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Synthesizing Inductive Invariants for Distributed Protocols via IC3 and Large Language Models

Published 23 May 2026 in cs.SE | (2605.24619v1)

Abstract: Distributed protocols are notoriously difficult to verify correctly. Proving safety typically requires inductive invariants that both imply the desired property and are preserved by every protocol transition; yet inferring such invariants remains a major bottleneck: existing approaches either restrict the protocol models to a decidable fragment of first-order logic or demand expert-crafted templates. We present IC3Syn, a neuro-symbolic framework that synthesizes inductive invariants by executing an IC3-style process over TLA+ states with the assistance of LLMs. At large, IC3Syn combines a symbolic IC3 controller, which decomposes invariant synthesis into focused blocking tasks and an LLM which provides protocol-level reasoning that IC3 alone lacks for TLA+ specifications. This integration enables a disciplined yet flexible search for invariants without imposing logical restrictions or requiring manual templates. We evaluate IC3Syn on 29 distributed protocols spanning consensus, reconfiguration and client-server systems, and compare it against Endive, IC3PO, SWISS and DistAI. IC3Syn discovers candidate invariants for all 29 protocols, including MongoLoglessDynamicRaft (MLDR), an industrial-scale Raft-based reconfiguration protocol for which none of the compared tools reports a solution, as well as one complex Paxos variant. In each case, the invariants synthesized on finite instances are shown in TLAPS to be inductive for the full unbounded protocol, thereby establishing safety.

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