This work presents two emerging media microprocessors, VIRAM and Imagine, and compares the implementation strategies and performance results of these unique architectures. VIRAM is a complete system on a chip which uses PIM technology to combine vector processing with embedded DRAM. Imagine is a programmable streaming architecture with a specialized memory hierarchy designed for computationally intensive data-parallel codes. First, we present a simple and effective approach for understanding and optimizing vector/stream applications. Performance results are then presented from a number of multimedia benchmarks and a computationally intensive scientific kernel. We explore the complex interact ions between programming paradigms, the architect...
The recent explosion of computing applications rich in graphics and sound has placed new and taxing ...
International audienceThe development of more processing demanding applications on the Internet (vid...
In this dissertation, we address high performance media processing based on a tightly coupled co-pro...
This work presents two emerging media microprocessors, VIRAM and Imagine, and comparesthe implement...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Many high performance applications run well below the peak arithmetic performance of the underlying...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Media applications are characterized by large amounts of available parallelism, little data reuse, a...
Conference paperMedia applications are characterized by large amounts of available parallelism, litt...
Journal PaperThe Power-efficient Imagine stream processor achieves performance densities comparable ...
Abstract — The efficient processing of MultiMedia Applications (MMAs) is currently one of the main b...
Many architectural ideas that appear to be useful from a hardware standpoint fail to achieve wide ac...
This paper aims to provide a quantitative understanding of the performance of image and video proces...
The present day multimedia applications (MMAs) are driving the computing industry as every applicati...
In this thesis, image and video processing algorithms, especially the compression algorithms, are fi...
The recent explosion of computing applications rich in graphics and sound has placed new and taxing ...
International audienceThe development of more processing demanding applications on the Internet (vid...
In this dissertation, we address high performance media processing based on a tightly coupled co-pro...
This work presents two emerging media microprocessors, VIRAM and Imagine, and comparesthe implement...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Many high performance applications run well below the peak arithmetic performance of the underlying...
Many high performance applications run well below the peak arithmetic performance of the underlying ...
Media applications are characterized by large amounts of available parallelism, little data reuse, a...
Conference paperMedia applications are characterized by large amounts of available parallelism, litt...
Journal PaperThe Power-efficient Imagine stream processor achieves performance densities comparable ...
Abstract — The efficient processing of MultiMedia Applications (MMAs) is currently one of the main b...
Many architectural ideas that appear to be useful from a hardware standpoint fail to achieve wide ac...
This paper aims to provide a quantitative understanding of the performance of image and video proces...
The present day multimedia applications (MMAs) are driving the computing industry as every applicati...
In this thesis, image and video processing algorithms, especially the compression algorithms, are fi...
The recent explosion of computing applications rich in graphics and sound has placed new and taxing ...
International audienceThe development of more processing demanding applications on the Internet (vid...
In this dissertation, we address high performance media processing based on a tightly coupled co-pro...