Configurable multiprocessor platforms consist of multiple soft processors configured on FPGA devices. They have become an attractive choice for implementing many computing applications. In addition to the various ways of distributing software execution among the multiple soft processors, the application designer can customize soft processors and the connections between them in order to improve the performance of the applications running on the multiprocessor platform. State-of-the-art design tools rely on low-level simulation to explore the various design trade-offs offered by configurable multiprocessor platforms. These low-level simulation based exploration techniques are too time-consuming and can be a major bottleneck to efficient desig...
FPGA overlays have shown the potential to improve designers’ productivity through balancing flexibil...
This thesis proposes and implements a flexible platform to perform Hardware-In-the-Loop (HIL) co-sim...
A hardware implementation can bring orders of magnitude improvements in performance and energy cons...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
This paper demonstrates a new hardware/software co-simulation method that performs execution-driven ...
Hardware/software codesign seeks to integrate system level, hardware, and software design. Ideally, ...
From the dawn of the first use of microprocessors and microcontrollers in embedded systems, the soft...
In this thesis, we provide a synthesizable model for supporting design space exploration of applicat...
A new high performance computation technique involving multiple processors on a single silicon die i...
Modern heterogeneous multi-processor embedded systems very often expose to the designer a large numb...
Design Space Exploration (DSE) of an application running on a Multi-Processor System-on-Chip (MPSoC)...
International audienceThe base idea of co-simulation is to couple heterogeneous simulators in a sing...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
The design cycle for complex special-purpose computing systems is extremely costly and time-consumin...
A hardware implementation can bring orders of magnitude improvements in performance and energy consu...
FPGA overlays have shown the potential to improve designers’ productivity through balancing flexibil...
This thesis proposes and implements a flexible platform to perform Hardware-In-the-Loop (HIL) co-sim...
A hardware implementation can bring orders of magnitude improvements in performance and energy cons...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
This paper demonstrates a new hardware/software co-simulation method that performs execution-driven ...
Hardware/software codesign seeks to integrate system level, hardware, and software design. Ideally, ...
From the dawn of the first use of microprocessors and microcontrollers in embedded systems, the soft...
In this thesis, we provide a synthesizable model for supporting design space exploration of applicat...
A new high performance computation technique involving multiple processors on a single silicon die i...
Modern heterogeneous multi-processor embedded systems very often expose to the designer a large numb...
Design Space Exploration (DSE) of an application running on a Multi-Processor System-on-Chip (MPSoC)...
International audienceThe base idea of co-simulation is to couple heterogeneous simulators in a sing...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
The design cycle for complex special-purpose computing systems is extremely costly and time-consumin...
A hardware implementation can bring orders of magnitude improvements in performance and energy consu...
FPGA overlays have shown the potential to improve designers’ productivity through balancing flexibil...
This thesis proposes and implements a flexible platform to perform Hardware-In-the-Loop (HIL) co-sim...
A hardware implementation can bring orders of magnitude improvements in performance and energy cons...