Several classes of modern applications demand very high performance from systems with minimal resources. These applications must also be flexible to operate in a rapidly changing environment. Achieving high performance from limited resources demands application-specific architectures, while flexibility requires architectural adaptation capabilities. Reconfigurable computing devices promise to meet both needs. While these devices are currently available, the issue of how to design these systems is unresolved. This paper describes an environment for design capture, analysis and synthesis of dynamically adaptive computing applications. The representation methodology is captured in a Domain-Specific, Model-Integrated Computing framework. Formal...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Today’s heterogeneous embedded systems combine components from different domains, such as software, ...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
Many high-performance, embedded applications must function in rapidly changing environments. Power/s...
Significant advances have been made in reconfigurable computing device technology paving the path fo...
Modern high-performance embedded systems face many challenges. Systems must function in rapidly chan...
Summarization: During the last few years, there is an increasing interest in mixing software and har...
The ability of some configurable logic devices to modify their hardware during operation has long he...
: Currently, reconfigurable computing solutions are developed by writing High level Description Lan...
Abstract—We present an overview of a data-adaptable reconfigurable embedded systems design methodolo...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
This paper introduces a novel formal model of computation denoted as RecDEVS. It is targeted to the ...
One of the major challenges of designing heterogeneous reconfigurable systems is to obtain the maxim...
Abstract — During the last few years, there is an increasing interest in mixing software and hardwar...
As the embedding environment becomes more and more complex so does the embedded system itself. An as...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Today’s heterogeneous embedded systems combine components from different domains, such as software, ...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...
Many high-performance, embedded applications must function in rapidly changing environments. Power/s...
Significant advances have been made in reconfigurable computing device technology paving the path fo...
Modern high-performance embedded systems face many challenges. Systems must function in rapidly chan...
Summarization: During the last few years, there is an increasing interest in mixing software and har...
The ability of some configurable logic devices to modify their hardware during operation has long he...
: Currently, reconfigurable computing solutions are developed by writing High level Description Lan...
Abstract—We present an overview of a data-adaptable reconfigurable embedded systems design methodolo...
Abstract. Model-Integrated Computing is a proven technology for designing and implementing complex s...
This paper introduces a novel formal model of computation denoted as RecDEVS. It is targeted to the ...
One of the major challenges of designing heterogeneous reconfigurable systems is to obtain the maxim...
Abstract — During the last few years, there is an increasing interest in mixing software and hardwar...
As the embedding environment becomes more and more complex so does the embedded system itself. An as...
Dynamic and partial reconfiguration of hardware architectures such as FPGAs and coarse grain process...
Today’s heterogeneous embedded systems combine components from different domains, such as software, ...
Abstract—In this paper we propose a design methodology to explore dynamic and partial reconfiguratio...