Towards reliability and performance-aware Wireless Network-on-Chip design

@article{Agyeman2015TowardsRA,
  title={Towards reliability and performance-aware Wireless Network-on-Chip design},
  author={Michael Opoku Agyeman and Kin-Fai Tong and Terrence S. T. Mak},
  journal={2015 IEEE International Symposium on Defect and Fault Tolerance in VLSI and Nanotechnology Systems (DFTS)},
  year={2015},
  pages={205-210}
}
Recently Hybrid Wired-Wireless Network-on-Chip (WiNoC) has emerged to solve the poor scalability and performance issues of modern System-on-Chip (SoC) design. However, conventional on-chip wireless interconnect has a high error rates which have drastic effects on the total reliability of the WiNoC. In this paper, we propose an improved wireless interconnect fabric that is able to achieve a similar error rate as traditional wireline channels as an effort to improve the overall reliability of… CONTINUE READING

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Key Quantitative Results

  • Compared to existing WiNoCs, the proposed communication fabric can improve the reliability of WiNoCs with average gains of 21.4%, 13.8% and 10.7% performance efficiencies in terms of maximum sustainable load, throughput and delay, respectively.
  • Experiments conducted in 6 × 4 under random, transpose1 and transpose2 traffic patterns show that, mm-Wave consumes up to 17% more power compared to the proposed surface wave fabric when employed as the wireless communication channel for WiNoCs.

Citations

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An Analytical Channel Model for Emerging Wireless Networks-on-Chip

  • 2016 IEEE Intl Conference on Computational Science and Engineering (CSE) and IEEE Intl Conference on Embedded and Ubiquitous Computing (EUC) and 15th Intl Symposium on Distributed Computing and Applications for Business Engineering (DCABES)
  • 2016
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An Efficient Channel Model for Evaluating Wireless NoC Architectures

  • 2016 International Symposium on Computer Architecture and High Performance Computing Workshops (SBAC-PADW)
  • 2016
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