Improving the performance of future computing systems will be based upon the ability of increasing the scalability of current technology. New paths need to be explored, as operating principles that were applied up to now are becoming irrelevant for upcoming computer architectures. It appears that scaling the number of cores, processors and nodes within an system represents the only feasible alternative to achieve Exascale performance. To accomplish this goal, we propose three novel techniques addressing different layers of computer systems. The Tightly Coupled Cluster technique significantly improves the communication for inter node communication within compute clusters. By improving the latency by an order of magnitude over existing soluti...
In recent years, power consumption has become the main concern in High Performance Computing (HPC). ...
On-chip communication infrastructure is a central component of modern systems-on-chip (SoCs), and it...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
Improving the performance of future computing systems will be based upon the ability of increasing t...
If the trend of integrating more and more cores to a single die continues, general-purpose processor...
During the last decades the ever growing need for computational power fostered the development of pa...
The way computer processors are built is changing. Nowadays, computer processor performance is incre...
High performance computing has become one of the major drivers behind technology inventions and scie...
Traditionally, the microprocessor design has focused on the computational aspects of the problem at ...
Technology scaling and a continual increase in operating frequency have been the main driver of proc...
Scalability is the key ingredient to further increase the performance of today’s supercomputers. As...
In this work, a scalable network on chip (NoC) for future many-core architectures is proposed and in...
The demand for processing power is increasing steadily. In the past, single processor architectures ...
Today’s supercomputers are built from the state-of-the-art components to extract as much performance...
Future performance improvements must come from the exploitation of concurrency at all levels. Recen...
In recent years, power consumption has become the main concern in High Performance Computing (HPC). ...
On-chip communication infrastructure is a central component of modern systems-on-chip (SoCs), and it...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
Improving the performance of future computing systems will be based upon the ability of increasing t...
If the trend of integrating more and more cores to a single die continues, general-purpose processor...
During the last decades the ever growing need for computational power fostered the development of pa...
The way computer processors are built is changing. Nowadays, computer processor performance is incre...
High performance computing has become one of the major drivers behind technology inventions and scie...
Traditionally, the microprocessor design has focused on the computational aspects of the problem at ...
Technology scaling and a continual increase in operating frequency have been the main driver of proc...
Scalability is the key ingredient to further increase the performance of today’s supercomputers. As...
In this work, a scalable network on chip (NoC) for future many-core architectures is proposed and in...
The demand for processing power is increasing steadily. In the past, single processor architectures ...
Today’s supercomputers are built from the state-of-the-art components to extract as much performance...
Future performance improvements must come from the exploitation of concurrency at all levels. Recen...
In recent years, power consumption has become the main concern in High Performance Computing (HPC). ...
On-chip communication infrastructure is a central component of modern systems-on-chip (SoCs), and it...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...