International Association for Cryptologic Research

International Association
for Cryptologic Research

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

Paper

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Artifact number
tches/2026/a4

Artifact published
March 31, 2026

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This work is licensed under the MIT License.

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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.