Add to ORKGMulti-core processors dominate current mainframe, server, and high performance computing (HPC) systems. This paper provides synthetic kernel and natural benchmark results from an HPC system at the NASA Goddard Space Flight Center that illustrate the performance impacts of multi-core (dual- and quad-core) vs. single core processor systems. Analysis of processor design, application source code, and synthetic and natural test results all indicate that multi-core processors can suffer from significant memory subsystem contention compared to similar single-core processors
Multi-cores can be seen in almost every device out there in the world today. Yet, this processor arc...
ABSTRACT. New trend for achieving high performance in processors history as well as evolutionary cha...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multi-core processors dominate current mainframe, server, and high performance computing (HPC) syste...
Systems for high performance computing are getting increasingly complex. On the one hand, the number...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
The trend of increasing speed and complexity in the single-core processor as stated in the Moore’s l...
The computation nodes of modern supercomputers commonly consist of multiple multicore processors. To...
Simulators help computer architects optimize system designs. The limited performance of simulators e...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
peer-reviewedThe shift towards multicore processing has led to a much wider population of developer...
New trend for achieving high performance in processors history as well as evolutionary change in the...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Multi-cores can be seen in almost every device out there in the world today. Yet, this processor arc...
ABSTRACT. New trend for achieving high performance in processors history as well as evolutionary cha...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multi-core processors dominate current mainframe, server, and high performance computing (HPC) syste...
Systems for high performance computing are getting increasingly complex. On the one hand, the number...
The multicore era has initiated a move to ubiquitous parallelization of software. In the process, co...
The trend of increasing speed and complexity in the single-core processor as stated in the Moore’s l...
The computation nodes of modern supercomputers commonly consist of multiple multicore processors. To...
Simulators help computer architects optimize system designs. The limited performance of simulators e...
The historical trend of increasing single CPU performancehas given way to roadmap of increasing core...
Over the past 15 years, microprocessor performance hasdoubled approximately every 18 months through ...
peer-reviewedThe shift towards multicore processing has led to a much wider population of developer...
New trend for achieving high performance in processors history as well as evolutionary change in the...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
In recent years, the world of high performance computing has been developing rapidly. The goal of t...
Multi-cores can be seen in almost every device out there in the world today. Yet, this processor arc...
ABSTRACT. New trend for achieving high performance in processors history as well as evolutionary cha...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...