Approaches & Strategies

• Biggest Failures in Security: A variety of problems in achieving IT security and possible strategies to solve them [AVV19]
• Cybersecurity in an era with quantum computers: will we be ready?: Assessment of the risks of quantum computers and their impact on the security of IT systems [M15]
• ETSI - Quantum - Safe Cryptography, Computing Cryptography: The primary objective is to help raise awareness of thepotential impacts of quantum computing on information security globally. This includes a 1) survey of cryptographic principles, 2) the possible impact of quantum computing on their effectiveness 3) what can be done to mitigate the risks in an economically and technically practical manner. [D21]
• Eberbacher Gespräch: Next Generation Crypto: Key challenges forthree groups of industry differently involved in cryptography [KNW18]
• From Pre-Quantum to Post-Quantum IoT Security: A Survey on Quantum-Resistant Cryptosystems for the Internet of Things: Challenges for PQC in IoT and comparison of the performance of PQC algorithms [F20]
• Getting Ready for Post-Quantum Cryptography:: Explore Challenges Associated with Adoption and Use of Post-Quantum Cryptographic Algorithms: Challenges Associated with Adopting and Using Post-Quantum Cryptographic Algorithms [BPS20]
• Identifying Research Challenges in Post Quantum Cryptography Migration and Cryptographic Agility: A wide range of topics and challenges at a high abstraction level grouped into categories of PQC migration and crypto-agility [OPp19]
• Introduction to post-quantum cryptography: Introduction to post-quantum cryptography [B09]
• Kryptografie quantensicher gestalten: Overview of the recent development in quantum technology and recommendations for migration to quantum resistant cryptography [d21]
• Making Existing Software Quantum Safe: Lessons Learned: This paper covers the effect of quantum computer advantage on existing software systems. [ZMR21]
• Managing Cryptographic and Quantum Risk: This document examines two significant risks facing today’s organizations - cryptographic risk and quantum risk [C20]
• Migration strategies and recommendations to Qantum Safe schemes: This report lays out the importance of getting the role of cryptography and the depth of its integration in business better understood. It focuses three stages: Inventory compilation, preparation of the migration plan and migration execution. [E20]
• Migration zu Post-Quanten-Kryptografie - Handlungsempfehlungen des BSI: Recommendations for action on migration to PQC by the BSI (German Federal Office for Information Security) [B20]
• On PQC Migration and Crypto-Agility: A literature survey and a snapshot of the discovered challenges and solutions categorized in different areas offering a single entry-point into the subject reflecting the current state [WAG21]
• On the Role of Hash-based Signatures in Quantum-Safe Internet of Things: Current Solutions and Future Directions: Applications of one of the post-quantum signatures called Hash-Based Signature (HBS) schemes for the security of IoT devices in the quantum era [SHK20]
• On the State of Post-Quantum Cryptography Migration: Survey on the current state of the migration process towards PQ-Secure algorithms [AWG21]
• PQCRYPTO Post-Quantum Cryptography for Long-Term Security: Discusses ongoing standardization activities in the area of post-quantum cryptography. [B18]
• Post Quantum Cryptography: Readiness Challenges and the Approaching Storm: Literature-study article about the upcomming threat of quantum computers against the currently widely used cryptography. [CLO21]
• Post-Quantum Crypto for dummies: Introduction to post-quantum cryptography [WNG18]
• Post-Quantum Cryptography and 5G Security: Tutorial: On advancing the 3GPP 5G standards and NIST post-quantum cryptography standards in tandem, with the goal of launching a “quantum ready” 5G core network [CMC19]
• Post-quantum cryptography: Literature-study of the ongoing development of PQC-schemes and algorithms as well as the ongoing security-scruitiniering of them. [BL17]
• Practical Post-Quantum Cryptography: White paper from the Fraunhofer Institute for Secure Information Technology SIT addressing challenges of PQC migration and comparison of PQC algorithms [NW17]
• Quantencomputerresistente Kryptografie: Aktuelle Aktivitäten und Fragestellungen: A brief evaluation of the current state of both post-quantum and quantum cryptography [HLL21]
• Quantum Advantage and the Y2K Bug: A Comparison: To maintain the cryptoagility of software, we must prepare for the era of quantum advantage now [ZMR21]
• Quantum Safe Cryptography and Security: An introduction, benefits, enablers and challenges: Important use cases for cryptography and potential migration strategies to transition to post-quantum cryptography [CCD15]
• Quantum computers will compromise the security of identity documents: The effects of quantum computers on the securiy of electronic identity documents [E19]
• Quantum-Resistant Cryptography: An overview to security experts who do not yet have a deep understanding of quantumresistant cryptography [MST21]
• Report on Post-Quantum Cryptography: NIST Internal Report of the current state of quantum computers and post-quantum cryptography. [CJL16]
• Sicherheitsrisiko Quantencomputer: Recommendations for post-quanum cryptography [A19]
• SoK: Challenges of Post-Quantum Digital Signing in Real-world Applications: Applications’ signing requirements against all 6 NIST’s post-quantum cryptography contest round 3 candidate algorithms [TSZ19]
• SoK: How (not) to Design and Implement Post-quantum Cryptography: Current state of knowledge on post-quantum cryptography. Trends, common methodologies, and pitfalls to look for and recurrent challenges [HPA21]
• Standardisierung von Post-Quanten-Kryptografie und Empfehlungen des BSI: Overview of the current state of standardization of post Quantum cryptography with respect to the BSI recommendations. [HKW21]
• The Complex Path to Quantum Resistance: Is your organization prepared?: Preparing for the transition from quantum-vulnerable to quantum-resistant technologies [MH21]
• Updates from the Open Quantum Safe Project: The Open Quantum Safe (OQS) project is an open-source project that aims to support the development and prototyping of quantum-resistant cryptography.In this paper, the authors provide an update on the OQS project. [MVB21]
• Zur Integration von Post-Quantum Verfahren in bestehende Softwareprodukte: Field report on the integration of thePQC methods McEliece and SPHINCS+ based on the eUCRITE API [ZWH21]
• [Project Description] Migration to Post-Quantum Cryptography (Draft): NCCoE and NIST Project description for PQC migration [BS21]
• [Project Description] Migration to Post-Quantum Cryptography: This paper complements the NIST post-quantum cryptography (PQC) standardization activities. [BSN21]