Usenix Security 23 Zksaas Zero

Media Summary: Two Shuffles Make a RAM: Improved Constant Overhead Howard Wu UC Berkeley Abstract: Recently there has been much academic and industrial interest in practical implementations of ...

Usenix Security 23 Zksaas Zero - Detailed Analysis & Overview

Two Shuffles Make a RAM: Improved Constant Overhead Howard Wu UC Berkeley Abstract: Recently there has been much academic and industrial interest in practical implementations of ...

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USENIX Security '23 - zkSaaS: Zero-Knowledge SNARKs as a Service

USENIX Security '23 - Eos: Efficient Private Delegation of zkSNARK Provers

USENIX Security '23 - ZBCAN: A Zero-Byte CAN Defense System

USENIX Security '23 - Cheesecloth: Zero-Knowledge Proofs of Real World Vulnerabilities

USENIX Security '23 - Curve Trees: Practical and Transparent Zero-Knowledge Accumulators

USENIX Security '16 - ZKBoo: Faster Zero-Knowledge for Boolean Circuits

USENIX Security '23 - Dubhe: Succinct Zero-Knowledge Proofs for Standard AES and relate...

USENIX Security '21 - Mystique: Efficient Conversions for Zero-Knowledge Proofs with Applications...

USENIX Security '24 - Two Shuffles Make a RAM: Improved Constant Overhead Zero Knowledge RAM

USENIX Security '24 - ZKSMT: A VM for Proving SMT Theorems in Zero Knowledge

USENIX Security '22 - Experimenting with Collaborative zk-SNARKs: Zero-Knowledge Proofs for

USENIX Security '24 - Practical Security Analysis of Zero-Knowledge Proof Circuits

View Detailed Profile

USENIX Security '23 - zkSaaS: Zero-Knowledge SNARKs as a Service

USENIX Security '23 - zkSaaS: Zero-Knowledge SNARKs as a Service

USENIX Security

USENIX Security '23 - Eos: Efficient Private Delegation of zkSNARK Provers

USENIX Security '23 - Eos: Efficient Private Delegation of zkSNARK Provers

USENIX Security

USENIX Security '23 - ZBCAN: A Zero-Byte CAN Defense System

USENIX Security '23 - ZBCAN: A Zero-Byte CAN Defense System

USENIX Security

USENIX Security '23 - Cheesecloth: Zero-Knowledge Proofs of Real World Vulnerabilities

USENIX Security '23 - Cheesecloth: Zero-Knowledge Proofs of Real World Vulnerabilities

USENIX Security

USENIX Security '23 - Curve Trees: Practical and Transparent Zero-Knowledge Accumulators

USENIX Security '23 - Curve Trees: Practical and Transparent Zero-Knowledge Accumulators

USENIX Security

USENIX Security '16 - ZKBoo: Faster Zero-Knowledge for Boolean Circuits

USENIX Security '16 - ZKBoo: Faster Zero-Knowledge for Boolean Circuits

ZKBoo: Faster

USENIX Security '23 - Dubhe: Succinct Zero-Knowledge Proofs for Standard AES and relate...

USENIX Security '23 - Dubhe: Succinct Zero-Knowledge Proofs for Standard AES and relate...

USENIX Security

USENIX Security '21 - Mystique: Efficient Conversions for Zero-Knowledge Proofs with Applications...

USENIX Security '21 - Mystique: Efficient Conversions for Zero-Knowledge Proofs with Applications...

USENIX Security

USENIX Security '24 - Two Shuffles Make a RAM: Improved Constant Overhead Zero Knowledge RAM

USENIX Security '24 - Two Shuffles Make a RAM: Improved Constant Overhead Zero Knowledge RAM

Two Shuffles Make a RAM: Improved Constant Overhead

USENIX Security '24 - ZKSMT: A VM for Proving SMT Theorems in Zero Knowledge

USENIX Security '24 - ZKSMT: A VM for Proving SMT Theorems in Zero Knowledge

ZKSMT: A VM for Proving SMT Theorems in

USENIX Security '22 - Experimenting with Collaborative zk-SNARKs: Zero-Knowledge Proofs for

USENIX Security '22 - Experimenting with Collaborative zk-SNARKs: Zero-Knowledge Proofs for

USENIX Security

USENIX Security '24 - Practical Security Analysis of Zero-Knowledge Proof Circuits

USENIX Security '24 - Practical Security Analysis of Zero-Knowledge Proof Circuits

Practical

USENIX Security '18 - DIZK: A Distributed Zero Knowledge Proof System

USENIX Security '18 - DIZK: A Distributed Zero Knowledge Proof System

Howard Wu UC Berkeley Abstract: Recently there has been much academic and industrial interest in practical implementations of ...