After a test campaign with over 25 million transactions from two million wallets, Polygon-based Prom launched its mainnet to boost blockchain scalability.
Prom, a state-of-the-art blockchain platform, has successfully launched its eagerly anticipated mainnet. With this launch, the protocol has established a new standard for the rapid and efficient implementation of blockchain solutions.
This platform employs sophisticated zero-knowledge proofs (ZK-Proofs) to facilitate more efficient, secure, and cost-effective transactions. Intriguingly, this intelligent approach addresses critical blockchain scalability and security issues, thereby promoting a broader adoption.
Advantages of the Prom Mainnet Launch
Launching the mainnet is a critical step for Prom following the successful testnet phase. The testnet phase of the network saw the completion of more than 25 million transactions and the interaction with more than 2 million unique wallets.
These figures indicate that Prom’s infrastructure is highly resilient and that the blockchain community is becoming more interested in efficient and scalable solutions.
Additionally, the Prom mainnet launch is a significant enhancement to blockchain systems. Scalability remains a substantial concern, frequently resulting in high fees and slow transaction times during peak periods. Prom’s design can effectively address these issues, guaranteeing a seamless user experience as the network expands.
The successful testnet phase is a testament to the readiness of Prom’s ecosystem for real-world applications. The network can process a substantial volume of transactions securely and promptly. This capacity underscores its potential to promote innovation in various sectors, such as gaming, Decentralized Finance (DeFi), and others.
The development and utilization of scalable blockchain solutions are anticipated to be stimulated by the mainnet launch of Prom as it advances. Prom is on the brink of becoming a significant player in the blockchain industry due to its robust performance and advanced technology.
Developing a Stable zkEVM Architecture
Numerous pioneers are driving change in the scaling ecosystem beyond Prom. Polygon Labs introduced its most recent technology earlier this year: a Type 1 Ethereum Virtual Machine (zkEVM) prover that uses zero knowledge.
This component enables the launch of new solutions powered by zk-proofs for Ethereum EVM-compatible protocols. Consequently, the aggregation layer enables any protocol to effortlessly connect with Polygon’s broader ecosystem, eliminating the need to fork the network.
Furthermore, Polygon’s zkEVM prover provides compatibility with Type 2 zkEVMs at a reduced cost.
In the interim, the Polygon blockchain has yet to introduce this architectural concept. In August of last year, Risc Zero introduced Zeth, a “Type 0” zkEVM. Zeth is a programming language that is versatile and similar to the EVM.
Type 0 zkEVMs allow developers to customize and adjust their zero-knowledge stack by various networks, including Solana, in contrast to Type 1 zkEVMs. Last year, Cronos Labs became a part of an expanding network of services that are working to enhance the scalability of Ethereum by constructing and launching off-chain networks. You may recall this.
According to Cronos, the Cronos zkEVM Chain testnet’s launch is a substantial milestone in pursuing mainstream adoption and scalability. Cronos collaborated with Matter Labs to execute its objectives. This is particularly noteworthy. Cronos confirmed that the chain “possesses one of the lowest fees” among all layer 2 rollups. However, the startup intends to reduce expenses further.
Prom can model its solutions over time to compete in the market, as there are existing innovators in the industry.