Summarization: In the past, a transition to the next fabrication process typically translated to more transistors and frequency and less power. The higher frequencies paired with innovations in computer architecture defined the semiconductor industry and research until the mid-90s. At that point architecture research saturated and industry resided to the technology scaling for performance gains. During the mid-00s frequency scaling saturated as well. Transistor count, the only resource which reliably kept scaling, along with intra-chip parallelism, which could leverage and extend the existing knowledge of old-days supercomputers, emerged as the only solution to keep Moore’s law live. In parallel systems, computing nodes cooperate to solve p...
In designing a new processor, computer architects consider a myriad of possible organizations and de...
Improving the performance of future computing systems will be based upon the ability of increasing t...
High-performance reconfigurable computers (HPRCs) provide a mix of standard processors and FPGAs to ...
Summarization: Every HPC system consists of numerous processing nodes interconnect using a number of...
Summarization: Highly parallel systems are becoming mainstream in a wide range of sectors ranging fr...
Summarization: Parallel computing systems are becoming widespread and grow in sophistication. Beside...
High-Performance Computing (HPC) necessarily requires computing with a large number of nodes. As co...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
During the last decades the ever growing need for computational power fostered the development of pa...
A microcontroller can only offer a limited amount of communication interfaces. When designing an ASI...
With the current continuation of Moore’s law and the presumed end of improved single core performanc...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
Power consumption and wire delays are two limiting factors in designing embedded systems with a cent...
Summarization: Efficient I/O access is crucial in reconfigurable hardware platforms for implementing...
In designing a new processor, computer architects consider a myriad of possible organizations and de...
Improving the performance of future computing systems will be based upon the ability of increasing t...
High-performance reconfigurable computers (HPRCs) provide a mix of standard processors and FPGAs to ...
Summarization: Every HPC system consists of numerous processing nodes interconnect using a number of...
Summarization: Highly parallel systems are becoming mainstream in a wide range of sectors ranging fr...
Summarization: Parallel computing systems are becoming widespread and grow in sophistication. Beside...
High-Performance Computing (HPC) necessarily requires computing with a large number of nodes. As co...
As high-performance computing (HPC) systems advance towards exascale (10^18 operations per second), ...
During the last decades the ever growing need for computational power fostered the development of pa...
A microcontroller can only offer a limited amount of communication interfaces. When designing an ASI...
With the current continuation of Moore’s law and the presumed end of improved single core performanc...
has emphasized instruction-level parallelism, which improves performance by increasing the number of...
Hardware accelerators have become permanent features in the post-Dennard computing landscape, displa...
Power consumption and wire delays are two limiting factors in designing embedded systems with a cent...
Summarization: Efficient I/O access is crucial in reconfigurable hardware platforms for implementing...
In designing a new processor, computer architects consider a myriad of possible organizations and de...
Improving the performance of future computing systems will be based upon the ability of increasing t...
High-performance reconfigurable computers (HPRCs) provide a mix of standard processors and FPGAs to ...