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Main Authors: Halak, Basel, Csete, Cristian Sebastian, Joyce, Edward, Papaioannou, Jack, Pires, Alexandre, Soma, Jin, Gokkaya, Betul, Murphy, Michael
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.13523
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author Halak, Basel
Csete, Cristian Sebastian
Joyce, Edward
Papaioannou, Jack
Pires, Alexandre
Soma, Jin
Gokkaya, Betul
Murphy, Michael
author_facet Halak, Basel
Csete, Cristian Sebastian
Joyce, Edward
Papaioannou, Jack
Pires, Alexandre
Soma, Jin
Gokkaya, Betul
Murphy, Michael
contents The rapid advancement of quantum computing poses a significant threat to many current security algorithms used for secure communication, digital authentication, and information encryption. A sufficiently powerful quantum computer could potentially exploit vulnerabilities in these algorithms, rendering data in transit insecure. This threat is expected to materialize within the next 20 years. Immediate transition to quantum-resilient cryptographic schemes is crucial, primarily to mitigate store-now-decrypt-later attacks and to ensure the security of products with decade-long operational lives. This transition requires a systematic approach to identifying and upgrading vulnerable cryptographic implementations. This work developed a quantum assessment tool for organizations, providing tailored recommendations for transitioning their security protocols into a post-quantum world. The work included a systematic evaluation of the proposed solution using qualitative feedback from network administrators and cybersecurity experts. This feedback was used to refine the accuracy and usability of the assessment process. The results demonstrate its effectiveness and usefulness in helping organizations prepare for quantum computing threats. The assessment tool is publicly available at (https://quantum-watch.soton.ac.uk).
format Preprint
id arxiv_https___arxiv_org_abs_2407_13523
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Security Assessment tool for Quantum Threat Analysis
Halak, Basel
Csete, Cristian Sebastian
Joyce, Edward
Papaioannou, Jack
Pires, Alexandre
Soma, Jin
Gokkaya, Betul
Murphy, Michael
Cryptography and Security
Computers and Society
The rapid advancement of quantum computing poses a significant threat to many current security algorithms used for secure communication, digital authentication, and information encryption. A sufficiently powerful quantum computer could potentially exploit vulnerabilities in these algorithms, rendering data in transit insecure. This threat is expected to materialize within the next 20 years. Immediate transition to quantum-resilient cryptographic schemes is crucial, primarily to mitigate store-now-decrypt-later attacks and to ensure the security of products with decade-long operational lives. This transition requires a systematic approach to identifying and upgrading vulnerable cryptographic implementations. This work developed a quantum assessment tool for organizations, providing tailored recommendations for transitioning their security protocols into a post-quantum world. The work included a systematic evaluation of the proposed solution using qualitative feedback from network administrators and cybersecurity experts. This feedback was used to refine the accuracy and usability of the assessment process. The results demonstrate its effectiveness and usefulness in helping organizations prepare for quantum computing threats. The assessment tool is publicly available at (https://quantum-watch.soton.ac.uk).
title A Security Assessment tool for Quantum Threat Analysis
topic Cryptography and Security
Computers and Society
url https://arxiv.org/abs/2407.13523