Ethereum: Why is 550 (MiB) chosen for minimum storage size for prune mode?

Because choose Ethereum 550 MIB as a minimum storage size for pruning mode

When performing in intersection mode, Bitcoind – Bitcoin Protocol used by Ethereum – does not advertise new blocks in other nodes. The aim is to preserve the storage space and reduce the congestion of the network. However, one of the questions remains: why did the developers have chosen a minimum of 550 mib (megabyte) storage dimensions for the engraved mode?

In this article, we are immersed in the subject behind the choice and explores its effects on scalability, safety and general performance.

Basic notions on plum mode

Before entering the details, quickly describe the plum mode. The plum mode reduces network traffic by not advertising the new blocks to other nodes. This means that instead of transmitting a new block found in the selection process of the mining pool, miners must only transmit 55 new blocks per day in intersecting networks (the number of blocks in the last 55 days). This reduction is obtained through various optimization and pruning mechanisms.

Minimum storage dimension: critical consideration

When choosing the minimum dimension of storage of the plum mode, there are many factors. Here are some key aspects:

• Network bandwidth : a minimum storage dimension affects the available bandwidth width. If the storage space is too large, the miners may not be available or used in the incisors.

• Volume of transactions : The amount of transactions involved in the block affects the requested storage capacity. The larger blocks require more space to satisfy the entire history of transactions, which can affect the performance and scalability of the metropolitan mode.

• Variability of the block size : The size of the block can depend on factors such as the congestion of the network and the complexity of the transaction. A higher minimum storage dimension may be necessary to adapt to these variants.

Ethereum case: 550 Mib

In terms of the current state of Ethereum blockchain, we see that this has reached the number of critical blocks of 1 trillion (1,000,000,000). From a perspective, a typical mainnet knot can store about 50-70 GIB data (Gigabytes). Due

* Conservative estimate : the estimated block number and the appropriate storage space provide a reasonable estimate of the network.

* Huge mechanisms : the use of pruning mechanisms in the intersecting networks helps to reduce the load on the nodes and optimize the use of bandwidth. These mechanisms can effectively manage large blocks without requesting excessive conservation.

Conclusion

In summary, Ethereum chooses 550 Mib as minimum dimensions of storage of solid mode is a decision of deliberate design aimed at balanced scalability, safety and efficiency of the network. If you provide a sufficient storage space by minimizing the bandwidth requirements, these restrictions will contribute to a healthy balance between the performance of the knot and increases in the number of blocks.