Related papers: Preparing for the Post Quantum Era: Quantum Ready Architecture for Security and Risk Management (QUASAR) -- A Strategic Framework for Cybersecurity

Preparing for the Post Quantum Era: Quantum Ready Architecture for Security and Risk Management (QUASAR) -- A Strategic Framework for Cybersecurity

URL: http://arxiv.org/abs/2505.17034v1
Date: Wed, 07 May 2025 18:08:48 GMT
Title: Preparing for the Post Quantum Era: Quantum Ready Architecture for Security and Risk Management (QUASAR) -- A Strategic Framework for Cybersecurity
Authors: Abraham Itzhak Weinberg,
Abstract summary: Traditional cryptographic systems face the threat of obsolescence due to the capabilities of quantum algorithms.<n>This paper introduces the Quantum-Ready Architecture for Security and Risk Management (QUASAR)<n>QUASAR provides a structured approach to transition from current cryptographic systems to quantum-resistant alternatives.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: As quantum computing progresses, traditional cryptographic systems face the threat of obsolescence due to the capabilities of quantum algorithms. This paper introduces the Quantum-Ready Architecture for Security and Risk Management (QUASAR), a novel framework designed to help organizations prepare for the post-quantum era. QUASAR provides a structured approach to transition from current cryptographic systems to quantum-resistant alternatives, emphasizing technical, security, and operational readiness. The framework integrates a set of actionable components, a timeline for phased implementation, and continuous optimization strategies to ensure ongoing preparedness. Through performance indicators, readiness scores, and optimization functions, QUASAR enables organizations to assess their current state, identify gaps, and execute targeted actions to mitigate risks posed by quantum computing. By offering a comprehensive, adaptable, and quantifiable strategy, QUASAR equips organizations with the tools necessary to future-proof their operations and secure sensitive data against the impending rise of quantum technologies.

Related papers

Performance and Storage Analysis of CRYSTALS Kyber as a Post Quantum Replacement for RSA and ECC [49.1574468325115]
CRYSTALS-Kyber is a post-quantum cryptographic solution standardized by NIST in 2022.<n>This study evaluates Kyber's practical viability through performance testing across various implementation schemes.
arXiv Detail & Related papers (2025-08-03T09:53:45Z)
Next-Generation Quantum Neural Networks: Enhancing Efficiency, Security, and Privacy [3.9554540293311864]
This paper addresses key challenges in developing reliable and secure Quantum Neural Networks (QNNs) in the Noisy Intermediate-Scale Quantum (NISQ) era.<n>We present an integrated framework that leverages and combines existing approaches to enhance QNN efficiency, security, and privacy.
arXiv Detail & Related papers (2025-07-28T05:43:02Z)
VQC-MLPNet: An Unconventional Hybrid Quantum-Classical Architecture for Scalable and Robust Quantum Machine Learning [60.996803677584424]
Variational Quantum Circuits (VQCs) offer a novel pathway for quantum machine learning.<n>Their practical application is hindered by inherent limitations such as constrained linear expressivity, optimization challenges, and acute sensitivity to quantum hardware noise.<n>This work introduces VQC-MLPNet, a scalable and robust hybrid quantum-classical architecture designed to overcome these obstacles.
arXiv Detail & Related papers (2025-06-12T01:38:15Z)
Provably Robust Training of Quantum Circuit Classifiers Against Parameter Noise [49.97673761305336]
Noise remains a major obstacle to achieving reliable quantum algorithms.<n>We present a provably noise-resilient training theory and algorithm to enhance the robustness of parameterized quantum circuit classifiers.
arXiv Detail & Related papers (2025-05-24T02:51:34Z)
Performance Analysis and Industry Deployment of Post-Quantum Cryptography Algorithms [0.8602553195689513]
The National Institute of Standards and Technology (NIST) has selected CRYSTALS-Kyber and CRYSTALS-Dilithium as standardized PQC algorithms for secure key exchange and digital signatures.<n>This study conducts a comprehensive performance analysis of these algorithms by benchmarking execution times across cryptographic operations.<n>Our findings demonstrate that Kyber and Dilithium achieve efficient execution times, outperforming classical cryptographic schemes such as RSA and ECDSA at equivalent security levels.
arXiv Detail & Related papers (2025-03-17T09:06:03Z)
Strategic Roadmap for Quantum- Resistant Security: A Framework for Preparing Industries for the Quantum Threat [0.0]
This paper outlines a strategic roadmap for industries to anticipate and mitigate the risks posed by quantum attacks. By presenting a structured timeline and actionable recommendations, this roadmap with proposed framework prepares industries with the essential strategy to safeguard their potential security threats in the quantum computing era.
arXiv Detail & Related papers (2024-11-15T06:59:41Z)
A Security Assessment tool for Quantum Threat Analysis [34.94301200620856]
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 insecure transit. This work developed a quantum assessment tool for organizations, providing tailored recommendations for transitioning their security protocols into a post-quantum world.
arXiv Detail & Related papers (2024-07-18T13:58:34Z)
Evaluation Framework for Quantum Security Risk Assessment: A Comprehensive Strategy for Quantum-Safe Transition [0.03749861135832072]
The rise of large-scale quantum computing poses a significant threat to traditional cryptographic security measures. Quantum attacks undermine current asymmetric cryptographic algorithms, rendering them ineffective. This study explores the challenges of migrating to quantum-safe cryptographic states.
arXiv Detail & Related papers (2024-04-12T04:18:58Z)
Potential and limitations of quantum extreme learning machines [55.41644538483948]
We present a framework to model QRCs and QELMs, showing that they can be concisely described via single effective measurements. Our analysis paves the way to a more thorough understanding of the capabilities and limitations of both QELMs and QRCs.
arXiv Detail & Related papers (2022-10-03T09:32:28Z)
DQC$^2$O: Distributed Quantum Computing for Collaborative Optimization in Future Networks [54.03701670739067]
We propose an adaptive distributed quantum computing approach to manage quantum computers and quantum channels for solving optimization tasks in future networks. Based on the proposed approach, we discuss the potential applications for collaborative optimization in future networks, such as smart grid management, IoT cooperation, and UAV trajectory planning.
arXiv Detail & Related papers (2022-09-16T02:44:52Z)
Circuit Symmetry Verification Mitigates Quantum-Domain Impairments [69.33243249411113]
We propose circuit-oriented symmetry verification that are capable of verifying the commutativity of quantum circuits without the knowledge of the quantum state. In particular, we propose the Fourier-temporal stabilizer (STS) technique, which generalizes the conventional quantum-domain formalism to circuit-oriented stabilizers.
arXiv Detail & Related papers (2021-12-27T21:15:35Z)

This list is automatically generated from the titles and abstracts of the papers in this site.