Prom, a zkEVM modular L2 platform bridging the gap between Non-EVM and EVM worlds through interoperability, recently underwent a rigorous stress test on its Testnet V2. The results of the stress test showcased the resilience of the platform, demonstrating its capability to handle significant loads without any performance issues.
According to Prom, the stress test aimed to simulate real-world conditions by generating a substantial transaction volume over an extended period. The platform successfully maintained an average load of 100,000 daily transactions, totaling nearly 500,000 transfers since the launch of Testnet V2. This milestone highlights Prom’s readiness and scalability for future growth.
As Prom gears up for its mainnet deployment, one of the key challenges during the stress test was managing read requests for Remote Procedure Calls, crucial for the smooth operation of Automated Market Makers. Despite the computational intensity of these read requests, the network efficiently handled them without any degradation in performance, showcasing stability and efficiency.
The successful outcome of the stress test not only validates the network’s resilience but also emphasizes the importance of community engagement in the platform’s development process. With active participation from the community, Prom ensures that the network is well-equipped to meet real-world utility demands and support the increasing popularity of decentralized applications (dApps).
In conclusion, Prom’s latest stress test results underscore its capability and resilience in handling substantial loads, paving the way for a smooth transition to mainnet deployment. The positive engagement from the community further solidifies Prom’s position as a reliable and efficient platform for decentralized applications.