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Ripple has just announced the introduction of its history-sharding protocol to address all data-related problems associated with the Led XRP registry. With this new system, registers will no longer need to store all the chronology in the XRP ledger. The history splitting feature will be available on Rippled version 0.90.0 and will reduce stress on data servers by eliminating the need to store too much transaction history at any given time while still storing data efficiently. This function is not intended to replace the ledger store, but only to assist it. It takes Ripple closer to solving the problems of scalability on the blockchain. It is particularly important at this time as the number of users is growing rapidly.
The growing problems of blockchain and scalability
One of the main problems with blockchain technology is scaling. This is because more people and companies start using the blockchain, becoming slower and more expensive to use. The servers on the XRP Ledger store more than eight terabytes of data to get the complete history. However, the disadvantage of this is that it makes it difficult to scale the network. The blockchain will not work as effectively as it should.
Price XRP (XRP) today – XRP / USD
To combat this problem, Ripple announced the release of a new feature known as sharding. The announcement was made in a post on the company blog:
"The history sharding will be available in the Rippled version 0.90.0.It will solve the storage problem by distributing the history in fragments.Each fragment is composed of data from different registers.With this function, the Rippled servers will be able to assist in storing historical data without storing the entire data history According to Ripple:
"The history sharding feature, enabled in the choppy version 0.90.0, solves this problem by distributing the history in segments called shards.A fragment contains all the data for a series of master books. rippled servers can contribute to storing historical data without having to store the entire history. "
Instead of replacing the entire ledger archive, sharding creates a path that connects directly to the Ledger XRP network. This keeps the history of the network intact with the servers that maintain only the fragments. The servers will generate delta ledgers or test trees that confirm that they have all the data they want to keep. These fragments on the server are chosen randomly and a normal distribution curve stores the entire history of XRP master books. This is how the network manages to keep an accurate history.
