The large and growing impact of memory hierarchies on overall system performance compels designers to investigate innovative techniques to improve memory-system efficiency. We propose and analyze a memory hierarchy that increases both the effective capacity of memory structures and the effective bandwidth of interconnects by storing and transmitting data in compressed form. Caches play a key role..
Many important client and data-center applications need large memory capacity and high memory bandwi...
Memory (cache, DRAM, and disk) is in charge of providing data and instructions to a computer\u27s pr...
Caches are essential to today's microprocessors. They close the huge speed gap between processors an...
This primer is intended for readers who are interested in learning about the different ways that dat...
This thesis explores the use of lossless data compression in the memory hierarchy of contemporary co...
The gap between CPU and main memory speeds has long been a performance bottleneck. As we move toward...
We investigate the feasibility of using instruction compression at some level in a multi-level memor...
Computer memory is organized into a hierarchy. At the highest level are the processor registers, nex...
The memory system stores information comprising primarily instructions and data and secondarily addr...
Memory hierarchy performance, specifically cache memory capacity, is a constraining factor in the pe...
In modern computers, memory hierarchies play a paramount role in improving the average execution tim...
International audienceHardware cache compression derives from software-compression research; yet, it...
Abstract- In this paper we provide a comprehensive survey of the past and current work of Memory hie...
One newly designed hierarchical cache scheme is presented in this article. It is a two-level cache a...
As the capabilities of high performance computing (HPC) resources have grown over the last decades, ...
Many important client and data-center applications need large memory capacity and high memory bandwi...
Memory (cache, DRAM, and disk) is in charge of providing data and instructions to a computer\u27s pr...
Caches are essential to today's microprocessors. They close the huge speed gap between processors an...
This primer is intended for readers who are interested in learning about the different ways that dat...
This thesis explores the use of lossless data compression in the memory hierarchy of contemporary co...
The gap between CPU and main memory speeds has long been a performance bottleneck. As we move toward...
We investigate the feasibility of using instruction compression at some level in a multi-level memor...
Computer memory is organized into a hierarchy. At the highest level are the processor registers, nex...
The memory system stores information comprising primarily instructions and data and secondarily addr...
Memory hierarchy performance, specifically cache memory capacity, is a constraining factor in the pe...
In modern computers, memory hierarchies play a paramount role in improving the average execution tim...
International audienceHardware cache compression derives from software-compression research; yet, it...
Abstract- In this paper we provide a comprehensive survey of the past and current work of Memory hie...
One newly designed hierarchical cache scheme is presented in this article. It is a two-level cache a...
As the capabilities of high performance computing (HPC) resources have grown over the last decades, ...
Many important client and data-center applications need large memory capacity and high memory bandwi...
Memory (cache, DRAM, and disk) is in charge of providing data and instructions to a computer\u27s pr...
Caches are essential to today's microprocessors. They close the huge speed gap between processors an...