A 38.1 fJ/bit Capacitive-Latch True Random Number Generator Featuring Both Autozeroed Inverter Mismatch and Accelerated Evaluation
This work presents a capacitive-latch (C-latch) true random number generator (TRNG) that achieves both inverter mismatch autozeroing and accelerated evaluation by utilizing coupling capacitors. The proposed C-latch TRNG samples the mismatch between inverter equalization voltages through coupling cap...
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| Published in | IEEE solid-state circuits letters p. 1 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
09.09.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2573-9603 2573-9603 |
| DOI | 10.1109/LSSC.2025.3608187 |
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| Abstract | This work presents a capacitive-latch (C-latch) true random number generator (TRNG) that achieves both inverter mismatch autozeroing and accelerated evaluation by utilizing coupling capacitors. The proposed C-latch TRNG samples the mismatch between inverter equalization voltages through coupling capacitors during the equalization phase, effectively autozeroing inverter mismatch and enabling high-entropy raw bit generation without calibration. In addition, larger coupling capacitors reduce the effective capacitance in the gate-node stochastic differential equation, resulting in faster evaluation and reduced energy consumption. Fabricated in a 28-nm CMOS process, the TRNG achieves a minimum energy consumption of 38.1 fJ/bit at 0.4 V supply voltage and the maximum throughput of 162.48 Mb/s at 0.9 V. A 4-bit von Neumann post processor consistently extract a full entropy, which successfully passes all NIST SP800-22 and NIST SP800-90B randomness tests under wide voltage and temperature variations, implying both robustness and cryptographic suitability. |
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| AbstractList | This work presents a capacitive-latch (C-latch) true random number generator (TRNG) that achieves both inverter mismatch autozeroing and accelerated evaluation by utilizing coupling capacitors. The proposed C-latch TRNG samples the mismatch between inverter equalization voltages through coupling capacitors during the equalization phase, effectively autozeroing inverter mismatch and enabling high-entropy raw bit generation without calibration. In addition, larger coupling capacitors reduce the effective capacitance in the gate-node stochastic differential equation, resulting in faster evaluation and reduced energy consumption. Fabricated in a 28-nm CMOS process, the TRNG achieves a minimum energy consumption of 38.1 fJ/bit at 0.4 V supply voltage and the maximum throughput of 162.48 Mb/s at 0.9 V. A 4-bit von Neumann post processor consistently extract a full entropy, which successfully passes all NIST SP800-22 and NIST SP800-90B randomness tests under wide voltage and temperature variations, implying both robustness and cryptographic suitability. |
| Author | Kim, Changjoo Jung, Hyundo Kim, Taihyun Lee, Woojin Jeon, Jinwoo Sim, Changmin Kim, Chulwoo |
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| Snippet | This work presents a capacitive-latch (C-latch) true random number generator (TRNG) that achieves both inverter mismatch autozeroing and accelerated evaluation... |
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| SubjectTerms | Capacitance Capacitors Clocks coupling capacitor Entropy hardware security Inverters latch metastability Latches Logic gates Mathematical models Noise Power demand stochastic differential equation (SDE) true random number generator (TRNG) |
| Title | A 38.1 fJ/bit Capacitive-Latch True Random Number Generator Featuring Both Autozeroed Inverter Mismatch and Accelerated Evaluation |
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