Base L2 rolls out new features on testnet, with plans for mainnet deployment in Q2

Base, the Layer 2 scale solution for Ethereum, a presented Three new features to improve its transaction speeds, increase scalability and make it easier to use.

For speed, Base has introduced flash blocks technology, which reduces block time by 2 seconds to only 200 milliseconds. Developers can start testing this feature on the basis Sepolia Testnet Today, and they will be deployed on the Mainnet at T2.

For scalability, the application channels have launched the base, the Layer-3 channels designed for applications that must evolve effectively. They provide a dedicated block of space and are built with the framework of operational operations, which makes them suitable for applications with high traffic. Appchains can be personalized and are supported by a robust infrastructure, allowing developers to manage their applications more effectively.

Finally, the base added Smart Wallet accounts under to allow the management of several ONCHAIN ​​accounts from a single portfolio, reducing the need for several connection processes. It also minimizes pop-ups. This feature is also available on the Basic Testnet now and will launch on the Mainnet in the second quarter.

If the new base features run more Challenge,, Nftand game applications in the future, demand from Ethereum (Ethn), which is used for transactions and gas costs on the basis, could increase. From the base does not plan To present your own token, this is good news for Ethereum.

Even before this upgrade, the base is considerably faster than Ethereum. Ethereum’s average block time is approximately 12 seconds, while the new basic flashblocks technology reduces block time to only 200 milliseconds. In terms of TPS speed, the base is also Almost 7x times Faster than Ethereum.

Although the new basic features considerably improve the speed and scalability of transactions treatment, there are also potential concerns.

More specifically, the production of fast blocks activated by flash blocks (200 ms of blocks) increases potential security risks, such as the increase in orphaned blocks. Orphan blocks occur when two minors or validators produce blocks at the same time. In this case, one of the blocks will ultimately be thrown because the chain is restructured to include only one of the competing blocks. Orphan blocks are not content to waste the computing power, but can also offer more opportunities to malicious actors to exploit the network.

As for the accounts of intelligent subbeators, they could also introduce security risks if only one compromise portfolio grants access to several accounts.

Finally, application channels introduce additional complexity for developers who must ensure interoperability and safety between several layer 3 chains.