Microservices architecture powering seamless blockchain gaming at scale.
Migrated a leading play-to-earn crypto gaming platform from a PHP monolith to Node.js and Rust microservices, enhancing blockchain synchronization, reliability, and scalability to handle thousands of transactions per minute.
The client operated a rapidly growing crypto gaming platform that struggled with significant downtime and unreliable performance, failing under high transaction loads and blockchain synchronization requirements. Originally built as a PHP monolith, the system was unable to efficiently handle thousands of transactions per minute, resulting in frequent user frustration and lost revenue opportunities. Further complexity arose due to the tight integration requirements with Near and Polkadot blockchains, necessitating real-time synchronization and NFT generation linked to in-game actions. Existing game frameworks couldn't adequately support high-performance websocket communication, requiring a custom and innovative approach.
0%
Uptime achieved
0+
Transactions per minute supported
~0
months zero-downtime migration completed
