Add to ORKGSimulators are still the primary tools for development and performance evaluation of applications running on massively parallel architectures. However, current virtual platforms are not able to tackle the complexity issues introduced by 1000-core future scenarios. We present a fast and accurate simulation framework targeting extremely large parallel systems by specifically taking advantage of the inherent potential processing parallelism available in modern GPGPUs
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
With increasing complexity and performance demands of emerging compute-intensive data-parallel workl...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically ch...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically ch...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
Emerging massively parallel architectures such as a general-purpose processor plus many-core program...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
Simulators are still the primary tools for development and performance evaluation of applications ru...
With increasing complexity and performance demands of emerging compute-intensive data-parallel workl...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically ch...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically ch...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
The multicore revolution and the ever-increasing complexity of computing systems is dramatically cha...
Emerging massively parallel architectures such as a general-purpose processor plus many-core program...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...
This paper introduces SIMinG-1k—a manycore simulator infrastructure. SIMinG-1k is a graphics process...