可重构SoC设计参考书籍 Reconfigurability is becoming an important part of System-on-Chip (SoC) design to cope with the increasing demands for simultaneous flexibility and computational power. Current hardware/software co-design methodologies provide little su
In the two decades since field-programmable gate arrays (FPGAs) were introduced, they have radically changed the way digital logic is designed and deployed. By marrying the high performance of application-specific integrated circuits (ASICs) and the
Reconfigurable Computing: The Theory and Practice of FPGA-Based Computation is divided into six major parts—hardware, programming, compilation/ mapping, application development, case studies, and future trends.
Application-speci c optimization of embedded systems becomes inevitable to satisfy the market demand for designers to meet tighter constraints on cost, performance and power. On the other hand, the exibility of a system is also important to accommod
Partial Reconfigurable FPGA provides ability of reconfigure the FPGA during run-time. But the reconfigurable part is disabled while performing reconfiguration. In order to maintain the functionality of system, data stream should be hold for RP durin
Embedded systems present significant security challenges due to their limited resources and power constraints. We propose a novel security architecture for embedded systems (SANES) that leverages the capabilities of reconfigurable hardware to provid
Coarse-grained reconfigurable architectures (CGRAs) have drawn increasing attention due to their flexibility and efficiency. Loops in applications are often mapped onto CGRAs for acceleration, and the mapping of loops onto CGRA is quite a challengin
This letter introduces a new 90 branch-line coupler with reconfigurable output power ratios (90 BC-ROPR). Unlike a conventional branch-line coupler structure, each arm of the proposed 90 BCROPR is defined by an asymmetrically coupled-line, and its c