Mobile computing as exemplified by the smart phone has become an integral part of our daily lives. The next generation of these devices will be driven by providing richer user experiences and compelling capabilities: higher definition multimedia, 3D graphics, augmented reality, and voice interfaces. To meet these goals, the core computing capabilities of the smart phone must be scaled. But, the energy budgets are increasing at a much lower rate, thus fundamental improvements in computing efficiency must be garnered. To meet this challenge, computer architects employ hardware accelerators in the form of SIMD and VLIW. Single-instruction multiple-data (SIMD) accelerators provide high degrees of scalability for applications rich in data-level ...
As the rate of annual data generation grows exponentially, there is a demand to aggregate and summar...
A growing number of commercial and enterprise systems are increasingly relying on compute-intensive ...
On the road to exascale computing, the gap between hardware peak performance and application perform...
Mobile computing as exemplified by the smart phone has become an integral part of our daily lives. T...
Multimedia applications have been widely present in embedded devices. Due to their intrinsic nature...
The worldwide utilization of mobile devices makes the segment of low power mobile processors leading...
Mobile devices have rapidly proliferated, and deployment of handheld devices continues to increase a...
Future performance improvements must come from the exploitation of concurrency at all levels. Recen...
The real-time execution of contemporary complex media applications requires energy-efficient process...
Complex media applications are becoming increasingly common on general-purpose systems such as deskt...
As the market for embedded devices continues to grow, the demand for high performance, low cost, and...
In modern wireless devices, two broad classes of compute-intensive applications are common: those wi...
Accelerators, such as GPUs and Intel Xeon Phis, have become the workhorses of high-performance compu...
Media processing has motivated strong changes in the focus and design of processors. These applicati...
textIn the past, we could rely on technology scaling and new micro-architectural techniques to impro...
As the rate of annual data generation grows exponentially, there is a demand to aggregate and summar...
A growing number of commercial and enterprise systems are increasingly relying on compute-intensive ...
On the road to exascale computing, the gap between hardware peak performance and application perform...
Mobile computing as exemplified by the smart phone has become an integral part of our daily lives. T...
Multimedia applications have been widely present in embedded devices. Due to their intrinsic nature...
The worldwide utilization of mobile devices makes the segment of low power mobile processors leading...
Mobile devices have rapidly proliferated, and deployment of handheld devices continues to increase a...
Future performance improvements must come from the exploitation of concurrency at all levels. Recen...
The real-time execution of contemporary complex media applications requires energy-efficient process...
Complex media applications are becoming increasingly common on general-purpose systems such as deskt...
As the market for embedded devices continues to grow, the demand for high performance, low cost, and...
In modern wireless devices, two broad classes of compute-intensive applications are common: those wi...
Accelerators, such as GPUs and Intel Xeon Phis, have become the workhorses of high-performance compu...
Media processing has motivated strong changes in the focus and design of processors. These applicati...
textIn the past, we could rely on technology scaling and new micro-architectural techniques to impro...
As the rate of annual data generation grows exponentially, there is a demand to aggregate and summar...
A growing number of commercial and enterprise systems are increasingly relying on compute-intensive ...
On the road to exascale computing, the gap between hardware peak performance and application perform...