Chainfeeds Introduction:
EVM+ provides a new solution that not only promotes the development of large-scale applications, but also accelerates the integration of cryptocurrencies with mainstream applications by seamlessly integrating EVM assets, protocols, and infrastructure. In Vitalik's vision of Ethereum, the "layer" that solves non-scaling needs plays an important role. Artela meets the blockchain network's demand for "custom functions" by adding "native extensions" to the base layer.
Article Source:
https://foresightnews.pro/article/detail/58942
Article author:
Ac-Core
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Ac-Core: Artela has an extension layer that allows the addition of local user-defined extension modules called Aspect, which improves programmability while ensuring compatibility with existing EVM smart contracts. Aspect allows developers to inject additional logic to process transactions and related blocks throughout the transaction lifecycle outside of smart contracts. Artela has built a highly scalable EVM+ network, using Aspect programming to introduce WASM virtual machines on the EVM-compatible network, which can interoperate to achieve dynamic addition and execution of on-chain extensions. EVM+ enables developers to build high-performance protocols, modular DApps, and customize underlying functions for specific scenarios. The next step for Artela is EVM++, a parallel EVM+ network that can fully unleash the potential of scalable blockchains. Artela's parallel EVM++ will be implemented in two phases. The first phase involves parallel execution of transactions under EVM+. The Artela network not only implements basic parallel EVM, but also solves the problem of parallel execution under EVM+ Aspect, which is an extension running on the WASM virtual machine and can be called during the life cycle of a transaction; in the second phase, Artela will take advantage of parallel capabilities and combine them with elastic computing to achieve elastic block space, a dynamic mechanism that allows DApps to maximize the advantages of parallel execution. Artela's horizontally scalable architecture is designed around parallel execution, ensuring the scalability of network node computing power through elastic computing, and ultimately achieving elastic block space. - Parallel execution: Transactions on Artela can be executed in parallel. The Artela network groups transactions executed in parallel based on transaction dependency conflict analysis; - Elastic computing: Validator nodes support horizontal expansion, and the network automatically adjusts the validator's computing nodes based on the current network load or subscription situation. The expansion process is coordinated by the elastic protocol to ensure that there are enough elastic computing nodes in the consensus network; - Elastic block space: Based on elastic computing, in addition to expanding the public block space, large DApps with independent block space requirements can also apply for dedicated elastic block space in the network.
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