This paper proposes a new model for the partitioning and scheduling of a specification on partially dynamically reconfigurable hardware. Although this problem can be solved optimally only by tackling its subproblems jointly, the exceeding complexity of such a task leads to a decomposition into two phases. The partitioning phase is based on a new graph-theoretic approach, which aims to obtain near optimality even if performed independently from the subsequent phase. For the scheduling phase, a new integer linear programming formulation and a heuristic approach are developed. Both take into account configuration prefetching and module reuse. The experimental results show that the proposed method compares favorably with existing solutions
FPGAs are widely used in today's embedded systems design due to their low cost, high performance, an...
Summarization: Partial reconfiguration suffers from the inherent high latency and low throughput whi...
This paper proposes new scheduling and 2D placement heuristics for partially dynamically reconfigura...
This paper proposes a new model for the partitioning and scheduling of a specification on partially ...
This paper proposes a new model for the partitioning and scheduling of a specification on partially ...
Aim of this paper is to define a scheduling of the task graph of an application that minimizes its t...
Designing systems mapped onto FPGAs that foresee a dynamic reconfiguration of the application is a d...
This work proposes an exact ILP formulation for the task scheduling problem on a 2D dynamically and ...
Field-programmable gate arrays (FPGAs) which allow partial reconfiguration at run time can be shared...
This paper is motivated by existing architectures of field programmable gate arrays (FPGAs). To faci...
We consider the problem of scheduling the operations of a data flow graph in a reconfigurable comput...
In this paper we present a novel scheduling technique for partially-reconfigurable FPGA-based system...
The development of FPGAs that can be programmed to implement custom circuits by modifying memory has...
Summarization: Partial reconfiguration (PR) of FPGAs can be used to dynamically extend and adapt the...
High-performance reconfigurable computing involves acceleration of significant portions of an ap-pli...
FPGAs are widely used in today's embedded systems design due to their low cost, high performance, an...
Summarization: Partial reconfiguration suffers from the inherent high latency and low throughput whi...
This paper proposes new scheduling and 2D placement heuristics for partially dynamically reconfigura...
This paper proposes a new model for the partitioning and scheduling of a specification on partially ...
This paper proposes a new model for the partitioning and scheduling of a specification on partially ...
Aim of this paper is to define a scheduling of the task graph of an application that minimizes its t...
Designing systems mapped onto FPGAs that foresee a dynamic reconfiguration of the application is a d...
This work proposes an exact ILP formulation for the task scheduling problem on a 2D dynamically and ...
Field-programmable gate arrays (FPGAs) which allow partial reconfiguration at run time can be shared...
This paper is motivated by existing architectures of field programmable gate arrays (FPGAs). To faci...
We consider the problem of scheduling the operations of a data flow graph in a reconfigurable comput...
In this paper we present a novel scheduling technique for partially-reconfigurable FPGA-based system...
The development of FPGAs that can be programmed to implement custom circuits by modifying memory has...
Summarization: Partial reconfiguration (PR) of FPGAs can be used to dynamically extend and adapt the...
High-performance reconfigurable computing involves acceleration of significant portions of an ap-pli...
FPGAs are widely used in today's embedded systems design due to their low cost, high performance, an...
Summarization: Partial reconfiguration suffers from the inherent high latency and low throughput whi...
This paper proposes new scheduling and 2D placement heuristics for partially dynamically reconfigura...