Currently, many public chains that claim to 'embrace artificial intelligence' are, in fact, attaching AI interfaces or plugins on top of traditional blockchains. This approach retains the original stateless execution model, with important data still stored off-chain, processed by centralized APIs. This not only brings significant latency but also causes the models to lack continuous contextual memory. Essentially, these 'AI attached chains' simply outsource intelligent functions to off-chain services, lacking genuine on-chain state and reasoning capabilities.
Unlike the aforementioned model, Vanar has designed a blockchain stack specifically serving intelligent agents from the ground up. At the base is Vanar Chain, which is the first modular layer providing security and consensus foundation. Above it is Neutron, which plays the role of 'semantic memory': it compresses raw data into verifiable seeds using neural networks and cryptographic methods, storing them on-chain; the official claim is that this compression ratio can reach 500:1, reducing a 25 MB file to about 50 KB. The third layer, Kayon, provides a reasoning engine on validating nodes, allowing smart contracts and agents to execute natural language queries and semantic reasoning on-chain. The fourth layer, Axon, aims to translate intelligent reasoning into automated on-chain actions and is still under development. The top layer, Flows, encapsulates these functions into industry applications, such as automated workflows for finance or gaming.
Vanar believes that what AI workloads truly need is on-chain state retention, interpretable reasoning, and secure automation. Neutron transforms raw data such as files and contracts into on-chain seeds, which agents can query directly, thereby possessing a memory-like functionality. Kayon supports natural language queries and compliance audits; for example, users can ask: "Which addresses have cross-chain amounts exceeding 1 million dollars in the last 30 days?" The system will generate answers on-chain and provide audit proof. This design avoids reliance on external oracles while embedding compliance logic into the protocol layer, allowing for automatic checks of transaction compliance across different jurisdictions.@Vanarchain #vanar $VANRY
