Succinct non-interactive arguments (SNARGs) enable verifying NP computations with substantially lower complexity than that required for classical NP verification. In this work, we first construct a lattice-based SNARG candidate with quasi-optimal succinctness (where the argument size is quasilinear in the security parameter). Further extension of our methods yields the first SNARG (from any assumption) that is quasi-optimal in terms of both prover overhead (polylogarithmic in the security parameter) as well as succinctness. Moreover, because our constructions are lattice-based, they plausibly resist quantum attacks. Central to our construction is a new notion of linear-only vector encryption which is a generalization of the notion of linear...
Bilinear pairings have been used in different cryptographic applications and demonstrated to be a ke...
We present a zero-knowledge argument for NP with low communication complexity, low concrete cost for...
Non-interactive zero-knowledge proofs of knowledge for general NP statements are a powerful cryptogr...
We construct a succinct non-interactive publicly-verifiable delegation scheme for any log-space unif...
We construct a succinct non-interactive publicly-verifiable delegation scheme for any log-space unif...
Zero-knowledge SNARKs (zk-SNARKs) are non-interactive proof systems with short (i.e., independent of...
We introduce the first candidate lattice-based Designated Verifier (DV) ZK-SNARK protocol with \emph...
\emph{Succinct non-interactive arguments} (SNARGs) enable verifying NP statements with lower complex...
Succinct arguments allow a prover to convince a verifier of the validity of any statement in a langu...
Non-interactive arguments enable a prover to convince a verifier that a statement is true. Recently ...
This paper introduces Brakedown, the first built system that provides linear-time SNARKs for NP, mea...
Fully Homomorphic Encryption (FHE) is a prevalent cryptographic primitive that allows for computatio...
Succinct non-interactive zero-knowledge arguments of knowledge (zk-SNARKs) are a type of non-interac...
The contributions detailed in this thesis focus on the design and the analysis of Succinct non-inter...
We introduce a new characterization of the NP complexity class, called Quadratic Span Programs (QSPs...
Bilinear pairings have been used in different cryptographic applications and demonstrated to be a ke...
We present a zero-knowledge argument for NP with low communication complexity, low concrete cost for...
Non-interactive zero-knowledge proofs of knowledge for general NP statements are a powerful cryptogr...
We construct a succinct non-interactive publicly-verifiable delegation scheme for any log-space unif...
We construct a succinct non-interactive publicly-verifiable delegation scheme for any log-space unif...
Zero-knowledge SNARKs (zk-SNARKs) are non-interactive proof systems with short (i.e., independent of...
We introduce the first candidate lattice-based Designated Verifier (DV) ZK-SNARK protocol with \emph...
\emph{Succinct non-interactive arguments} (SNARGs) enable verifying NP statements with lower complex...
Succinct arguments allow a prover to convince a verifier of the validity of any statement in a langu...
Non-interactive arguments enable a prover to convince a verifier that a statement is true. Recently ...
This paper introduces Brakedown, the first built system that provides linear-time SNARKs for NP, mea...
Fully Homomorphic Encryption (FHE) is a prevalent cryptographic primitive that allows for computatio...
Succinct non-interactive zero-knowledge arguments of knowledge (zk-SNARKs) are a type of non-interac...
The contributions detailed in this thesis focus on the design and the analysis of Succinct non-inter...
We introduce a new characterization of the NP complexity class, called Quadratic Span Programs (QSPs...
Bilinear pairings have been used in different cryptographic applications and demonstrated to be a ke...
We present a zero-knowledge argument for NP with low communication complexity, low concrete cost for...
Non-interactive zero-knowledge proofs of knowledge for general NP statements are a powerful cryptogr...