Scalable testnet for Ethereum-compatible dApps
Access QuarkChain Devnet Shard 1 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 | - - | - - |
debug_getTrieFlushInterval | Low | 1 | - - | - - |
debug_storageRangeAt | Low | 1 | - - | - - |
debug_traceBlock | Low | 1 | - - | - - |
debug_traceBlockByHash | Low | 1 | - - | - - |
debug_traceBlockByNumber | Low | 1 | - - | - - |
debug_traceCall | Low | 1 | - - | - - |
debug_traceTransaction | Low | 1 | - - | - - |
eth_accounts | Low | 1 | $3.00/M $6.00/M | - - |
eth_blobBaseFee | Low | 1 | $3.00/M $6.00/M | - - |
QuarkChain Devnet Shard 1 is a testnet shard of the QuarkChain blockchain, identified by chain ID 110002 and short name qkc-d-s1. It utilizes QKC as its native currency, with 18 decimal places. This shard is part of QuarkChain's two-layered architecture, which includes a root chain and multiple shard chains, enabling high throughput and scalability.
Developers can interact with QuarkChain Devnet Shard 1 through various RPC endpoints. The network also provides a block explorer, allowing users to monitor transactions and block information.
QuarkChain's architecture supports Ethereum-compatible smart contracts, enabling developers to deploy and interact with contracts using familiar tools. However, it's important to note that smart contracts on QuarkChain currently support in-shard interactions only, meaning they can only access addresses within the same shard.
As a testnet environment, QuarkChain Devnet Shard 1 is primarily used for development and testing purposes, allowing developers to build and test decentralized applications (dApps) without the risks associated with the mainnet. This setup facilitates experimentation and debugging in a controlled environment before deploying applications to the mainnet.
