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Network-on-Chips (NoCs) have emerged as a paradigm for designing scalable communication architecture for System-on-Chips (SoCs). In NoC, one of the key challenges is to design the most power-performance efficient NoC topology that satisfies the application characteristics. In this paper, we present a three-stage synthesis approach to solve this problem. First, we propose an algorithm [floor-planning...
Network-on-chip (NoC) architectures have been proposed as a promising alternative to classical bus-based communication architectures. In this paper, we propose a two phases framework to solve application-specific NoCs topology generation problem. At floorplanning phase, we carry out partition driven floorplanning. At post-floorplanning phase, a heuristic method and a min-cost max-flow algorithm is...
The conventional tools for mismatch elimination such as geometric symmetry and common centroid technology can only eliminate systematic mismatch, but can do little to reduce random mismatch and thermal-induced mismatch. As the development of VLSI technology, the random mismatch is becoming more and more serious. And in the context of Silicon on Insulator (SOI), the self-heating effect leads to unbearable...
After the phase of high level synthesis, a lot of design information is hidden for the floorplanning process. As a result, the floorplanning process which is only aiming at decreasing area and wirelength may cause design failure for the circuits, because of ignoring some hidden constraints. In this paper, we propose a method to extract some geometric constraints based on interconnecting information...
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