I was inspired by Pavel Durov's new project — Cocoon, a decentralized confidential compute network on the TON blockchain. He announced it at Blockchain Life 2025, and we are eagerly awaiting the release.
The network points toward a new kind of internet: no centralized clouds, no administrators peeking into data, and no single switch that breaks everything.
While the launch is still ahead, we are already exploring how these technologies can amplify our ecosystem and enrich our dialogue experiences.
That is how the idea of a future trust and privacy layer — VeraX — emerged.
A trust layer verified by code
The trust layer we are developing inside our team will embed privacy and access management into Mini Apps powered by Unitee.Space. Inspired by this network, we want every user to control the AI infrastructure through verifiable code rather than promises.
Why centralized AI must evolve
Classic AI services keep every dataset on a single vendor's servers. It feels convenient until a breach happens or an outsider gets access. That model contradicts the way we define trust. We are building this layer so that people rely on an auditable architecture instead of closed infrastructure, with every operation logged and limited.
How the trust layer connects Cocoon and TON
The layer acts as a bridge between three components: compute across the Cocoon network, the TON blockchain, and the Unitee.Space interface. The network delivers private GPU processing without exposing the content of a request. TON Blockchain handles identity and micropayments, while Telegram Mini Apps become the front-end for AI dialogues.
The orchestrator authorizes and finalizes every session. We are already designing the rules that define who can trigger processing, who can view results, and how long access remains valid.
Scenario in practice
Imagine a person who wants to explore a private archive of messages without uploading it to an external cloud. The system makes it possible:
- the user encrypts the dataset locally and prepares a protected container for confidential compute;
- the trust layer defines the access policy: keys owned only by the user and a limited validity window;
- the request runs on independent GPU nodes without revealing its content;
- TON validates micropayments and settlement, then returns the result directly to the user;
- the orchestrator records the fact of access while keeping the content private.
The scenario opens the door to Telegram Mini Apps where trust, privacy, and control work together without compromise.
What the layer unlocks for the ecosystem
The VeraX architecture is not a standalone product. It will strengthen the digital personas, archives, and intelligent modules we build. Every data owner should keep the keys, the request history, and visibility into who can interact with their AI portrait.
The combination of this roadmap and the project editorial work reflects our trust principles described in our ethics article. We are preparing follow-up stories about Telegram Mini Apps and decentralized intelligence to show how these layers converge into one system.
What VeraX × Unitee.Space will deliver
Today Unitee.Space helps companies assemble Mini Apps with CRM, payments, and learning flows. Adding the VeraX layer will enable controlled access to data and models where users own their keys and interaction history. Trust-by-design will appear right inside the Telegram interface.
Where we are heading next
VeraX remains a concept, yet it already guides Evera's roadmap. We are moving from centralized platforms toward architectures where ethics and privacy are encoded directly. Once Cocoon launches, we will know how to take the next step and turn trust into a verifiable practice.
Short announcement for the project Telegram channel: https://evera.world/blog/verax?utm_source=telegram&utm_medium=post&utm_campaign=verax_launch