What is zkPass? It is a decentralized privacy oracle that converts private Web2 data into verifiable proofs.

zkPass: Core Positioning and Design Philosophy

(Source: zkPass)

zkPass positions itself as a private data oracle. Its primary focus isn't putting data on-chain, but enabling cryptographic proof of data authenticity. By combining zero-knowledge cryptography with transport layer verification, zkPass allows information from traditional networks to be trusted and utilized by on-chain applications—without exposing sensitive content. This approach directly addresses Web3’s critical gap in real-world data verification.

Unlike OAuth, APIs, or centralized data providers, zkPass operates without relying on authorization keys or intermediaries. Users can generate verifiable proofs for any HTTPS website directly, enabling true user-centric data sovereignty.

zkTLS: The Foundational Technology Bridging Web2 and Web3

zkPass is built on zkTLS, an encryption architecture that extends traditional TLS communications into a three-party model. By integrating 3P-TLS and hybrid zero-knowledge proof systems, zkTLS guarantees data source authenticity while ensuring no third party can access the original content.

All proofs are generated locally on the user’s device or browser—data is never uploaded or leaked. This ensures privacy protection is not just a design principle, but a technical guarantee.

From Private Data to Verifiable Facts

zkPass supports a wide range of data sources and use cases, including legal identity, financial records, medical information, social and behavioral data, educational and career backgrounds, as well as digital account and asset proofs. Users can selectively disclose only the required attributes, rather than sharing entire data sets.

This verification method lets users prove their identity, ownership, or eligibility without relying on third-party trust—cryptography itself serves as the proof mechanism.

Hybrid Model and VOLE-ZK Architecture

In its protocol design, zkPass adopts a hybrid model that combines Proxy Mode and MPC Mode, allowing flexible adaptation to various server environments and network constraints without sacrificing security or performance. Its zero-knowledge proof mechanism is built on VOLE-in-the-Head (VOLEitH) technology, paired with SoftSpokenOT, enabling proof generation in milliseconds while maintaining public verifiability. This delivers both efficiency and decentralized security in real-world applications.

Bridging Public and Private Data

zkPass specifically addresses the disconnect between “public but not personalized” and “private but hard to verify” data. With encrypted proofs, private data can be verified without disclosure, enabling secure integration into composable and interoperable digital ecosystems. This design not only complies with privacy regulations, but also lays a practical foundation for cross-system and cross-industry data collaboration.

Scalability Across Diverse Use Cases

zkPass applications span identity and compliance verification, finance and governance, reputation and achievements, industry data, AI and the data economy, DePIN, supply chains, government services, content authenticity, and cross-ecosystem integration. All these scenarios require both authenticity and confidentiality.

Tokenomics

zkPass’s tokenomics are designed for long-term network security, community engagement, and sustainable ecosystem growth. The community receives the largest allocation—about 48.5%. Of this, 12.5% unlocks at TGE, with the rest released in stages: some linearly over the first three months, and the remainder monthly over the long term. This ensures incentives scale with ecosystem growth. These tokens primarily support ecosystem initiatives, including verifiable airdrops, network incentives, community sales, exchange-related marketing, and strategic partnerships.

Early investors are allocated approximately 22.5%, subject to a 12-month lock-up followed by 18 months of linear release, reflecting a commitment to long-term partners and shared risk. Core contributors receive 14%, with a longer vesting schedule: a 24-month cliff, then 24 months of linear release, ensuring long-term alignment for technical development and network operations teams.

The DAO treasury holds 10% of the total supply, distributed linearly over five years for governance, ecosystem grants, long-term development, and emergency reserves—reinforcing protocol resilience under decentralized governance. Finally, 5% of tokens unlock fully at TGE, dedicated to market liquidity and network launch to ensure stable initial trading and user experience.

zkPass’s tokenomics balance launch efficiency with long-term stability. A clear unlock schedule reduces short-term sell pressure and establishes a solid foundation for sustained protocol growth.

(Source: zkPass)

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Summary

zkPass is redefining how data earns trust. Rather than making data easier to share, it enables verification and usage without disclosure. Leveraging zkTLS, VOLE-ZK, and decentralized verification, zkPass creates a mathematically based trust layer between Web2 and Web3—making privacy and trust compatible as foundational elements of digital infrastructure.