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Parallel Progress and Convergence of Chief Chain and Miscellaneous Chain.

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Titel: Parallel Progress and Convergence of Chief Chain and Miscellaneous Chain.
Autoren: WANG, JIA-JEN RAYMOND1 rayarivy@gmail.com, CHEN, YAW-CHUNG1
Quelle: Journal of Information Science & Engineering. Sep2025, Vol. 41 Issue 5, p1351-1373. 23p.
Schlagwörter: Blockchains, Data management, Big data, Cryptocurrencies, Scalability
Abstract: A novel scalable blockchain is proposed for complementing the limitation of current cryptocurrency on certain applications. Chief Chain with High-impact event data and Miscellaneous Chain with Low-impact event data progress in parallel simultaneously. Super Nodes coordinate the task of block generation. The operation and consensus are based on the concept of computation, credit and voting through certain validators. Validation is performed through the cooperation of Super Nodes and nodes in each region. The scalability is realized by the design of region. Regional data are stored in Edge Cloud, Super Nodes and regional nodes. Comprehensive data including event data of all regions is stored in Core Cloud. Local autonomy allows data to be processed in local effectively. High-impact event data without prioritized processing time are processed with strict validation rule through more validators to form Chief Chain. The Low-impact event data are processed by Edge Cloud and local nodes to form Miscellaneous Chain. The two separate flows of High-impact events and Low-impact events enable the process of 100 transactions per second per region in validation process of Low-impact events with less difficulty in validation setting, resulting in overall 25,000 transactions per second in the system, which is much higher than 3,273 transactions per second in Solana. The essence data in Miscellaneous Chain are converged to Chief Chain periodically. The archive method of non-current event data reduces the burden of storing historical event data. The validation design and bonding with previous several blocks enhance security and reduce the waiting time of confirmation. [ABSTRACT FROM AUTHOR]
Datenbank: Supplemental Index
Beschreibung
Abstract:A novel scalable blockchain is proposed for complementing the limitation of current cryptocurrency on certain applications. Chief Chain with High-impact event data and Miscellaneous Chain with Low-impact event data progress in parallel simultaneously. Super Nodes coordinate the task of block generation. The operation and consensus are based on the concept of computation, credit and voting through certain validators. Validation is performed through the cooperation of Super Nodes and nodes in each region. The scalability is realized by the design of region. Regional data are stored in Edge Cloud, Super Nodes and regional nodes. Comprehensive data including event data of all regions is stored in Core Cloud. Local autonomy allows data to be processed in local effectively. High-impact event data without prioritized processing time are processed with strict validation rule through more validators to form Chief Chain. The Low-impact event data are processed by Edge Cloud and local nodes to form Miscellaneous Chain. The two separate flows of High-impact events and Low-impact events enable the process of 100 transactions per second per region in validation process of Low-impact events with less difficulty in validation setting, resulting in overall 25,000 transactions per second in the system, which is much higher than 3,273 transactions per second in Solana. The essence data in Miscellaneous Chain are converged to Chief Chain periodically. The archive method of non-current event data reduces the burden of storing historical event data. The validation design and bonding with previous several blocks enhance security and reduce the waiting time of confirmation. [ABSTRACT FROM AUTHOR]
ISSN:10162364
DOI:10.6688/JISE.202509_41(5).0016