Since the silicon technology entered the many-core era, new computing platforms are exploiting higher and higher levels of parallelism. Thanks to scalable, clustered architectures, embedded systems and high-performance computing (HPC) are rapidly converging.We are also experiencing a rapid overlapping of the challenges related to efficient exploitation of processing resources. Platform-specific optimization and application boosting cannot be considered independently anymore. Thus the increased interest towards broader and versatile methodologies, which could easily scale from the embedded up to the general-purpose domain
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Since the silicon technology entered the many-core era, new computing platforms are exploiting highe...
To better exploit the capabilities offered by multi-core high-end embedded systems, new parallel pro...
Computing has moved away from a focus on performance-centric serial computation, instead towards ene...
Editor's note: This article proposes runtime adaptation of data-parallelizable applications on many-...
The recent technological advancements and market trends are causing an interesting phenomenon toward...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
Multi-/many-core systems are envisioned to satisfy the ever-increasing performance requirements of c...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
Abstract—Current software and hardware limitations prevent ManyTask Computing (MTC) from leveraging ...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
Presented at INForum - Simpósio de Informática (INFORUM 2015). 7 to 8, Sep, 2015. Portugal.There is ...
The embedded-systems industry is about to make a transition to multi-core platforms. This is a highl...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...
Since the silicon technology entered the many-core era, new computing platforms are exploiting highe...
To better exploit the capabilities offered by multi-core high-end embedded systems, new parallel pro...
Computing has moved away from a focus on performance-centric serial computation, instead towards ene...
Editor's note: This article proposes runtime adaptation of data-parallelizable applications on many-...
The recent technological advancements and market trends are causing an interesting phenomenon toward...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
Multi-/many-core systems are envisioned to satisfy the ever-increasing performance requirements of c...
International audienceMulti-processor System-on-Chips (MPSoCs) have become increasingly popular over...
Abstract—Current software and hardware limitations prevent ManyTask Computing (MTC) from leveraging ...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
Presented at INForum - Simpósio de Informática (INFORUM 2015). 7 to 8, Sep, 2015. Portugal.There is ...
The embedded-systems industry is about to make a transition to multi-core platforms. This is a highl...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
With Moore's Law alive and well, more and more parallelism is introduced into all computing pl...