Computer architecture has always been rapidly changing. New architectures are invented, techniques are refined, and new problems need to be addressed. Memory latency has been one of the biggest hurdles recently in advancing the throughput of computer processors. Processor architecture technologies continue to advance, but th
Performance and scalability of high performance scientific applications on large scale parallel mach...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
It has become a truism that the gap between processor speed and memory access latency is continuing ...
A common approach to studying future computer systems is to build simulators that accurately model t...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
Parallelism is ubiquitous in modern computer architectures. Heterogeneity of CPU cores and deep memo...
Predicting timing behavior is key to efficient embedded real-time system design and verification. Cu...
As the speed gap between CPU and memory widens, memory hierarchy has become the primary factor limit...
Efficient data supply to the processor is the one of the keys to achieve high performance. However, ...
Hierarchical memory is a cornerstone of modern hardware design because it provides high memory perfo...
Summarization: By examining the rate at which successive generations of processor and DRAM cycle tim...
Dynamic memory management required by allocation-intensive (i.e., Object Oriented and linked data st...
The evolution of microprocessor architecture depends upon the changing aspects of technology. As die...
Today's computers have processors with multiple cores that allow several applications to execute sim...
Processor performance is directly impacted by the latency of the memory system. As processor core cy...
Performance and scalability of high performance scientific applications on large scale parallel mach...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
It has become a truism that the gap between processor speed and memory access latency is continuing ...
A common approach to studying future computer systems is to build simulators that accurately model t...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
Parallelism is ubiquitous in modern computer architectures. Heterogeneity of CPU cores and deep memo...
Predicting timing behavior is key to efficient embedded real-time system design and verification. Cu...
As the speed gap between CPU and memory widens, memory hierarchy has become the primary factor limit...
Efficient data supply to the processor is the one of the keys to achieve high performance. However, ...
Hierarchical memory is a cornerstone of modern hardware design because it provides high memory perfo...
Summarization: By examining the rate at which successive generations of processor and DRAM cycle tim...
Dynamic memory management required by allocation-intensive (i.e., Object Oriented and linked data st...
The evolution of microprocessor architecture depends upon the changing aspects of technology. As die...
Today's computers have processors with multiple cores that allow several applications to execute sim...
Processor performance is directly impacted by the latency of the memory system. As processor core cy...
Performance and scalability of high performance scientific applications on large scale parallel mach...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
It has become a truism that the gap between processor speed and memory access latency is continuing ...