⚫Protocol Specifications

The LzKP Bridge is an L1 bridging solution whose Unique Selling Point (USP) is true and absolute interoperability orchestration.

Using Zero Knowledge Proofs: zk-SNARKs

For effective and concise zero-knowledge proofs, Linkd zKP makes use of zk-SNARKs (Zero-Knowledge Succinct Non-Interactive Arguments of Knowledge).

By using these cryptographic constructions, a prover can persuade a verifier that they have specific information without disclosing the specifics. Because zk-SNARKs are compact, there is little computational overhead.

Multi-Party Computation (MPC): A Secure Cross-Chain Communication Method

Linkd zKP uses Multi-Party Computation (MPC) to enable safe cross-chain communication. Several parties can collaboratively compute a function over their inputs while maintaining the privacy of those inputs thanks to this cryptographic approach.

MPC guarantees the security and confidentiality of cross-chain transactions within Linkd zKP.

Homomorphic Encryption for Transactions Protecting Privacy

Homomorphic Encryption is integrated into Linkd zKP for transactions that protect privacy. Through the use of cryptography, encrypted data can be computed without first needing to be decrypted.

Linkd zKP improves user privacy by using homomorphic encryption to guarantee the confidentiality of transactional data.

The architecture of Cross-Chain Bridges: Hash Time-Locked Programs (HTLPs)

Asset transfers between blockchains are made possible via Hash Time-Locked Programs (HTLCs), which are the foundation of Linkd zKP's cross-chain bridge architecture. By enforcing the parameters of the swap and making sure that all parties comply, HTPCs facilitate trustless transactions.

See a full list of supported networks for our protocol here.