Many-core platforms are rapidly expanding in various embedded areas as they provide the scalable computational power required to meet the ever-growing performance demands of embedded applications and systems. However, the huge design space of possible task mappings, the unpredictable workload dynamism, and the numerous non-functional requirements of applications in terms of timing, reliability, safety, and so forth. impose significant challenges when designing many-core systems. Hybrid Application Mapping (HAM) is an emerging class of design methodologies for many-core systems which address these challenges via an incremental (per-application) mapping scheme: The mapping process is divided into (i) a design-time Design Space Exploration (DS...
Abstract. Heterogeneous multicore architectures pose specific challenges re-garding their programmab...
One way to exploit a mixed-machine heterogeneous computing environment is to decompose an applicatio...
Many desired features of computing platforms, such as increased fault tolerance, variable quality of...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
The demand to increase performance while conserving power has led to the invention of multi-core sys...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
The application workloads in modern MPSoC-based embedded systems are becoming increasingly dynamic. ...
The desire to have enhanced and increased feature sets in embedded applications has contributed to a...
Multiprocessor embedded architectures are driven by power wall, performance scalability and reliabil...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
Many-core platforms are an emerging technology in the real-time embedded domain. These devices offer...
Abstract- Most of the semiconductor companies are targeting multi-core processor for high-end embedd...
Modern embedded systems, which are more and more based on Multi-Processor System-on-Chip (MPSoC) arc...
Future many-core processors are likely to concurrently execute a large number of diverse application...
The appropriate organization of application components and their right mapping into physical resourc...
Abstract. Heterogeneous multicore architectures pose specific challenges re-garding their programmab...
One way to exploit a mixed-machine heterogeneous computing environment is to decompose an applicatio...
Many desired features of computing platforms, such as increased fault tolerance, variable quality of...
With increasing power and application demands, heterogeneous multi-core processors are becoming more...
The demand to increase performance while conserving power has led to the invention of multi-core sys...
Future integrated systems will contain billions of transistors, composing tens to hundreds of IP cor...
The application workloads in modern MPSoC-based embedded systems are becoming increasingly dynamic. ...
The desire to have enhanced and increased feature sets in embedded applications has contributed to a...
Multiprocessor embedded architectures are driven by power wall, performance scalability and reliabil...
Task mapping plays a crucial role in achieving high performance and energy savings in heterogeneous ...
Many-core platforms are an emerging technology in the real-time embedded domain. These devices offer...
Abstract- Most of the semiconductor companies are targeting multi-core processor for high-end embedd...
Modern embedded systems, which are more and more based on Multi-Processor System-on-Chip (MPSoC) arc...
Future many-core processors are likely to concurrently execute a large number of diverse application...
The appropriate organization of application components and their right mapping into physical resourc...
Abstract. Heterogeneous multicore architectures pose specific challenges re-garding their programmab...
One way to exploit a mixed-machine heterogeneous computing environment is to decompose an applicatio...
Many desired features of computing platforms, such as increased fault tolerance, variable quality of...