An interesting design alternative to replication-based chip multiprocessors is to create heteroge-neous chipmultiprocessors composed of several different cores, with one ormore of them running the operating system and orchestrating execution, and the others serving as accelerators where parts of the application are off-loaded. We are developing a simulator for this kind of heterogenous architectures, using the Cell Broadband Engine as a first model and the UNISIM modular infrastructure. Thanks to UNISIM, the modules composinig the simulator can be easily changed and replaced by others, allowing us to customize the processor perform design space exploration on these emerging architecures
Abstract – A software tool for the development, prototyping and emulation of cellular processor arra...
In recent years, scaling of single-core superscalar processor perfor-mance has slowed due to complex...
Abstract—Single-chip heterogeneous multiprocessors (SCHMs) are arising to meet the computational dem...
An interesting design alternative to replication-based chip multiprocessors is to create heteroge-ne...
An interesting design alternative to replication-based chip multiprocessors is to create heterogeneo...
CellSim is a modular simulator for heterogeneous multiprocessors based on the UNISIM in-frastructure...
As the number of transistors on a chip continues increasing the power consumption has become the mos...
As the number of transistors on a chip con-tinues increasing the power consumption has become the mo...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
The Cell Broadband Engine processor is a powerful processor capable of over 220 GFLOPS. It is highly...
Abstract – We present a software environment for the efficient simulation of cellular processor arra...
Mainstream processor development is mostly targeted at compatibility and continuity. Thus, the proce...
In this paper, we present a cosimulation environment that provides modularity, scalability, and flex...
Abstract-- This paper reviews the design challenges that current and future processors must face, wi...
10 pagesInternational audienceThe first aim of simulation in virtual environment is to help biologis...
Abstract – A software tool for the development, prototyping and emulation of cellular processor arra...
In recent years, scaling of single-core superscalar processor perfor-mance has slowed due to complex...
Abstract—Single-chip heterogeneous multiprocessors (SCHMs) are arising to meet the computational dem...
An interesting design alternative to replication-based chip multiprocessors is to create heteroge-ne...
An interesting design alternative to replication-based chip multiprocessors is to create heterogeneo...
CellSim is a modular simulator for heterogeneous multiprocessors based on the UNISIM in-frastructure...
As the number of transistors on a chip continues increasing the power consumption has become the mos...
As the number of transistors on a chip con-tinues increasing the power consumption has become the mo...
Heterogeneous multiprocessing is the future of chip design with the potential for tens to hundreds o...
The Cell Broadband Engine processor is a powerful processor capable of over 220 GFLOPS. It is highly...
Abstract – We present a software environment for the efficient simulation of cellular processor arra...
Mainstream processor development is mostly targeted at compatibility and continuity. Thus, the proce...
In this paper, we present a cosimulation environment that provides modularity, scalability, and flex...
Abstract-- This paper reviews the design challenges that current and future processors must face, wi...
10 pagesInternational audienceThe first aim of simulation in virtual environment is to help biologis...
Abstract – A software tool for the development, prototyping and emulation of cellular processor arra...
In recent years, scaling of single-core superscalar processor perfor-mance has slowed due to complex...
Abstract—Single-chip heterogeneous multiprocessors (SCHMs) are arising to meet the computational dem...