Media Summary: Gorjan Alagic (University of Maryland and NIST); Andrew M. Childs (University of Maryland); Alex B. Grilo (CWI and QuSoft); ... Thibault Michel (ANU Canberra, Paris 6); Jing Yan Haw (ANU Canberra, NUS Singapore); Davide G. Marangon (U. Padova); ... Recent work, including ZKBoo, ZKB++, and Ligero, has developed efficient

Qcrypt 2020 Non Interactive Classical - Detailed Analysis & Overview

Gorjan Alagic (University of Maryland and NIST); Andrew M. Childs (University of Maryland); Alex B. Grilo (CWI and QuSoft); ... Thibault Michel (ANU Canberra, Paris 6); Jing Yan Haw (ANU Canberra, NUS Singapore); Davide G. Marangon (U. Padova); ... Recent work, including ZKBoo, ZKB++, and Ligero, has developed efficient Paper by Gorjan Alagic, Andrew M. Childs, Alex B. Grilo, Shih-Han Hung presented at TCC Contributed Talk 9 by Dominique Unruh at 5th International Conference on Quantum Cryptography ( Gorjan Alagic (QuICS, University of Maryland, NIST); Zvika Brakerski (Weizmann Institute of Science); Yfke Dulek (QuSoft; ...

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QCrypt 2020: Non-interactive classical verification of quantum computation
QCrypt 2020: Real-Time Self-Testing Quantum Random Number Generator with Non-classical States
QCrypt 2020 - Tuesday, 11 August 2020
Improved Non-Interactive Zero Knowledge with Applications to Post-Quantum Signatures
QCrypt 2020 - Friday, 14 August 2020
QCrypt 2020 - Monday, 10 August 2020
Non-interactive classical verification of quantum computation
Dominique Unruh - Non-interactive zero-knowledge proofs in the quantum random oracle model
QCrypt 2021: Tutorial by Umesh Vazirani: Classical proofs of quantumness
QCrypt 2020: Opening
QCrypt 2020: Impossibility of Quantum Virtual Black-Box Obfuscation of Classical Circuits
QCrypt 2020: Succinct Blind Quantum Computation Using a Random Oracle
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QCrypt 2020: Non-interactive classical verification of quantum computation

QCrypt 2020: Non-interactive classical verification of quantum computation

Gorjan Alagic (University of Maryland and NIST); Andrew M. Childs (University of Maryland); Alex B. Grilo (CWI and QuSoft); ...

QCrypt 2020: Real-Time Self-Testing Quantum Random Number Generator with Non-classical States

QCrypt 2020: Real-Time Self-Testing Quantum Random Number Generator with Non-classical States

Thibault Michel (ANU Canberra, Paris 6); Jing Yan Haw (ANU Canberra, NUS Singapore); Davide G. Marangon (U. Padova); ...

QCrypt 2020 - Tuesday, 11 August 2020

QCrypt 2020 - Tuesday, 11 August 2020

second day of

Improved Non-Interactive Zero Knowledge with Applications to Post-Quantum Signatures

Improved Non-Interactive Zero Knowledge with Applications to Post-Quantum Signatures

Recent work, including ZKBoo, ZKB++, and Ligero, has developed efficient

QCrypt 2020 - Friday, 14 August 2020

QCrypt 2020 - Friday, 14 August 2020

last day of

QCrypt 2020 - Monday, 10 August 2020

QCrypt 2020 - Monday, 10 August 2020

4:33 opening https://

Non-interactive classical verification of quantum computation

Non-interactive classical verification of quantum computation

Paper by Gorjan Alagic, Andrew M. Childs, Alex B. Grilo, Shih-Han Hung presented at TCC

Dominique Unruh - Non-interactive zero-knowledge proofs in the quantum random oracle model

Dominique Unruh - Non-interactive zero-knowledge proofs in the quantum random oracle model

Contributed Talk 9 by Dominique Unruh at 5th International Conference on Quantum Cryptography (

QCrypt 2021: Tutorial by Umesh Vazirani: Classical proofs of quantumness

QCrypt 2021: Tutorial by Umesh Vazirani: Classical proofs of quantumness

https://2021.

QCrypt 2020: Opening

QCrypt 2020: Opening

https://

QCrypt 2020: Impossibility of Quantum Virtual Black-Box Obfuscation of Classical Circuits

QCrypt 2020: Impossibility of Quantum Virtual Black-Box Obfuscation of Classical Circuits

Gorjan Alagic (QuICS, University of Maryland, NIST); Zvika Brakerski (Weizmann Institute of Science); Yfke Dulek (QuSoft; ...

QCrypt 2020: Succinct Blind Quantum Computation Using a Random Oracle

QCrypt 2020: Succinct Blind Quantum Computation Using a Random Oracle

Jiayu Zhang (Boston University)

QCrypt 2020: Contributed Talks 2b: Device independence: theory and experiment

QCrypt 2020: Contributed Talks 2b: Device independence: theory and experiment

https://