ParBFT: An Optimized Byzantine Consensus Parallelism Scheme

Chen, Xiao; Er-Rahmadi, Btissam; Ma, Tiejun; Hillston, Jane

doi:10.1109/tc.2023.3296916

Cited by 3 publications

(1 citation statement)

References 38 publications

(108 reference statements)

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“…Intra-shard communication uses the Linear Practical Byzantine Fault Tolerance (L-PBFT) model [31], which requires a primary node to lead the consensus process for a certain period of time. Inter-group communication also requires a representative of each shard to simplify the communications.…”

Section: Chief Processor Layermentioning

confidence: 99%

Cache Optimization Methods Involving Node and Content Sharding of Blockchain in Internet of Vehicles

Zhao,

Ding

2024

Electronics

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Blockchain stands out in addressing the data security requirements of the Internet of Vehicles. However, blockchain has storage pressure that cannot be met by most existing nodes. The emergence of Mobile Edge Computing allows nodes closer to the users to undertake the caching and computation process. Although sharding can alleviate the storage pressure on blockchain nodes, frequent cross-shard communication can affect the overall performance of the blockchain. In this paper, combining the features of traffic flow with strong regional similarity as well as inter-node correlation, we propose two sharding methods based on the current Vehicle–Infrastructure–Clouds three-tier service model. The proposed Content Sharding method can optimize node caching and improve the cache-hitting ratio. The proposed node sharding method can effectively reduce the system service delay by assisting nodes to cache the whole blockchain together across the network.

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Section: Chief Processor Layermentioning

confidence: 99%