Solana accelerates Blockchain interoperability with its strong virtual machine

Blockchain interoperability is a huge barrier for Web3 developers, although progress has been made. One of the most performant Blockchains, Solana, is leading this effort to enable seamless cross-chain connectivity.

The Web3 sector needs Blockchain interoperability to develop and reach widespread. It means decentralized networks may connect, exchange data, and let users transfer assets across chains.

With its industry-leading high throughput and low latency, Solana is quickly becoming a key player in interoperability. Solana Virtual Machine, its network backbone, boosts performance. The SVM executes smart contracts and powers Solana's fast developing decentralized application ecosystem. The SVM relies on the Solana Runtime, which has many main components.

In the Solana Virtual Machine, what?
SVMs use the unique “proof-of-history” consensus technique to timestamp transactions before execution. Because Solana transactions are anchored to a verifiable timeframe, it can perform simultaneous transactions with high throughput and low latency without using much CPU resources.

Unlike other Blockchains, Solana's VMs use a multi-threaded design to handle several transactions simultaneously. That's unlike Ethereum and Bitcoin, which use sequential transaction processing and can only complete one transaction at a time.

The Tower BFT Consensus, which combines proof-of-stake with Tower Byzantine Fault Tolerance, is another important SVM component. This allows Solana to achieve low-latency finality, allowing network validators to reach agreement in seconds.

Finally, Solana's VMs use Rust. While easy to use, Rust adds parallelism to smart contracts to improve efficiency.

This unique design makes Solana effective at handling enormous transaction volumes. It processes them quickly and securely, making its network suitable for Blockchain interoperability.

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