The growing reliance on blockchain data in fields such as finance, governance, and artificial intelligence has introduced a new challenge: how to access, interpret, and utilise this data efficiently.
While the amount of publicly available blockchain data continues to expand, its fragmented nature across multiple chains makes it difficult to use effectively.
Chainbase presents a practical response to this issue by offering a unified infrastructure designed to make blockchain data more accessible, structured, and suitable for complex applications such as AI and analytics.
By removing unnecessary barriers to blockchain data usage, Chainbase lays the groundwork for more informed and reliable decision-making across sectors.
What is Chainbase?
Chainbase is a decentralised data network that allows users to index, transform, and query blockchain data in a verifiable and efficient manner.
It is neither a smart contract platform nor a traditional database. Instead, it provides a purpose-built infrastructure layer that enables applications to utilise blockchain data without being constrained by the technical differences between chains.
At the core of Chainbase is the concept of Manuscripts, modular programmes that convert raw blockchain data into structured datasets.
These Manuscripts are deployed on the Chainbase Virtual Machine (CVM), which runs within a secure and decentralised computing environment.
By defining a standard format for data transformation, Manuscripts allow data from different chains to be used consistently across applications.
Chainbase supports both data producers and consumers. Developers can contribute Manuscripts and earn rewards when others use them, while users can access datasets through simple queries and only pay for the information they retrieve.
All interactions are transparent, and the system is designed to support a wide variety of use cases without requiring deep knowledge of each underlying blockchain.
What Can It Be Used For?
Chainbase is built to serve developers, analysts, and organisations that depend on up-to-date and consistent data from multiple blockchain ecosystems.
Its flexible architecture makes it suitable for several practical applications:
Wallets
Chainbase allows wallets to display multi-chain assets in one interface. Users no longer need to rely on different explorers or back-end providers, as the data is processed uniformly regardless of the chain it originates from.
Security
With access to historical and real-time blockchain data, developers can build tools that monitor suspicious behaviour, analyse contract interactions, or track anomalies across chains. Security alerts can be delivered quickly and with clear evidence.
AI Applications
Chainbase is designed to support AI agents by providing structured, verifiable data inputs. Whether for training models or powering on-chain decision-making, access to clean and consistent datasets makes AI use more reliable and less prone to errors caused by inconsistent inputs.
DeFi
DeFi applications can use Chainbase to aggregate lending rates, TVL, and user interactions across protocols and chains. This supports more accurate dashboards, automated strategies, and risk analysis tools.
Social and Community Tools
Platforms that focus on Web3 social features can use Chainbase to build cross-chain identity profiles, reputation systems, and messaging features. The data is fetched in a consistent format and supports real-time updates.
Infrastructure
Chainbase acts as a neutral, permissionless layer for other protocols to build on. Its Manuscript system allows data to be processed on demand, making it suitable for dashboards, governance portals, and analytic services.
This breadth of usage is already reflected in the numbers: more than 24,000 projects and over 25,000 developers are actively using Chainbase, generating over 240 million queries daily.
How Does Its Infrastructure Work?
The Chainbase network is made up of several layers, each designed to perform a specific function and work together reliably.
Execution Layer
The Execution Layer hosts the CVM and is responsible for processing Manuscripts. This environment supports parallel computing, which improves efficiency when handling large datasets.
It is powered by EigenLayer, which provides decentralised computing resources and additional staking security. Operators in the network register on EigenLayer and contribute compute power in exchange for rewards.
Consensus Layer
Consensus is handled through CometBFT, which allows for quick finality. Once data is processed and included in a block, it is confirmed and cannot be reversed. This ensures data remains reliable and up to date, which is critical for applications such as analytics and AI.
Data Accessibility Layer
This layer supports both streaming and batch data access, allowing developers to choose the format that suits their use case.
Storage options include Lakehouse, Arweave, IPFS, and S3. Proof mechanisms, including zk-proofs and other consensus-based checks, are used to ensure that all data accessed through the network is accurate.
Dual-Chain Architecture
A key feature of Chainbase is its dual-chain structure. It separates data execution and consensus functions across two environments, Cosmos and EigenLayer.
This design helps maintain high throughput and strong security without making compromises. A shared staking pool ensures that both performance and integrity are rewarded fairly.
Manuscripts and the CVM Interface
Developers use the CVM Interface to write, test, and publish Manuscripts. These scripts define how data should be transformed and allow others to query the resulting datasets.
The system is language-flexible and supports SQL, TypeScript, and Python, making it accessible to developers from different backgrounds.
The $C Tokenomics
The $C token is the native currency of the Chainbase network and is used to coordinate data queries, incentivise network participants, and support ongoing development.
Query Fees
Users who wish to access datasets pay in $C. The payment is distributed as follows:
- 80% goes to Operators and their delegators.
- 15% is allocated to the Manuscript developer.
- 5% is burned, reducing the total supply.
Operator Incentives
15% of the total $C supply is reserved for Operator Pools over six years, with 2% unlocked annually. These rewards are allocated based on the amount and quality of data processing provided by Operators.
Validator Rewards
Validators receive block rewards from a fixed inflation of 2% annually. Their role is to maintain the network’s consensus, verify transactions, and ensure uptime.
Delegators
Delegators can stake either $C or supported LSTs, such as stETH, to Validators and Operators. In return, they earn a share of the rewards generated by these participants. Delegators also contribute to the network’s economic security and governance.
Inflation Controls and Utility
Annual inflation is capped at 3% to maintain long-term value. Utility is maintained through continuous demand: users require $C to access data, and contributors require it for rewards. This ensures that $C remains relevant to all stakeholders in the system.
Future Plans and Governance
Chainbase continues to develop under a roadmap known as Aquamarine, which follows its initial Zircon phase. Some of the key priorities include:
Mainnet Launch
The full mainnet deployment marks a major milestone, turning Chainbase into a fully operational and decentralised data layer.
AI Tooling
A new suite of tools is being introduced to support AI agents. These include language SDKs, data wrappers, and automatic routing for Manuscripts based on application needs.
Data Zone Initialisation
Datasets are being categorised into zones to improve query performance and relevance. This is particularly useful for sector-specific applications such as DeFi or gaming.
Governance and CIPs
Chainbase follows a proposal-driven governance model. The Chainbase Improvement Proposal (CIP) process allows contributors to submit technical suggestions, which are discussed and implemented based on consensus and demonstrated value. There are no rigid voting structures, contributions are evaluated by the quality of execution.
Decentralisation and Transparency
All products are being open-sourced progressively, and a public explorer is in development to allow users to track data activity, network performance, and governance proposals in real time.
Conclusion
Chainbase has introduced a practical, decentralised infrastructure for making blockchain data easier to access and use.
By standardising data with Manuscripts and supporting them through a high-performance dual-chain architecture, Chainbase offers developers, analysts, and AI systems a better way to work with on-chain information.
With thoughtful incentives, reliable security, and a strong governance model, it is well-positioned to support the next wave of blockchain applications built on data, not speculation.