High performance computing has become one of the major drivers behind technology inventions and science discoveries. Originally driven through the increase of operating frequencies and technology scaling, a recent slowdown in this evolution has led to the development of multi-core architectures, which are supported by accelerator devices such as graphics processing units (GPUs). With the upcoming exascale era, the overall power consumption and the gap between compute capabilities and I/O bandwidth have become major challenges. Nowadays, the system performance is dominated by the time spent in communication and I/O, which highly depends on the capabilities of the network interface. In order to cope with the extreme concurrency and heterogene...
Mobility is the key to the global business which requires people to be always connected to a central...
The demand for processing power is increasing steadily. In the past, single processor architectures ...
The current trends in high performance computing show that large machines with tens of thousands of ...
During the last decades the ever growing need for computational power fostered the development of pa...
Scientific computing workloads are well suited to parallel accelerators such as GPGPUs and the Intel...
In recent years, power consumption has become the main concern in High Performance Computing (HPC). ...
Improving the performance of future computing systems will be based upon the ability of increasing t...
A steady increase in accelerator performance has driven demand for faster interconnects to avert the...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
High Performance Computing (HPC) has matured to where it is an essential third pillar, along with th...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
Technology scaling and a continual increase in operating frequency have been the main driver of proc...
High-Performance Computing (HPC) necessarily requires computing with a large number of nodes. As co...
Datacenter systems run myriad applications, which frequently communicate with each other and/or Inpu...
Mobility is the key to the global business which requires people to be always connected to a central...
The demand for processing power is increasing steadily. In the past, single processor architectures ...
The current trends in high performance computing show that large machines with tens of thousands of ...
During the last decades the ever growing need for computational power fostered the development of pa...
Scientific computing workloads are well suited to parallel accelerators such as GPGPUs and the Intel...
In recent years, power consumption has become the main concern in High Performance Computing (HPC). ...
Improving the performance of future computing systems will be based upon the ability of increasing t...
A steady increase in accelerator performance has driven demand for faster interconnects to avert the...
In order to reach exascale computing capability, accelerators have become a crucial part in developi...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
High Performance Computing (HPC) has matured to where it is an essential third pillar, along with th...
Supercomputing applications rely on strong scaling to achieve faster results on a larger number of p...
Technology scaling and a continual increase in operating frequency have been the main driver of proc...
High-Performance Computing (HPC) necessarily requires computing with a large number of nodes. As co...
Datacenter systems run myriad applications, which frequently communicate with each other and/or Inpu...
Mobility is the key to the global business which requires people to be always connected to a central...
The demand for processing power is increasing steadily. In the past, single processor architectures ...
The current trends in high performance computing show that large machines with tens of thousands of ...