Hardware accelerators in heterogeneous multiprocessor system-on-chips are becoming popular as a means of meeting performance and energy efficiency requirements of modern embedded systems. Current design methods for accelerator synthesis, such as High-Level Synthesis, are not fully automated. Therefore, time consuming manual iterations are required to explore efficient accelerator alternatives: the programmer is still required to think in terms of the underlying architecture. In this paper, we present (AS)2: a design flow for Accelerator Synthesis using Algorithmic Skeletons. Skeletonization separates the structure of a parallel computation from an algorithms' functionality, enabling efficient implementations without requiring the programmer...
In modern system-on-chip architectures, specialized accelerators are increasingly used to improve pe...
There is a large, emerging, and commercially relevant class of applications which stands to be enabl...
The adoption of High-Level Synthesis (HLS) tools has significantly reduced accelerator design time. ...
Hardware accelerators in heterogeneous multiprocessor system-on-chips are becoming popular as a mean...
Abstract—Hardware accelerators in heterogeneous multipro-cessor system-on-chips are becoming popular...
In modern embedded systems, heterogeneous architectures are crucial in achieving desired performance...
Specialized accelerators can exploit spatial parallelism on both operations and data thanks to a ded...
This paper discusses a method of hardware synthesis for re-configurable heterogeneous pipelined acce...
The design of specialized accelerators is essential to the success of many modern Systems-on-Chip. E...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
Previous research has shown that the performance of any computation is directly related to the archi...
The demand for scalable, high-performance computing has increased as the size of datasets has grown ...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
As the scaling down of transistor size no longer provides boost to processor clock frequency, there ...
In modern system-on-chip architectures, specialized accelerators are increasingly used to improve pe...
There is a large, emerging, and commercially relevant class of applications which stands to be enabl...
The adoption of High-Level Synthesis (HLS) tools has significantly reduced accelerator design time. ...
Hardware accelerators in heterogeneous multiprocessor system-on-chips are becoming popular as a mean...
Abstract—Hardware accelerators in heterogeneous multipro-cessor system-on-chips are becoming popular...
In modern embedded systems, heterogeneous architectures are crucial in achieving desired performance...
Specialized accelerators can exploit spatial parallelism on both operations and data thanks to a ded...
This paper discusses a method of hardware synthesis for re-configurable heterogeneous pipelined acce...
The design of specialized accelerators is essential to the success of many modern Systems-on-Chip. E...
Modern Systems-on-Chip (SoC) architectures and CPU+FPGA computing platforms are moving towards heter...
Previous research has shown that the performance of any computation is directly related to the archi...
The demand for scalable, high-performance computing has increased as the size of datasets has grown ...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
As the scaling down of transistor size no longer provides boost to processor clock frequency, there ...
In modern system-on-chip architectures, specialized accelerators are increasingly used to improve pe...
There is a large, emerging, and commercially relevant class of applications which stands to be enabl...
The adoption of High-Level Synthesis (HLS) tools has significantly reduced accelerator design time. ...