@techreport{oai:ipsj.ixsq.nii.ac.jp:00220327,
 author = {Aalaa, M.A. Babai and Kuan, Yi Ng and Teruo, Tanimoto and Satoshi, Kawakami and Koji, Inoue and Aalaa, M.A. Babai and Kuan, Yi Ng and Teruo, Tanimoto and Satoshi, Kawakami and Koji, Inoue},
 issue = {14},
 month = {Oct},
 note = {Intermittent computing is an emerging computing paradigm to enable computation in devices powered by energy harvesting. This can enable several battery-less and low maintenance applications. Previous research in intermittent computing has shown that it is possible to support complex computation under sever energy constraints and frequent interrupts with checkpointing. However, the performance is still limited by the system architecture and energy efficiency. In this work we propose a model for a nonvolatile FPGA based reconfigurable heterogenous architecture and investigate its potential for future high performance intermittent computing systems., Intermittent computing is an emerging computing paradigm to enable computation in devices powered by energy harvesting. This can enable several battery-less and low maintenance applications. Previous research in intermittent computing has shown that it is possible to support complex computation under sever energy constraints and frequent interrupts with checkpointing. However, the performance is still limited by the system architecture and energy efficiency. In this work we propose a model for a nonvolatile FPGA based reconfigurable heterogenous architecture and investigate its potential for future high performance intermittent computing systems.},
 title = {Non-Volatile FPGA-based Intermittent Computing and Its Performance Analysis},
 year = {2022}
}