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引用次数: 2
摘要
池挖矿实际上是基于比特币和以太坊等区块链系统的公开PoW(工作量证明)的挖矿模式。矿池聚集离散矿工的算力,提高获得正确区块的概率,稳定矿工的奖励。矿工在矿池之间达成共识,维护整个区块链网络的稳定性。由于底层传输机制之间的架构约束、节点之间的计算能力差异以及共识算法的存在,矿池面临越来越大的性能挑战,导致计算资源的浪费和矿工奖励的损失。在分析矿池结构的基础上,提出了一种衡量矿工计算效率的数值模型MENM (Miner Efficiency numerical model),以及一种基于MENM值动态调整矿池中单个矿工难度的性能调优机制DDCT (Dynamic Difficulty Calculation and tuning),以提高矿池效率。提出的调优机制还在一个小型的PoW实验矿池上进行了测试,以验证其效果。
A Performance Measurement and Optimization Mechanism for Blockchain Mining Pool System
Pooled mining is the de facto mining pattern in public, PoW (Proof of Work) based blockchain systems like Bitcoin and Ethereum. Mining pool aggregates discrete miners’ computation power to improve probability of getting the right block, and stabilize miners’ rewards. Miners reach consensus among pools, and maintain the whole blockchain network's stability. Due to architecture constrains across underlying transmission mechanism, computation power differences among nodes, and consensus algorithms, mining pools are facing increasing performance challenges, which lead to wastes of computing resources and loss of miners’ rewards. Based on analysis of mining pool architecture, this paper proposed a numerical model MENM (Miner Efficiency Numerical Model) to measure miner's computing efficiency, and a performance tuning mechanism DDCT (Dynamic Difficulty Calculation and Tuning) to dynamically adjust individual miner's difficulty in a pool based on MENM value, to improve mining pool's efficiency. The proposed tuning mechanism is also tested against a small experimental PoW mining pool to validate its effect.
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