Decentralized GPU computing with lightning-fast finality
Access OpenGPU Mainnet through our unified RPC API with 56 supported methods. Benefit from intelligent routing across multiple providers, real-time node health monitoring, and optimized performance with economy and performance routing strategies. Get started with instant API access and transparent pricing.
Daily in-sync status by provider over 30 days for this chain.
Daily replay correctness by provider over 30 days for this chain.
Method | Usage | Providers | Price | Latency (p50) |
|---|---|---|---|---|
debug_getBadBlocks | Low | 1 | $3.00/M $6.00/M | - - |
debug_getTrieFlushInterval | Low | 1 | $3.00/M $6.00/M | - - |
debug_storageRangeAt | Low | 1 | $3.00/M $6.00/M | - - |
debug_traceBlock | Low | 1 | $3.00/M $6.00/M | - - |
debug_traceBlockByHash | Low | 1 | $3.00/M $6.00/M | - - |
debug_traceBlockByNumber | Low | 1 | $3.00/M $6.00/M | - - |
debug_traceCall | Low | 1 | $3.00/M $6.00/M | - - |
debug_traceTransaction | Low | 1 | $3.00/M $6.00/M | - - |
eth_accounts | Low | 1 | $3.00/M $6.00/M | - - |
eth_blobBaseFee | Low | 1 | $3.00/M $6.00/M | - - |
OpenGPU Mainnet is a Layer 1 blockchain network designed to facilitate decentralized GPU computing. Launched on March 30, 2025, it utilizes the Lachesis DAG-based consensus protocol, enabling sub-second finality and a throughput of approximately 10,000 transactions per second. The network is EVM-compatible, allowing developers to use standard Ethereum tools and smart contracts.
The native currency, OGPU, serves as the gas for all transactions and is used for task payments within the network. Participants stake OGPU tokens to engage in the network, with staking requirements ensuring credibility and accountability among providers and clients.
OpenGPU Mainnet is optimized for high-frequency task settlement, handling around ten thousand task events per second without congestion. It records task results, provider reputation, and network state, ensuring the routing layer has an up-to-date view of network activities.
The network's block time is under one second, and it is optimized for task receipts and provider updates. Its high throughput design allows it to handle numerous parallel tasks without creating backlogs.
