Published há 6 meses • 5 minute read

Without A Stronger Multichain Compatibility, Web3 Risks Eventual Collapse

Web3 is the internet's next stage, using blockchain technology to decentralize ownership and operations. It seeks to increase transparency and provide users more power. Multichain interoperability is critical in Web3, enabling multiple blockchain networks to interact smoothly. 

This interoperability improves user experiences while using the characteristics of diverse blockchains. Without better multichain interoperability, the fragmented nature of today's blockchains may jeopardize the stability and future of Web3.

The Current Status of Multichain Technology

Multichain technology is a system in which several blockchain networks collaborate to transmit and synchronize data and assets across various platforms. This technique seeks to transcend the limits of single-chain settings, which restrict users and developers to the capabilities of a single blockchain.

Crypto bridges, which connect asset and information transfers across two blockchain ecosystems, are critical to this technology. These bridges employ smart contracts to freeze assets on one chain while issuing comparable assets on another, safeguarding transactions across the two networks.

Multichain operations are becoming more frequent in the Web3 environment and have many applications. For example, decentralized finance (DeFi) platforms use multichain technology to enable various services and assets, increasing liquidity and transaction speeds. 

Similarly, non-fungible token (NFT) markets have included multichain features, enabling interactions over many blockchains, hence increasing market access and participation. 

These advances demonstrate multichain technology's importance and expanding applicability in developing a more integrated and efficient Web3 ecosystem.

Historical Challenges for Multichain Bridges

Multichain bridges in Web3 have traditionally had substantial security difficulties, with multiple breaches resulting in huge financial losses and hurting the ecosystem's security reputation. Hackers exploited flaws in the smart contracts that regulate these bridges, resulting in unlawful large-scale asset transfers and considerable security concerns.

The key weaknesses of early crypto bridges were complicated and, in some cases, improperly vetted smart contracts, which are required for asset transfer management. These contracts were vulnerable to faults and oversights, making them prime attack candidates. The decentralized design of these bridges made supervision and reaction to breaches more difficult since there was no single control point.

These security flaws have jeopardized confidence and stability in the Web3 ecosystem. Trust is essential for adopting and using blockchain technology, and each breach erodes trust in the whole blockchain ecosystem. 

Furthermore, the instability caused by these security vulnerabilities might impede the scalability and acceptance of Web3 technologies since prospective users and developers are hesitant to engage with an unsecured system.

This incident highlights the critical need for stronger security measures and more robust infrastructure in multichain operations to ensure Web3's future development and sustainability.

Prom and Its Contribution to Web3 

Prom employs Modular ZkEVM Layer 2 technology to enable interoperability across EVM and non-EVM compatible blockchain networks. This technique allows Prom to send transaction proofs to various chains, which improves communication across blockchain ecosystems. 

The platform is powered by Polygon, which uses zkSNARKs to lower transaction costs and recursive STARK technology for speedier transactions and scalable dApp creation. These features are intended to offer safe and immutable transactions while protecting privacy and efficiency.

Adopting ZK rollups by Prom helps strengthen the network's integrity and resilience. By integrating Ethereum's sophisticated security protocols with the efficiencies given by zero-knowledge proofs, Prom seeks to enable private, cost-effective, and safe transactions. This is especially useful when balancing security, privacy, and scalability is difficult.

The multichain method used by Prom is critical for user security and dependability. It boosts the platform's decentralization and broadens its user base by including a larger ecosystem. 

Furthermore, Prom's research on Account Abstraction aims to ease interactions with decentralized apps by reducing some of the complexities often associated with blockchain technology.

Prom.io, an expansion of the Prom platform, targets the NFT market by providing a variety of NFT-related functions. Users may generate, sell, rent, and use NFTs as loan collateral. The platform also provides tools that enable users to engage in governance using the PROM token. 

These features are intended to offer a complete collection of tools for NFT users and makers.

Despite its excellent technical base, Prom.io is a newcomer to the NFT field, hence its community and ecosystem are still under development. It now functions mainly on the Prom Testnet, demonstrating minimal network support. As a young platform, Prom.io is an emerging solution attempting to establish itself in the competitive sector of NFT platforms.

Advances in Multichain Security: The Role of ZK Technology

ZK technology plays a key role in multichain security. Proofs are a major improvement in blockchain security, providing a means for one party to show to another that a particular statement is true without disclosing any extra information other than the authenticity of the statement itself. 

This cryptographic approach is very useful for improving privacy and security in blockchain networks. In multichain security, ZK proofs provide a strong layer of security by allowing transactions to be confirmed without disclosing transaction information.

Introducing ZK technology into multichain designs improves interoperability and security by enabling different blockchains to authenticate transactional data without accessing or revealing the underlying data. This is particularly beneficial in contexts where the secrecy of cross-chain transactions is critical. 

For example, ZK proofs may help with the safe and private validation of transactions across chains, guaranteeing that the data remains secure even if one portion of a transaction is stolen.

The recent use of ZK proofs to secure multichain bridges demonstrates their expanding relevance. Platforms like ZKSync and StarkWare have used ZK proofs to improve the security of their cross-chain transactions. 

These solutions not only reduce the trust needed between interacting blockchains, but they also increase the efficiency of these interactions by lowering the amount of data transmission necessary. 

Such developments demonstrate ZK technology's ability to overcome the security concerns that have long plagued multichain bridges, pointing to a more secure and robust future for Web3 infrastructures.

The Growing Trend of ZK Technology in Web3.

Zero-knowledge (ZK) proofs are increasingly being used in Web3 and emerging as an important trend in blockchain development. Many initiatives use ZK proofs to improve transaction privacy and security, particularly in finance and data verification. The technique is also widely utilized in decentralized exchanges and privacy-focused applications, demonstrating adaptability.

ZK proofs can transform multichain operations by allowing for more scalable and efficient networks. They enable data verification across chains without disclosing the data itself, which reduces bandwidth and storage requirements. Furthermore, ZK proofs might make private cross-chain transactions more acceptable to organizations with stringent data privacy needs, including healthcare and government.

The broad use of ZK technology is critical to the long-term viability of Web3. As blockchains encounter more complicated security concerns, ZK proofs provide a solution for reliable and safe multichain interactions. This adoption improves scalability, privacy, and trust, which encourages more inventive Web3 apps. Industry leaders and developers understand the need to invest in ZK technology to ensure the future of Web3.

Looking Forward

To ensure the future of Web3, it is critical to develop standardized protocols for multichain activities. This guarantees that multiple blockchain networks may operate together effortlessly, which is critical for decentralized apps' general functioning and acceptance.

Strengthening multichain interoperability is critical to preventing fragmentation and probable collapse of the Web3 ecosystem by increasing its resilience and integration.

There is an urgent need for coordination across all Web3 parties. Developers must emphasize interoperability in their projects, users should support platforms allowing multichain capability, and industry leaders must create and adopt standards that ease these interactions. Collective work in these areas will strengthen Web3's basis, making it capable of supporting expansive and long-term development.

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