications such as video and image processing, facial recognition, gesture recognition and multitasking scenarios. For the most challenging environments, AMD Fusion A-Series APUs offer AMD Turbo Core Technology, which dynamically optimizes and boosts CPU and GPU performance to power-efficient levels depending on the applications being run.