Ethereum: After the full pruning of Blockchain
Ethereum Blockchain is a decentralized, decentralized main book technology that enables safe and transparent events between the nodes of the network. One of the key features of the Ethereum certificate (POS) consensus algorithm is the elimination of the elimination of Blockchain’s redundant or unnecessary information to improve its efficiency.
What is the pruning?
Qualifying is a process in which the Ethereum block chain is divided into smaller pieces called “blocks” and each block contains several events. The purpose of pruning is to reduce the total size of the block chain by removing redundant or duplicate.
The size of the block chain before pruning and after
After pruning, the total size of the Ethereum block chain may be significantly reduced compared to its original size. According to a 2019 study by the Ethereum Foundation, the average block size before pruning was about 5 MB (megabacks). However, after pruning, this size dropped to about 1-2 kB (kilos).
To set this perspective here is an example of what kind of original and pruning blockchain sizes may look like:
Original block chain size:
- 100,000 blocks x 10 mb per block = 1 tb (terawyte) = 1024 GB (gigabytes)
Carded block chain size:
- 50,000 blocks x 2 kb per block = 1 GB
As you can see, pruning has a significant impact on the size of the block chain. By removing unnecessary information and removing the duplicates, the Ethereum network is able to reduce its overall storage.
Why pruning is important
Qualifying is an essential process to maintain the health and efficiency of the Ethereum block chain. Without pruning, the block chain grows rapidly in size, leading to increased payments to the reduction of events, slower events, and ultimately a reduction in the general usability of the network.
In addition, pruning will help reduce energy consumption as it eliminates the need to store unnecessary or unnecessary information from the blockchain. This is particularly important for mining workers who require significant amounts of computational power to validate new blocks and create new events.
conclusion
Following the elimination of the Ethereum block chain, there is a decisive aspect of maintaining its decentralized and effective nature. By understanding how qualifying works and why it is essential, developers can optimize their applications and services to utilize this process. As the network develops and continues to grow, pruning remains as a continuous optimization technique that helps to ensure the long -term health and usability of Ethereum.
References:
- Ethereum Foundation. (2019). Qualifying: A new approach to improving efficiency.
- Coles, M., and Nitzki, P. (2020). How to qualify for Ethereum 2.0. Retrieved from < to-improving-effacy>