Blockchain Split-Join Architecture: A Novel Framework for Improved Transaction Processing
Keywords:
Blockchain, Split-Join Architecture, Transaction Processing, Scalability, Data Integrity, Decentralized ApplicationsAbstract
The rapid expansion of blockchain technology necessitates innovative solutions to enhance transaction processing efficiency and scalability. This paper presents the Blockchain Split-Join Architecture, a novel framework designed to significantly improve transaction processing. By partitioning the blockchain into smaller, manageable segments (splits) that operate in parallel, this architecture reduces processing latency and increases throughput. These segments are subsequently merged (joined) to maintain data integrity and consistency across the network. Our framework addresses key challenges such as scalability, resource optimization, and transaction speed, making it ideal for high-demand applications. Through rigorous analysis and simulations, we demonstrate that the Split-Join Architecture outperforms traditional blockchain systems in terms of transaction processing time and network efficiency. This research offers a robust solution for the development of more scalable and efficient decentralized applications, providing valuable insights into advanced blockchain and distributed system design
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