The hArtes -Holistic Approach to Reconfigurable real Time Embedded Systems- design flow addresses the development of an holistic tool-chain for reconfigurable heterogeneous platforms. The entire tool-chain consists of three phases: Algorithm Exploration and Translation, Design Space Exploration and System Synthesis. This paper evaluates the tools in the Design Space Exploration phase and the System Synthesis phase. The tools in the Design Space Exploration phase facilitate task partitioning, task optimization and assignment of the tasks to the appropriate hardware element. The tools in the System Synthesis phase facilitate the hardware/software co-design of embedded applications and perform compilation and HDL generation. The HDL designs ar...
Existing hardware software (HW-SW) co-design method-ologies mainly focus on HW-SW co-simulation to b...
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...
The hArtes -Holistic Approach to Reconfigurable real Time Embedded Systems- design flow addresses th...
This book describes the results and outcome of the FP6 project, known as hArtes, which focuses on th...
Developing heterogeneous multicore platforms requires choosing the best hardware configuration for m...
This work describes how we use High-Level Synthesis to support design space exploration (DSE) of het...
This chapter describes the different design steps needed to go from legacy code to a transformed app...
International audienceThis paper deals with design challenges intrinsic in nowadays heterogeneous Sy...
The design of embedded systems has to address several interacting design dimensions to implement pa...
Today’s heterogeneous embedded systems combine components from different domains, such as software, ...
Modern embedded systems development poses new challenges to a designer due to the global reachabilit...
Designing technology to address the problem of heterogeneous embedded systems, while remaining compa...
Existing hardware software (HW-SW) co-design method-ologies mainly focus on HW-SW co-simulation to b...
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...
The hArtes -Holistic Approach to Reconfigurable real Time Embedded Systems- design flow addresses th...
This book describes the results and outcome of the FP6 project, known as hArtes, which focuses on th...
Developing heterogeneous multicore platforms requires choosing the best hardware configuration for m...
This work describes how we use High-Level Synthesis to support design space exploration (DSE) of het...
This chapter describes the different design steps needed to go from legacy code to a transformed app...
International audienceThis paper deals with design challenges intrinsic in nowadays heterogeneous Sy...
The design of embedded systems has to address several interacting design dimensions to implement pa...
Today’s heterogeneous embedded systems combine components from different domains, such as software, ...
Modern embedded systems development poses new challenges to a designer due to the global reachabilit...
Designing technology to address the problem of heterogeneous embedded systems, while remaining compa...
Existing hardware software (HW-SW) co-design method-ologies mainly focus on HW-SW co-simulation to b...
Single-chip multi-processor embedded system becomes nowadays a feasible and very interesting option....
Heterogeneous reconfigurable systems provide drastically higher performance and lower power consumpt...