Prom, a zkEVM modular L2 linking Non-EVM and EVM worlds via interoperability, has recently experienced a stress test. In line with the statistics that Prom provided, the recent rigorous stress test of Prom appears as a resilient part of the platform’s Testnet V2, with the results signifying that the system thereof is resilient along with the capability to tackle substantial loads with no performance issues.
Stress Test Results
— Prom (@prom_io) September 14, 2024
Community, we thank you all for participating and showing immense activity.
We’re happy to announce that our network successfully withstood the load during the Stress Test while maintaining the average high load of 100,000 daily transactions and hitting… pic.twitter.com/MlZp5q5REN
Prom’s Latest Stress Test Sees it Tackling 500,000, Denoting the platform’s capability and resilience
According to Prom, the stress test targeted simulating real-world conditions. In this respect, it generated a significant transaction volume over a sustained time. The network of Prom reportedly maintained a remarkable average load equaling 100,000 daily transfers. Hence, it reached a cumulative amount of nearly 500,000 transfers since Testnet V2’s launch. This development highlights the preparedness and scalability for more growth.
At present, the platform is getting ready for the mainnet deployment thereof. One of the chief challenges during the respective test took into account the read requests for Remote Procedure Calls. These are important for Automated Market Maker’s smooth functioning. Such read requests appear computationally heavy. Even then, the network efficiency tackled them without performance degradation, signifying stability and efficiency.
The Positive Results from the Stress Test Include Substantial Community Engagement
The successful stress test proves the network’s resilience but additionally underlines the significance of the participation of the community in the development procedure. With this community engagement, Prom guarantees that the network is ready to deal with real-world utility and can back the heightening demand for dApps.