Add to ORKGAbstract-Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices (i.e., composed by 1000 billion of transistors) will enable systems with 1000+ general purpose cores per chip, probably by 2020. Three major challenges have been identified: programmability, manageable architecture design, and reliability. TERAFLUX is a Future and Emerging Technology (FET) large-scale project funded by the European Union, which addresses such challenges at once by leveraging the dataflow principles. This paper describes the project and provides an overview of the research carried out by the TERAFLUX consortium
The high parallelism of future Teradevices, which are going to contain more than 1,000 complex cores...
In many areas of research, a key to making advances is the ability of scientists and engineers to ma...
Future computing systems (Teradevices) will probably contain more than 1000 cores on a single die. T...
Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices ...
Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices ...
Available online 18 April 2014International audienceThe improvements in semiconductor technologies a...
Abstract — Thanks to the improvements in semiconductor technologies, extreme-scale systems such as t...
The TERAFLUX project is a Future and Emerging Technologies (FET) Large-Scale Project funded by the E...
The number of cores per chip keeps increasing in order to improve performance while controlling the ...
AbstractThe number of cores per chip keeps increasing in order to improve performance while controll...
Recent Silicon advances promise to keep Moore s Forecast true for at least this decade. In numbers...
Abstract The design of new computer systems always requires a strong simulation effort in order to e...
The high parallelism of future Teradevices, which are going to contain more than 1,000 complex cores...
In many areas of research, a key to making advances is the ability of scientists and engineers to ma...
Future computing systems (Teradevices) will probably contain more than 1000 cores on a single die. T...
Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices ...
Thanks to the improvements in semiconductor technologies, extreme-scale systems such as teradevices ...
Available online 18 April 2014International audienceThe improvements in semiconductor technologies a...
Abstract — Thanks to the improvements in semiconductor technologies, extreme-scale systems such as t...
The TERAFLUX project is a Future and Emerging Technologies (FET) Large-Scale Project funded by the E...
The number of cores per chip keeps increasing in order to improve performance while controlling the ...
AbstractThe number of cores per chip keeps increasing in order to improve performance while controll...
Recent Silicon advances promise to keep Moore s Forecast true for at least this decade. In numbers...
Abstract The design of new computer systems always requires a strong simulation effort in order to e...
The high parallelism of future Teradevices, which are going to contain more than 1,000 complex cores...
In many areas of research, a key to making advances is the ability of scientists and engineers to ma...
Future computing systems (Teradevices) will probably contain more than 1000 cores on a single die. T...