Paper 2025/247

LatticeFold+: Faster, Simpler, Shorter Lattice-Based Folding for Succinct Proof Systems

Abstract

Folding is a technique for building efficient succinct proof systems. Many existing folding protocols rely on the discrete-log based Pedersen commitment scheme, and are therefore not post-quantum secure and require a large (256-bit) field. Recently, Boneh and Chen constructed LatticeFold, a folding protocol using lattice-based commitments which is plausibly post-quantum secure and can operate with small (64-bit) fields. For knowledge soundness, LatticeFold requires the prover to provide a range proof on all the input witnesses using bit-decomposition, and this slows down the prover. In this work we present LatticeFold+, a very different lattice-based folding protocol that improves on LatticeFold in every respect: the prover is five to ten times faster, the verification circuit is simpler, and the folding proofs are shorter. To do so we develop two novel lattice techniques. First, we develop a new purely algebraic range proof which is much more efficient than the one in LatticeFold, and may be of independent interest. We further shrink the proof using double commitments (commitments of commitments). Second, we show how to fold statements about double commitments using a new sumcheck-based transformation.