WiMi Is Researching Blockchain Optimized Data Storage Model Based on Extreme Learning Machine (ELM) Sharding
The ELM-based sharding blockchain data storage model divides the blockchain network into multiple shards, each of which needs to store and process only part of the blockchain's data. Specifically, each slice only needs to store and verify the blocks and transaction data associated with it, without storing a full copy of the entire blockchain. This can greatly reduce storage requirements, lower storage costs, and improve the efficiency and performance of data synchronization. In this model, each slice can use ELM as its local storage and computation unit. ELM is an efficient machine learning algorithm with fast training and prediction capabilities. Each slice can use ELM to store and process its own blockchain data without relying on other slices or full nodes. This increases the efficiency of data storage and processing and reduces the dependency on full nodes.
Specifically, it is first necessary to split the original blockchain data into multiple segments and store these segments on different nodes, thus realizing the distributed management of data storage as well as achieving parallel processing of data. Each node only needs to store the sharding data it is responsible for, which greatly reduces the storage pressure of nodes. Each shard can be managed by one or more ELM nodes. ELM nodes use ELM algorithms to train and process the data. ELM is a fast and efficient machine learning algorithm that can process and analyze large amounts of data in a short period of time. Each ELM node can independently process and store the data sharding it is responsible for. This sharding technology improves the parallel processing of data, thus increasing the performance of the entire blockchain system. At the same time, since each node only needs to manage a portion of the data, it can reduce the cost of data storage and processing.
In addition, the ELM-based sharding technology can also provide higher data privacy and security. Since the data is partitioned into multiple segments and managed by different ELM nodes, even if one node is attacked or the data is leaked, it will not have an impact on the data integrity of the whole system.
The ELM-based sharding blockchain data storage model researched by WiMi can solve the problems of storage capacity and transaction speed faced by the traditional blockchain data storage model, reduce the storage cost, improve the efficiency and performance of data synchronization, and provide a more efficient way of data management and access to further improve the performance and scalability of the blockchain system. This model is of great significance in the application of blockchain technology and data storage models.
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