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Open initiative of industry and academia to standardize zero knowledge proofs.
ZKProof Standards is an open initiative of industry and academia focused on standardizing zero knowledge proofs (ZKPs). ZKPs allow a prover to validate a statement to a verifier without revealing any additional information. Originally developed in the late 80s, ZKPs have evolved to incorporate more efficient, non-interactive variants (NIZKs). The initiative encourages collaborative efforts to advance cryptographic standards and practical applications, promoting privacy, security, and efficiency in the burgeoning field.
ZKProof Standards is an open initiative of industry and academia focused on standardizing zero knowledge proofs (ZKPs). ZKPs allow a prover to validate a statement to a verifier without revealing any additional information. Originally developed in the late 80s, ZKPs have evolved to incorporate more efficient, non-interactive variants (NIZKs). The initiative encourages collaborative efforts to advance cryptographic standards and practical applications, promoting privacy, security, and efficiency in the burgeoning field.
ZKProof Standards aims to create a common framework for zero knowledge proofs (ZKPs) by collaborating with industry and academia. The initiative seeks to standardize ZKPs to facilitate their practical applications, ensuring privacy, security, and efficiency.
Zero knowledge proofs allow a prover to convince a verifier of a statement's truth without revealing any additional information. They have evolved to include non-interactive variants (NIZKs), which do not require interaction between parties, enhancing privacy and efficiency.
ZKPs are vital for ensuring privacy in cryptographic systems. They allow for the verification of statements without disclosing data, offering a balance between privacy and verifiability, which is crucial for secure, efficient digital transactions and communications.
ZKProof Standards fosters collaboration among researchers, developers, and businesses to advance cryptographic standards. By creating standardized frameworks for ZKPs, the initiative promotes their integration into various applications, driving innovation and security advancements.
Standardizing ZKPs can lead to broader adoption, improved interoperability, and enhanced security across different platforms. It enables various industries to implement ZKP solutions more efficiently, facilitating the creation of privacy-preserving applications.
ZKProof encourages participation from researchers, developers, and practitioners in its standardization efforts. The initiative invites various stakeholders to contribute, fostering a collaborative environment that accelerates advancements in zero knowledge proof technology.
Discover how Zero-Knowledge Proofs work and their applications in enhancing security and privacy on https://zkp.science/.
Applied ZK offers workshops on Zero-Knowledge Proofs, teaching both theory and practical use to foster adoption in the blockchain ecosystem.
Stake & Support ZKP Research with ZKV for enhanced privacy and blockchain infrastructure.
The future of identity proofs and transaction onboarding.
Zero Knowledge Summit
Workshops, puzzles and zero knowledge events hosted by Zero Knowledge Validator and Zero Knowledge Podcast.
Accelerate the advancement of zero-knowledge prover technology with over $7M in prizes and community collaboration.
Auditing and Development for Ethereum/Blockchain Projects.
RISC Zero develops ZKVM for private smart contracts, leveraging zero-knowledge proofs for secure, decentralized apps without compromising data privacy.
zCloak Network enhances Polkadot and Kusama ecosystems with Zero-Knowledge Proof as a Service (ZKPaaS), allowing data verification without exposure. It boosts privacy and scalability in Web 3.0 with solutions like zkID Login.
zkMe is transforming web3 with its zk Identity Oracle, enabling secure, anonymous user verifications on-chain using zero-knowledge proofs. It aims to create a zk-credential layer, enhancing privacy while proving identity without revealing personal data.
Verifiable random function enabled by ZKP for secure, unbiased, and verifiable randomness onchain.
