@Vanar is often categorized as a smart contract blockchain, but that label undersells what it is trying to become.
Rather than acting as a passive ledger, Vanar is designed as an active coordination layer one that stores experiences, enables constant micro-value transfer, and connects digital environments with real world systems. Its ambition is to support a future where AI agents, games, finance, and physical assets interact continuously and autonomously.
Memory as infrastructure, not storage
Traditional blockchains freeze information into permanent records. Vanar treats information as experience. Through its Neutron engine, rich media such as video, audio, or complex interaction data can be compressed by AI into extremely small on-chain representations called seeds. A large 4K video can be distilled into a short character string while preserving enough intelligence to reconstruct the content later.
This approach keeps the chain lightweight while allowing applications to embed contextual memory directly into transactions. Instead of a transaction merely proving that something happened, it can carry a condensed version of what happened. A tokenised event ticket, for example, can include a replayable memory of the performance itself rather than just a proof of attendance.
AI agents as first-class citizens
Sitting above the memory layer is myNeutron, released in late 2025. It enables users to create personal AI agents that act on their behalf across applications, games, and services. These agents reference historical interactions, owned assets, achievements, and preferences, allowing them to provide personalised decisions and actions rather than generic responses.
These are operational agents, not conversational toys. They can execute smart-contract interactions, manage assets, coordinate recurring micro-payments, and use historical memory for context-aware decision making. In an ecosystem where AI agents increasingly transact with each other, a blockchain designed around agent behaviour becomes essential infrastructure.
Fast, predictable, and fair economics
For a blockchain to serve as a payment backbone, it must be fast, affordable, and predictable. Vanar achieves this through a hybrid Proof-of-Authority and Proof-of-Reputation model. Early validation is handled by the foundation, with progressive decentralisation as community validators are introduced. Reputation is influenced by staking, historical performance, and community feedback.
Transactions settle quickly—blocks are produced every three seconds—and fees are fixed rather than auction-based. Each transaction costs a fraction of a cent, regardless of network congestion. This eliminates gas wars, simplifies cost forecasting, and makes real-time gaming and continuous micro-transactions viable.
Environmental impact is treated as a design constraint rather than a branding exercise. The network operates on carbon-neutral infrastructure and offsets remaining emissions, aligning long-term viability with environmental responsibility.
Tokenomics designed for alignment
Vanar’s ecosystem is powered by the VANRY token. Supply is capped at 2.4 billion, with half allocated to migrating legacy tokens and the rest released gradually over two decades. New issuance primarily rewards validators, with smaller allocations for development and community incentives.
Notably, there is no team token allocation. Developers succeed only if the ecosystem succeeds. Block rewards decline over time, encouraging early participation while supporting long-term scarcity. The result is a system where validators secure the network, developers build tools and applications, and users benefit from low fees and accessible participation.
Beyond gaming: linking digital and physical value
While Vanar originates from the gaming and metaverse space, its scope extends far beyond it. Built alongside the Virtua ecosystem and fully compatible with Ethereum tooling, applications can be deployed without rewriting contracts. Fast finality and low fees enable real-time asset exchange—items, achievements, and in-game economies can move instantly.
Decentralised finance, cross-chain bridges, and lending infrastructure are part of the roadmap, but the most transformative direction is real-world asset tokenisation. Integrations with payment providers such as Worldpay aim to bring compliant stablecoin settlement and AI-driven payments into everyday economic flows.
This enables use cases like automated energy payments via smart meters, fractional ownership of carbon credits, or continuous settlement of physical services—all made possible by predictable fees, sustainability, and AI-native design.
A modular, layered stack
Vanar is not positioned as a replacement for Ethereum but as an extension layer. Smart contracts run in an EVM-compatible environment. Neutron handles AI compression and memory logic. Off-chain storage manages large data, while bridges connect to Ethereum, Polygon, and other networks. AI and machine-learning systems integrate directly into application workflows.
Rather than competing at the base layer, Vanar operates as connective tissue—adding memory, intelligence, and agent-driven interaction to existing blockchain ecosystems.
A living digital economy
Vanar’s ecosystem includes users, developers, validators, AI agents, and tokenised physical assets, all interacting through a single infrastructure. AI agents manage assets and services, validators secure and govern the network, developers build applications, and real-world assets are bridged through regulated gateways.
Speed alone is not the objective. Vanar aims to create living infrastructure—where memory is verifiable, agents are autonomous, payments are continuous, and sustainability is embedded by design. By combining AI memory, fixed-cost transactions, hybrid consensus, and real-world connectivity, Vanar positions itself as foundational infrastructure for future digital economies.