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Reconfigurable computing holds the promise of delivering ASIC-like performance while preserving run-time flexibility of processors. In many application domains, the use of FPGAs is limited by area, power, and timing overheads. Coarse-grained reconfigurable architectures offer higher computation density, but at the price of rather being domain specific. Programmability is also a major issue related...
The presented paper describes an approach of dynamic positioning of functional building blocks on Virtex (Xilinx) FPGAs. The modules can be of a variable rectangular shape. Further, the on-chip location of the area to be reconfigured can be freely chosen, so that any module can be placed anywhere within the defined dynamic region of the FPGA. Thus the utilization of the chip area can be optimized,...
Reconfigurable architectures and NoC (network-on-chip) communication systems have introduced new research directions for technology and flexibility issues, which have been largely investigated in the last decades. Exploiting the flexibility of reconfigurable architectures, the run-time adap-tivity through run-time reconfiguration, opens a new area of research by considering dynamic reconfiguration...
An innovative technique to model and simulate partial and dynamic reconfiguration is presented in this paper Developed from modifications of the SystemC kernel, this technique can either be used at transaction level (TLM) or at register transfer level (RTL). At TLM it allows the modeling and simulation of higher-level hardware and embedded software, while at RTL the dynamic system behavior can be...
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