Impulse is a new memory system architecture that adds two important features to a traditional memory controller. First, Impulse supports application‐specific optimizations through configurable physical address remapping. By remapping physical addresses, applications control how their data is accessed and cached, improving their cache and bus utilization. Second, Impulse supports prefetching at the memory controller, which can hide much of the latency of DRAM accesses. Because it requires no modification to processor, cache, or bus designs, Impulse can be adopted in conventional systems. In this paper we describe the design of the Impulse architecture, and show how an Impulse memory system can improve the performance of memory‐bound scientif...
textTechnological advances and new architectural techniques have enabled processor performance to do...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
The storage-intensive supercomputing (SISC) project [1] at LLNL is a research effort that is current...
Impulse is a new memory system architecture that adds two important features to a traditional mem-or...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
Journal ArticleImpulse is a new memory system architecture that adds two important features to a tr...
This paper presents the Impulse adaptable memory sys-tem, which allows applications to make efficien...
Processor speeds are increasing rapidly, but memory speeds are not keeping pace. Image processing is...
The Impulse Adaptable Memory System exposes DRAM access patterns not seen in conventional memory sys...
Journal ArticleThis document describes the Im pulse system calls. The Impulse system calls allow use...
<p>The memory system is a fundamental performance and energy bottleneck in almost all computing syst...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2016.Si...
Over the past years, driven by an increasing number of data-intensive applications, architects have ...
The memory system is a fundamental performance and energy bottleneck in almost all computing systems...
The memory system is a fundamental performance and energy bottleneck in almost all computing systems...
textTechnological advances and new architectural techniques have enabled processor performance to do...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
The storage-intensive supercomputing (SISC) project [1] at LLNL is a research effort that is current...
Impulse is a new memory system architecture that adds two important features to a traditional mem-or...
Impulse is a new memory system architecture that adds two important features to a traditional memory...
Journal ArticleImpulse is a new memory system architecture that adds two important features to a tr...
This paper presents the Impulse adaptable memory sys-tem, which allows applications to make efficien...
Processor speeds are increasing rapidly, but memory speeds are not keeping pace. Image processing is...
The Impulse Adaptable Memory System exposes DRAM access patterns not seen in conventional memory sys...
Journal ArticleThis document describes the Im pulse system calls. The Impulse system calls allow use...
<p>The memory system is a fundamental performance and energy bottleneck in almost all computing syst...
Thesis (Ph. D.)--University of Rochester. Department of Electrical and Computer Engineering, 2016.Si...
Over the past years, driven by an increasing number of data-intensive applications, architects have ...
The memory system is a fundamental performance and energy bottleneck in almost all computing systems...
The memory system is a fundamental performance and energy bottleneck in almost all computing systems...
textTechnological advances and new architectural techniques have enabled processor performance to do...
The memory system is a fundamental performance and energy bottleneck in al-most all computing system...
The storage-intensive supercomputing (SISC) project [1] at LLNL is a research effort that is current...