ABSTRACT Nowadays there are vast enlargements in the grid applications; the control strategy of power electronics systems has also spread their locality extensively. Single processor of complex hardware is used in the conventional method, to generate the control strategy for microgrid. To avoid this issue, we cultivate a low-power microgrid with the help of NoC. Reconfigurable Double Tailed Sense Amplifier (RDTSA) based on the NoC is selected for the reduction of power. History based Dynamic Frequency Scaling (HDFS) is implemented in RDTSA for further power reduction. The combination of this is named as a Mixture of Algorithm with NoC (MAN) architecture, which has been refined from the ALPIN architecture. Cultivation of the entire design results in delay and power reduction compared to the conventional method. The performance of delay, data rate static power and energy are evaluated compared to conventional method and the RDTSA. The overall performance of Heuristic Asynchronous NoC for Universal power electronics application (HANU) is superior to that of the conventional approaches.

中文翻译：

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HANU：适用于通用电力电子应用的启发式异步 NoC

摘要 如今，网格应用有很大的扩展。电力电子系统的控制策略也得到了广泛的应用。传统方法使用复杂硬件的单处理器来生成微电网的控制策略。为了避免这个问题，我们在 NoC 的帮助下培育了一个低功耗微电网。选择基于 NoC 的可重构双尾检测放大器 (RDTSA) 来降低功耗。RDTSA 中实施了基于历史的动态频率缩放 (HDFS)，以进一步降低功耗。这种组合被称为算法与 NoC (MAN) 架构的混合，它是从 ALPIN 架构改进而来的。与传统方法相比，整个设计的培养导致延迟和功率降低。延迟的表现，与传统方法和 RDTSA 相比，对数据速率静态功率和能量进行了评估。通用电力电子应用 (HANU) 的启发式异步 NoC 的整体性能优于传统方法。