StakeCube uses DHT-based sharding, verifiable Byzantine agreements by stakeholder shards, induced churn, and the UTXO model to build a permissionless PoS ledger where forks occur with negligible probability against adaptive adversaries.
Journal of Computer and System Sciences 27(2), 256–267 (1983)
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Smart contracts on a cryptocurrency platform combined with multiple randomness providers generate a public, timestamped random number stream that prevents any producer from predicting or controlling outputs or history.
citing papers explorer
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StakeCube: Combining Sharding and Proof-of-Stake to build Fork-free Secure Permissionless Distributed Ledgers
StakeCube uses DHT-based sharding, verifiable Byzantine agreements by stakeholder shards, induced churn, and the UTXO model to build a permissionless PoS ledger where forks occur with negligible probability against adaptive adversaries.
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Cryptocurrency Smart Contracts for Distributed Consensus of Public Randomness
Smart contracts on a cryptocurrency platform combined with multiple randomness providers generate a public, timestamped random number stream that prevents any producer from predicting or controlling outputs or history.