In this paper, we present a reconfigurable system on chip design framework that generates an architectural design along with binding and scheduling algorithm, specific to the input application in Kahn Process Network specification.The likelihood that tasks and communication channels may have many potential physical manifestations is explicitly recognised and embraced, to assist the design exploration process. The architectural design, binding and scheduling problems are formulated as a Integer Linear Programming problem, with physical constraints such as available logic resources, computation time and memory footprints to guide the design space exploration
Abstract — In this paper we present an automatic design gener-ation methodology for heterogeneous ar...
The rising demand for high-performing embedded systems made FPGAs ubiquitous. Combining the strength...
Multi-processor architectures are a promising solution to provide the required computational perform...
In this paper, we present an ILP formulation to assist designers to identify the architectural desig...
In System on Chip (SoC) design, growing design complexity has forced designers to start designs at h...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Multiprocessor systems-on-chip (MPSoC) are being devel-oped in increasing numbers to support the hig...
Abstract—The process of embedded system design on reconfig-urable architectures needs smart solution...
Resource run-time managers have been shown par- ticularly effective for coordinating the usage of th...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
International audienceBy incorporating reconfigurable hardware in embedded system architectures it h...
Abstract—Dealing with real-time constraints is always a problem in a typical System-on-chip design. ...
Abstract — Current technology allows designers to implement complete embedded computing systems on a...
This paper describes an approach to hardware /software design space exploration for reconfigurable p...
Multi-processor systems on chip (MPSoC) platforms are becoming increasingly more heterogeneous and a...
Abstract — In this paper we present an automatic design gener-ation methodology for heterogeneous ar...
The rising demand for high-performing embedded systems made FPGAs ubiquitous. Combining the strength...
Multi-processor architectures are a promising solution to provide the required computational perform...
In this paper, we present an ILP formulation to assist designers to identify the architectural desig...
In System on Chip (SoC) design, growing design complexity has forced designers to start designs at h...
Future applications for embedded systems demand chip multiprocessor designs to meet real-time deadli...
Multiprocessor systems-on-chip (MPSoC) are being devel-oped in increasing numbers to support the hig...
Abstract—The process of embedded system design on reconfig-urable architectures needs smart solution...
Resource run-time managers have been shown par- ticularly effective for coordinating the usage of th...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
International audienceBy incorporating reconfigurable hardware in embedded system architectures it h...
Abstract—Dealing with real-time constraints is always a problem in a typical System-on-chip design. ...
Abstract — Current technology allows designers to implement complete embedded computing systems on a...
This paper describes an approach to hardware /software design space exploration for reconfigurable p...
Multi-processor systems on chip (MPSoC) platforms are becoming increasingly more heterogeneous and a...
Abstract — In this paper we present an automatic design gener-ation methodology for heterogeneous ar...
The rising demand for high-performing embedded systems made FPGAs ubiquitous. Combining the strength...
Multi-processor architectures are a promising solution to provide the required computational perform...