Abstract- Most of the semiconductor companies are targeting multi-core processor for high-end embedded systems. Programming such processors for performance is quite cumbersome without proper development tools. Conventional mapping algorithms fail to address the issues of tight resource constraint found in embedded applications running on these processors. We present resource constraint based application-mapping heuristics for high performance multi-core embedded architectures. Experimental results using synthetic tests and real programs such as MPEG-2 Audio Video Decoder (MAVD) confirm the superiority of the proposed heuristics over existing solutions. For validation we have considered Cradle Technologies ’ MDSP as the target multi-core pro...
Modern embedded systems are based on Multiprocessor-Systems-on-Chip (MPSoCs) to meet the strict timi...
Many new embedded applications require complex computations to be performed to tight schedules, whil...
L’utilisation de plusieurs cœurs pour l’exécution des applications mobiles sera l’approche dominante...
Abstract. Most of the new embedded systems require high performance pro-cessors at low power. To cat...
Modern embedded systems need to support multiple time-constrained multimedia applications that often...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
This paper introduces an application mapping methodology and case study for multi-processor on-chip...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
The increasing demand for low-power and high-performance multimedia embedded systems has motivated t...
Modern embedded systems are based on Multiprocessor-Systems-on-Chip (MPSoCs) to meet the strict timi...
Multiprocessor embedded architectures are driven by power wall, performance scalability and reliabil...
The demand to increase performance while conserving power has led to the invention of multi-core sys...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
This paper investigates automatic mapping of application-to-architecture in heterogeneous Multi Pro-...
Modern embedded systems are based on Multiprocessor-Systems-on-Chip (MPSoCs) to meet the strict timi...
Many new embedded applications require complex computations to be performed to tight schedules, whil...
L’utilisation de plusieurs cœurs pour l’exécution des applications mobiles sera l’approche dominante...
Abstract. Most of the new embedded systems require high performance pro-cessors at low power. To cat...
Modern embedded systems need to support multiple time-constrained multimedia applications that often...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
This paper introduces an application mapping methodology and case study for multi-processor on-chip...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
The increasing demand for low-power and high-performance multimedia embedded systems has motivated t...
Modern embedded systems are based on Multiprocessor-Systems-on-Chip (MPSoCs) to meet the strict timi...
Multiprocessor embedded architectures are driven by power wall, performance scalability and reliabil...
The demand to increase performance while conserving power has led to the invention of multi-core sys...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
This paper investigates automatic mapping of application-to-architecture in heterogeneous Multi Pro-...
Modern embedded systems are based on Multiprocessor-Systems-on-Chip (MPSoCs) to meet the strict timi...
Many new embedded applications require complex computations to be performed to tight schedules, whil...
L’utilisation de plusieurs cœurs pour l’exécution des applications mobiles sera l’approche dominante...