Lianq-Yu Lin, Huang-Kai Lin, Cheng-Yeh Wang, Lan-Da Van, Jing-Yang Jou
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Hierarchical architecture for network-on-chip platform
In this paper, we propose one hierarchical 2-D mesh Network-on-Chip (NoC) platform to support applications with the complexity of several hundreds of tasks or with huge amount of transmission data. Moreover, applying the task binding method by considering communication amount, communication data contention and bandwidth penalty to enhance the system overall performance of the new architecture. Modeling the NoC system data transmission behavior at system level is applied to predict system overall performance and an automatic NoC system performance simulation tonl is also built. Therefore, architecture and designers can predict the system performance and obtain all parameters of the designed platform at system abstraction level. The experimental results show that the overall system throughput, the latency, and the saving of redundant transactions are improved by 27%, 14.4% and 21.8% respectively under the communication dominated situation.
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