DissProve demonstrates automated safety verification for parametric asynchronous distributed protocols classified as affine by backward unreachability using novel materialization, causality, and summarization.
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4 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 4representative citing papers
TLA-Prover reaches 30% pass@1 on both Gold and Diamond tiers of a 30-problem held-out TLA+ benchmark using GRPO with direct TLC feedback, 3.5 times the 8.6% untuned baseline.
Neuro-symbolic IC3+LLM framework finds inductive invariants for 29 distributed protocols in TLA+ and proves them inductive via TLAPS.
TetraBFT is an unauthenticated BFT consensus protocol achieving 5 message delays with constant storage, optimal communication, and optimistic responsiveness in partial synchrony.
citing papers explorer
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DissProve: Automated Verification of Distributed Protocols with Affine Communication
DissProve demonstrates automated safety verification for parametric asynchronous distributed protocols classified as affine by backward unreachability using novel materialization, causality, and summarization.