Large synchronization and communication overhead will become a major concern in future extreme-scale machines (e.g., HPC systems, supercomputers). These systems will push upwards performance limits by adopting chips equipped with one order of magnitude more cores than today. Alternative execution models can be explored in order to exploit the high parallelism offered by future massive many-core chips. This paper proposes the integration of standard cores with dedicated co-processing units that enable the system to support a fine-grain data-flow execution model developed within the TERAFLUX project. An instruction set architecture extension for supporting fine-grain thread scheduling and execution is proposed. This instruction set extension ...
The two current approaches to increasing computer speed are giving individual processors the ability...
The continuing launch of various multi-core processors popularizes parallel computing of gaining hig...
The TERAFLUX project is a Future and Emerging Technologies (FET) Large-Scale Project funded by the E...
Large synchronization and communication overhead will become a major concern in future extreme-scale...
The trend to develop increasingly more intelligent systems leads directly to a considerable demand f...
Future exascale machines will require multi/many-core architectures able to energyciently run multi-...
The path towards future high performance computers requires architectures able to efficiently run mu...
In this paper, we present a relatively primitive execution model for fine-grain parallelism, in whic...
Current computing systems are mostly focused on achieving performance, programmability, energy effic...
Abstract—The path towards future high performance comput-ers requires architectures able to efficien...
We believe that future many-core architectures should support a simple and scalable way to execute m...
Abstract. The nano-threads programming model was proposed to effectively in-tegrate multiprogramming...
Multiprocessor systems are increasingly becoming the sys- tems of choice for low and high-end server...
Graduation date: 1995There seems to be a consensus that future Massively Parallel Architectures\ud w...
Current integration trends embrace the prosperity of single-chip multi-core processors. Although mul...
The two current approaches to increasing computer speed are giving individual processors the ability...
The continuing launch of various multi-core processors popularizes parallel computing of gaining hig...
The TERAFLUX project is a Future and Emerging Technologies (FET) Large-Scale Project funded by the E...
Large synchronization and communication overhead will become a major concern in future extreme-scale...
The trend to develop increasingly more intelligent systems leads directly to a considerable demand f...
Future exascale machines will require multi/many-core architectures able to energyciently run multi-...
The path towards future high performance computers requires architectures able to efficiently run mu...
In this paper, we present a relatively primitive execution model for fine-grain parallelism, in whic...
Current computing systems are mostly focused on achieving performance, programmability, energy effic...
Abstract—The path towards future high performance comput-ers requires architectures able to efficien...
We believe that future many-core architectures should support a simple and scalable way to execute m...
Abstract. The nano-threads programming model was proposed to effectively in-tegrate multiprogramming...
Multiprocessor systems are increasingly becoming the sys- tems of choice for low and high-end server...
Graduation date: 1995There seems to be a consensus that future Massively Parallel Architectures\ud w...
Current integration trends embrace the prosperity of single-chip multi-core processors. Although mul...
The two current approaches to increasing computer speed are giving individual processors the ability...
The continuing launch of various multi-core processors popularizes parallel computing of gaining hig...
The TERAFLUX project is a Future and Emerging Technologies (FET) Large-Scale Project funded by the E...