The demand for computing performance is ever increasing. However, more computing performance often requires more power, which incurs increased monetary cost and environmental impact. Thus, power efficiency, i.e., performance-per-watt, is becoming more and more important. Specialized hardware accelerators are the best known and most promising way to improve power efficiency. They improve power efficiency by reducing or eliminating wasted work. Some common ways to implement accelerators are configurable circuits (FPGAs), application-specific circuits (ASICs), and application-specific processors (ASPs). Though there have been several works comparing some of these implementation methods, none have accounted for system aspects, including how we...
Hardware acceleration in the form of customized datapath and control circuitry tuned to specific app...
accelerators are very suitable to implement application-specific processors using uncommon operation...
Previous research has shown that the performance of any computation is directly related to the archi...
The demand for computing performance is ever increasing. However, more computing performance often r...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
CPU’s performance is not enough to fit today’s needs, such as cloud computing, biomedical research, ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
The world needs special-purpose accelerators to meet future constraints on computation and power con...
With power limitations imposing hard bounds on the amount of a chip that can be powered simultaneous...
The fastest supercomputer in 2016 consumed over 17MW for a mere 33 Petaflops of performance. This ma...
Field-programmable gate arrays (FPGAs) have enjoyed increasing use due to their low non-recurring en...
The field of high performance computing (HPC) currently abounds with excitement about the po-tential...
There is a large, emerging, and commercially relevant class of applications which stands to be enabl...
The constant growth of datacenters and cloud computing comes with an increase of power consumption. ...
CPU and GPU platforms may not be the best options for many emerging compute patterns, which led to a...
Hardware acceleration in the form of customized datapath and control circuitry tuned to specific app...
accelerators are very suitable to implement application-specific processors using uncommon operation...
Previous research has shown that the performance of any computation is directly related to the archi...
The demand for computing performance is ever increasing. However, more computing performance often r...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
CPU’s performance is not enough to fit today’s needs, such as cloud computing, biomedical research, ...
Computers, regardless of their function, are always better if they can operate more quickly. The add...
The world needs special-purpose accelerators to meet future constraints on computation and power con...
With power limitations imposing hard bounds on the amount of a chip that can be powered simultaneous...
The fastest supercomputer in 2016 consumed over 17MW for a mere 33 Petaflops of performance. This ma...
Field-programmable gate arrays (FPGAs) have enjoyed increasing use due to their low non-recurring en...
The field of high performance computing (HPC) currently abounds with excitement about the po-tential...
There is a large, emerging, and commercially relevant class of applications which stands to be enabl...
The constant growth of datacenters and cloud computing comes with an increase of power consumption. ...
CPU and GPU platforms may not be the best options for many emerging compute patterns, which led to a...
Hardware acceleration in the form of customized datapath and control circuitry tuned to specific app...
accelerators are very suitable to implement application-specific processors using uncommon operation...
Previous research has shown that the performance of any computation is directly related to the archi...