New many-core architectures are characterized not only by the large amount of processing elements but also by the large number and heterogeneity of resources. This new environ-ment has prompted the development of new techniques that seek finer granularity and a greater interplay in the sharing of resources. The research proposed here will provide an analysis of these new scenarios, proposing new methodologies and solu-tions that leverage these new challenges in order to increase the performance and energy efficiency of modern many-core architectures
Many-core architectures are becoming a standard design alternative for embedded systems. The force t...
This paper analyzes the influence of new multi- core and many-core architectures on Signal Processin...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
Gao, Guang R.The research proposed in this thesis will provide an analysis of these new scenarios, p...
Computing has moved away from a focus on performance-centric serial computation, instead towards ene...
This paper proposes single-ISA heterogeneous multi-core architectures as a mechanism to reduce proce...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
As Moore’s law continues to unfold, two important trends have recently emerged. First, the growth of...
Since the silicon technology entered the many-core era, new computing platforms are exploiting highe...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
The increased complexity of today’s industrial embedded systems stands inneed for more computational...
With the advances in very large scale integration (VLSI) technology, hundreds of billions of transis...
Two key research problems for emerging many-core archi-tectures are the development of energy-effici...
This book describes the state-of-the art of industrial and academic research in the architectural de...
The embedded-systems industry is about to make a transition to multi-core platforms. This is a highl...
Many-core architectures are becoming a standard design alternative for embedded systems. The force t...
This paper analyzes the influence of new multi- core and many-core architectures on Signal Processin...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...
Gao, Guang R.The research proposed in this thesis will provide an analysis of these new scenarios, p...
Computing has moved away from a focus on performance-centric serial computation, instead towards ene...
This paper proposes single-ISA heterogeneous multi-core architectures as a mechanism to reduce proce...
Abstract—Homogeneous multi-cores, while ubiquitous to-day, cannot provide the desired performance an...
As Moore’s law continues to unfold, two important trends have recently emerged. First, the growth of...
Since the silicon technology entered the many-core era, new computing platforms are exploiting highe...
The end of Dennard scaling, as well as the arrival of the post-Moore era, has meant a big change in ...
The increased complexity of today’s industrial embedded systems stands inneed for more computational...
With the advances in very large scale integration (VLSI) technology, hundreds of billions of transis...
Two key research problems for emerging many-core archi-tectures are the development of energy-effici...
This book describes the state-of-the art of industrial and academic research in the architectural de...
The embedded-systems industry is about to make a transition to multi-core platforms. This is a highl...
Many-core architectures are becoming a standard design alternative for embedded systems. The force t...
This paper analyzes the influence of new multi- core and many-core architectures on Signal Processin...
This chapter surveys state-of-the-art manycore platforms. It discusses the historical evolution of c...