Transactions on Cryptographic Hardware and Embedded Systems 2026
Homomorphic Field Trace Revisited:
Breaking the Cubic Noise Barrier
Kang Hoon Lee
Korea University, School of CyberSecurity, Seoul, South Korea
Ji Won Yoon
Korea University, School of CyberSecurity, Seoul, South Korea
Keywords: Homomorphic Encryption, Field Trace, FHEW, TFHE
Abstract
We present a novel homomorphic trace evaluation algorithm RevHomTrace, which mitigates the phase amplification problem that comes with the definition of the field trace. Our RevHomTrace overcomes the phase amplification with only a negligible computational overhead, thereby improving the usability of the homomorphic field trace algorithm. Moreover, our tweak also improves the noise propagation of the HomTrace and breaks the traditional O (N3) variance bound in previous works into O (N log N). Our experimental results obtained by integrating RevHomTrace into state-of-theart homomorphic encryption algorithms further demonstrate the usefulness of our algorithm. Specifically, RevHomTrace improves the noise accumulation of the (high precision) circuit bootstrapping, which also achieves maximal 1.30× speedup by replacing the costly high precision trace evaluation. Also, based on our idea of RevHomTrace, we present a low latency, high precision LWE-to-GLWE packing algorithm MS-PackLWEs. We also show that our MS-PackLWEs significantly reduces the packing error without severe degradation of performance.
Publication
IACR Transactions on Cryptographic Hardware and Embedded Systems, Volume 2026, Issue 1
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Artifact number
tches/2026/a4
Artifact published
March 31, 2026
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License
This work is licensed under the MIT License.
Note that license information is supplied by the authors and has not been confirmed by the IACR.
BibTeX How to cite
Kang Hoon Lee, Ji Won Yoon. (2026). Homomorphic Field Trace Revisited : Breaking the Cubic Noise Barrier. IACR Transactions on Cryptographic Hardware and Embedded Systems, 2026(1), 105–134. https://doi.org/10.46586/tches.v2026.i1.105-134. Artifact at https://artifacts.iacr.org/tches/2026/a4.