FPGA Acceleration of Authenticated Encryption with PUF-Key
The growing Internetof Things(loT) technology has made nearly all possible devices to interconnect seamlessly, such inter-network would raise the consideration for security in data that is shared. Low-power solutions are required for loT devices. This research addresses this security with a lightwei...
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| Published in | Proceedings - International Carnahan Conference on Security Technology pp. 1 - 8 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
11.10.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2153-0742 |
| DOI | 10.1109/ICCST59048.2023.10726847 |
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| Abstract | The growing Internetof Things(loT) technology has made nearly all possible devices to interconnect seamlessly, such inter-network would raise the consideration for security in data that is shared. Low-power solutions are required for loT devices. This research addresses this security with a lightweight symmetric key cryptographic technique: ASCON, which ensures both the confidentiality and integrity of communicated data. Theproposed design leverages anovel technique by having a PhysicallyUnclonable Function(PUF)I to generate the key for encryption, enhancing the security of the ASCON cipher. A novel C-based design of Authenticated Encryption with PUF -Key is presented, specifically tailored for implementation on FPGA devices. The FPGA of choice, the xc7z010clg400-1 Zynq-7000, the IPUFIcircuit produces resource utilization of approximately 20% of ILookUp Tables(LUTs)1 and consumes a dynamic power of about 8mW. With FPGA hardware acceleration, the ASCON cipher achieves a good throughput of 22.85Mbps with approximately18% utilization ofresources on the chosen Field ProgrammableGate Array(F'PGA)I. The power consumption is achieved 30mW. |
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| AbstractList | The growing Internetof Things(loT) technology has made nearly all possible devices to interconnect seamlessly, such inter-network would raise the consideration for security in data that is shared. Low-power solutions are required for loT devices. This research addresses this security with a lightweight symmetric key cryptographic technique: ASCON, which ensures both the confidentiality and integrity of communicated data. Theproposed design leverages anovel technique by having a PhysicallyUnclonable Function(PUF)I to generate the key for encryption, enhancing the security of the ASCON cipher. A novel C-based design of Authenticated Encryption with PUF -Key is presented, specifically tailored for implementation on FPGA devices. The FPGA of choice, the xc7z010clg400-1 Zynq-7000, the IPUFIcircuit produces resource utilization of approximately 20% of ILookUp Tables(LUTs)1 and consumes a dynamic power of about 8mW. With FPGA hardware acceleration, the ASCON cipher achieves a good throughput of 22.85Mbps with approximately18% utilization ofresources on the chosen Field ProgrammableGate Array(F'PGA)I. The power consumption is achieved 30mW. |
| Author | Ram, R.V.Rohinth Mariammal, K. Kaveri, R.Meena Bhuvanesh, P. |
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| Snippet | The growing Internetof Things(loT) technology has made nearly all possible devices to interconnect seamlessly, such inter-network would raise the consideration... |
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| SubjectTerms | Authenticated Encryption Ciphers Encryption Field programmable gate arrays FPGA Hardware acceleration IP networks loT Physically Unclonable Function Power demand Resource management Software Software algorithms Throughput |
| Title | FPGA Acceleration of Authenticated Encryption with PUF-Key |
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