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arxiv 2201.07946 v1 pith:DJND7AUC submitted 2022-01-20 cs.CR

Babylon: Reusing Bitcoin Mining to Enhance Proof-of-Stake Security

classification cs.CR
keywords babylonsecuritybitcoinchainsattacksblockchaindata-availableenergy
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Bitcoin is the most secure blockchain in the world, supported by the immense hash power of its Proof-of-Work miners, but consumes huge amount of energy. Proof-of-Stake chains are energy-efficient, have fast finality and accountability, but face several fundamental security issues: susceptibility to non-slashable long-range safety attacks, non-slashable transaction censorship and stalling attacks and difficulty to bootstrap new PoS chains from low token valuation. We propose Babylon, a blockchain platform which combines the best of both worlds by reusing the immense Bitcoin hash power to enhance the security of PoS chains. Babylon provides a data-available timestamping service, securing PoS chains by allowing them to timestamp data-available block checkpoints, fraud proofs and censored transactions on Babylon. Babylon miners merge mine with Bitcoin and thus the platform has zero additional energy cost. The security of a Babylon-enhanced PoS protocol is formalized by a cryptoeconomic security theorem which shows slashable safety and liveness guarantees.

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Forward citations

Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Crossroads: A Smart Contract Layer for Chain-Abstracted Assets

    cs.CR 2026-07 conditional novelty 6.0

    Crossroads unifies cross-chain assets as ERC-20 tokens on a single backend blockchain using threshold-signature custody and pluggable oracles, with a formal soundness proof guaranteeing users can always withdraw their...

  2. Bitcoin-IPC: Scaling Bitcoin with a Network of Proof-of-Stake Subnets

    cs.DC 2025-12 unverdicted novelty 6.0

    Bitcoin-IPC enables PoS Layer-2 subnets denominated in BTC that reduce vB per transaction by up to 23x and increase throughput from 7 to over 160 tps via SegWit-embedded routing.