Zama is a cryptography-focused company and Web3 infrastructure project developing privacy-preserving technologies for blockchain applications using fully homomorphic encryption (FHE). The project aims to enable confidential smart contracts and decentralized applications that can process encrypted data on public blockchains without revealing sensitive information.

Overview

Zama focuses on advancing privacy in decentralized systems by making fully homomorphic encryption practical and accessible for blockchain developers. FHE allows computations to be performed directly on encrypted data, ensuring that inputs, states, and outputs remain confidential even during execution on public networks.

Within the crypto ecosystem, Zama is positioned as an infrastructure and cryptography provider rather than a consumer-facing application. Its technology is designed to support a wide range of use cases, including decentralized finance, identity, gaming, governance, and enterprise blockchain applications that require strong data confidentiality.

History and Background

Zama was founded by researchers and engineers with backgrounds in applied cryptography and secure computation. The project was established to address a fundamental limitation of public blockchains, namely that transparency, while valuable, often conflicts with privacy requirements for sensitive user data and business logic.

Since its founding, Zama has focused on improving the performance and usability of fully homomorphic encryption, a technology historically considered too slow or complex for real-world applications. By optimizing cryptographic primitives and building developer-friendly tooling, Zama has worked to bridge the gap between advanced cryptography research and production-grade blockchain systems.

Core Technology and Products

• Fully Homomorphic Encryption (FHE): Zama’s core technology enables computation on encrypted data, allowing smart contracts to operate without exposing private information.
• Confidential Smart Contracts: Infrastructure that allows developers to deploy smart contracts with encrypted state and private execution logic.
• Developer Libraries and Tooling: Software development kits and frameworks designed to abstract cryptographic complexity and simplify integration with blockchain environments.
• EVM and Blockchain Compatibility: Zama’s technology is designed to integrate with existing smart contract platforms, including EVM-based chains, to support privacy-preserving decentralized applications.

Use Cases and Applications

Zama’s privacy-preserving infrastructure enables a range of blockchain use cases that are difficult to implement on fully transparent networks. In decentralized finance, confidential smart contracts can support private balances, transactions, and trading strategies. In identity and governance systems, encrypted data can protect user credentials and voting choices while maintaining verifiability.

Other potential applications include on-chain gaming with hidden game states, enterprise blockchain workflows involving sensitive business data, and regulated financial products that require confidentiality alongside auditability.

Ecosystem and Token Considerations

As of its current development stage, Zama is primarily focused on infrastructure and technology rather than promoting a widely used consumer cryptocurrency. Its work centers on enabling privacy-preserving computation for blockchain networks and applications. Any future tokenization or network-level economic model would likely be tied to securing and incentivizing the operation of confidential computation within decentralized environments.

Developers and partners engaging with Zama’s ecosystem primarily interact with its software tools, cryptographic libraries, and integration frameworks.

Market Position

Zama operates within the privacy and infrastructure segment of the crypto market, alongside other projects exploring zero-knowledge proofs, secure computation, and encryption-based privacy solutions. Its focus on fully homomorphic encryption differentiates it from zero-knowledge-based approaches by enabling arbitrary computation on encrypted data rather than selective disclosure.

This positioning makes Zama particularly relevant for applications that require both complex on-chain logic and strong data confidentiality.

Risks and Considerations

Fully homomorphic encryption remains a computationally intensive technology, and performance trade-offs may affect scalability and cost compared to traditional smart contracts. Adoption depends on continued optimization, developer uptake, and integration with major blockchain platforms.

Additionally, regulatory expectations around privacy, encryption, and data access may influence how privacy-preserving blockchain technologies are deployed across jurisdictions. Developers and users should evaluate these factors when building or interacting with applications powered by Zama’s technology.