On Securing Persistent State in Intermittent Computing
Author:
Affiliation:
1. Uppsala University, Sweden
2. KTH Royal Institute of Technology, Sweden
3. Air University, Pakistan
4. Uppsala University, Sweden and RISE Sweden
Publisher
ACM
Link
https://dl.acm.org/doi/pdf/10.1145/3417308.3430267
Reference21 articles.
1. 2020. Benchmarking code for Securing Persistent State in Intermittent Computing. https://github.com/areebasad/Benchmarking-for-Securing-Persistent-State-in-Intermittent-Computing. (Accessed on 10/18/2020). 2020. Benchmarking code for Securing Persistent State in Intermittent Computing. https://github.com/areebasad/Benchmarking-for-Securing-Persistent-State-in-Intermittent-Computing. (Accessed on 10/18/2020).
2. Efficient intermittent computing with differential checkpointing
3. D. Balsamo A. S. Weddell A. Das A. R. Arreola D. Brunelli B. M. Al-Hashimi G. V. Merrett and L. Benini. 2016. Hibernus++: A Self-Calibrating and Adaptive System for Transiently-Powered Embedded Devices. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems (2016). D. Balsamo A. S. Weddell A. Das A. R. Arreola D. Brunelli B. M. Al-Hashimi G. V. Merrett and L. Benini. 2016. Hibernus++: A Self-Calibrating and Adaptive System for Transiently-Powered Embedded Devices. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems (2016).
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