Quantum Security Risks

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  • View profile for Jaime Gómez García

    Global Head of Santander Quantum Threat Program | Chair of Europol Quantum Safe Financial Forum | Quantum Security 25 | Quantum Leap Award 2025 | Representative at EU QuIC, AMETIC

    17,909 followers

    ✏️CEPS (Centre for European Policy Studies) has just published the report "Strengthening the EU transition to a quantum-safe world" This 125-page publication offers a comprehensive and very timely analysis of the global transition toward quantum-safety, highlighting key recommendations and identifying the hurdles that we, as a community, still need to overcome. Accross its 10 general recommendations and 16 additional sector-specific ones, two key aspects take a prominent role: 👉 Operational challenges of the transition, like establishing business-level priorities, building executive support, addressing the limited cryptographic talent issue, cryptographic homogeneization in products, and building cryptographic inventories based on priorities. 👉 Coordination and the role for regulators, identifying that the EU lacks a coherent, unified transition framework, the need to ensure alignment and coherence across roadmaps and the risks of a fragmented transition. Key conclusions on the later, aligned with previous statements from the Europol Quantum Safe Financial Forum and FS-ISAC, is that quantum-safety is already part of the EU's operational resilience compliance through the “state of the art” security principle embedded in GDPR, DORA, CRA and NIS2. However, there is a recognised need for further guidance that can be achieved through open collaboration between the public and private sector. Although the report focuses on the financial, public, and defence sectors, its main takeaways can easily be extended to other critical domains—transport, energy, healthcare, and many more. The principles are the same, and the urgency is the same. This report is an important step forward, and my hope is that the ideas it lays out help shape the conversations and, more importantly, the actions we need across the EU. A well-aligned and coordinated transition is essential if we want the whole ecosystem to move toward a new age where we manage cryptography in a more mature, proactive, and resilient way. Kudos to CEPS, lorenzo pupillo, Carolina Polito, Swann A. and Afonso Ferreira, PhD for achieving this milestone. https://lnkd.in/dpWJ86q2

  • View profile for Rajesh Dhuddu (PhD)

    Partner & Emerging Tech Leader, Leadership Team @CEDA, PWC| Forbes Blockchain 50| Most Inspiring Web 3 Leader| CXO Innovator of the Year| Tedx Speaker| Author| Passionate about Connecting People & Ideas|

    34,932 followers

    Lets Learn #Quantum – Post #16: Post-Quantum Cryptography (PQC) The Invisible Safe: Why Hackers Are Stealing Data They Can't Read Yet The biggest short-term impact of quantum computing isn't what it can create. It is what it can destroy. Right now, our digital world relies on encryption algorithms like RSA to protect banking, emails, and cloud data. Standard supercomputers would take thousands of years to crack them. But quantum computers change the rules. Running Shor’s Algorithm, a quantum computer could break today's encryption in hours. The Threat Happening Right Now Why care today if full-scale quantum computers are still year away? Because cybercriminals are actively executing a strategy known as Harvest Now, Decrypt Later (HNDL). Imagine a thief stealing a locked titanium safe. They cannot open it today, so they hide it in a basement and wait. Years from now, a new tool is invented that pops that safe open instantly. That is HNDL. Bad actors are intercepting and archiving sensitive enterprise data today, waiting for the day a quantum computer can unlock it. If your data needs to remain secret for the next decade, it is already at risk. Enter PQC: Upgrading the Locks Post-Quantum Cryptography (PQC) is the defense. It is a new generation of math shields designed to resist attacks from both conventional and quantum computers. The breakthrough? PQC runs seamlessly on your current servers, smartphones, and cloud platforms. Think of it as swapping out a traditional door lock for a multi-dimensional biometric scanner. The house stays the same; only the lock changes. Instead of traditional math, PQC relies on Lattice-Based Cryptography. Think of it like a maze with thousands of overlapping dimensions instead of two. Even a quantum computer gets completely lost trying to find the exit. The Strategic Reality You cannot swap out the security architecture of a global enterprise overnight. Migrating infrastructure takes years, which is why forward-thinking leaders are already auditing networks and testing PQC algorithms today using a hybrid approach. The quantum threat is not a future IT issue. It is a current strategic risk. The question for leadership is no longer: "When will a quantum computer be built?" The real question is: "Will our data still be secure when it arrives?" #QuantumTechnology #PostQuantumCryptography #PQC #QuantumSecurity #CyberSecurity #QuantumComputing #DigitalTransformation #DataProtection #TechnologyLeadership Co-authored with Atul Tripathi Sundar Ram, Sachin Arora, Himanshu Ghawri, Azizur Rahman, Shivendra singh, Prasun Nandy, Jaydeep Sarkar, Joydeep Roy, Arihant Garg, Amit Kumar, Hetal Shah, Arun Rangaraju, Sayantan Chatterjee, Rajesh Kumar Ojha, Dr. Raghav Manohar Narsalay, Praveen Sasidharan, Sundareshwar K (Sundar), Manu Dwivedi, Venkat Nippani, Himadri Ganguly, Ritesh Jain, Abhijit Chakraborty, Sumit Srivastav, Anit Shanker #soyoucan

  • View profile for Marie-Doha Besancenot

    Senior advisor for Strategic Communications, Cabinet of 🇫🇷 Foreign Minister; #IHEDN, 78e PolDef

    42,015 followers

    🗞️ Needed report By CyberArk on a burning issue : identity security. A decisive element that will determine our ability to restore digital trust. 🔹 « Identity is now the primary attack surface. » Defenders must secure every identity — human and machine 🔹 with dynamic privilege controls, automation, and AI-enhanced monitoring 🔹and prepare now for LLM abuse and quantum disruption. Machine identities are the fastest-growing attack surface 🔹Growth outpaces human identities 45:1. 🔹Nearly half of machine identities access sensitive data, yet 2/3of organizations don’t treat them as privileged. Quantum readiness is urgent 🔹Quantum computing will break today’s cryptography (RSA, TLS, identity tokens). 🔹Transition planning to quantum-safe algorithms must start now, even before standards are finalized. Large Language Models include prompt injection, data leakage, and misuse of AI agents. So organizations must treat them as a new class of machine identity requiring monitoring, access controls, and secrets management. 🧰 What can we do? ⚒️ 1/ Implement Zero Standing Privileges (ZSP) • Remove always-on entitlements; grant access dynamically and just-in-time. • Minimize lateral movement by revoking privileges once tasks are complete 👥2/ Secure the full spectrum of identities • Differentiate controls for workforce, IT, developers, and machines. • Prioritize machine identities: vault credentials, rotate secrets, and eliminate hard-coded keys. 🛡️ 3/ Embed intelligent privilege controls • Apply session protection, isolation, and monitoring to high-risk access. • Enforce least privilege on endpoints; block or sandbox unknown apps. • Deploy Identity Threat Detection & Response (ITDR) for continuous monitoring. ♻️ 4/ Automate identity lifecycle management • Use orchestration to onboard, provision, rotate, and deprovision identities at scale. • Relieve staff from manual tasks, counter skill shortages, and improve compliance readiness. 5/ Align security with business and regulatory drivers • Build an “identity fabric” across IAM, PAM, cloud, SaaS, and compliance. • Tie metrics (KPIs, ROI, cyber insurance conditions) to board-level priorities. 6/ Prepare for next-generation threats • Establish AI/LLM security policies: control access, monitor usage, audit logs. • Begin phased adoption of post-quantum cryptography to protect long-lived sensitive data. Enjoy the read

  • View profile for Marcos Carrera

    💠 Chief Blockchain Officer | Tech & Impact Advisor | Convergence of AI & Blockchain | New Business Models in Digital Assets & Data Privacy | Token Economy Leader

    32,339 followers

    🛡️ The Quantum Clock is Ticking quietly: Is Your Financial Infrastructure Ready? The financial industry is built on a foundation of digital trust, currently secured by #cryptographic standards like RSA and ECC. However, the rise of Cryptographically Relevant Quantum Computers (CRQC) poses an existential threat to this foundation. As we navigate this transition, here are 3 key pillars from the latest Mastercard R&D white paper that every financial leader must prioritize: 1. Addressing the 'Harvest Now, Decrypt Later' (HNDL) Threat 📥 Malicious actors are already intercepting and storing sensitive #encrypted data today, intending to decrypt it once powerful quantum computers are available. Financial Use Case: Protecting long-term assets such as credit histories, investment records, and loan documents. Unlike transient transaction data (which uses dynamic cryptograms), this "shelf-life" data requires immediate risk analysis and the adoption of quantum-safe encryption for back-end systems. 2. Quantum Resource Estimation & The 10-Year Horizon ⏳ While a CRQC capable of breaking RSA-2048 in hours might be 10 to 20 years away, the migration process itself will take years. Financial Use Case: Developing Agile Cryptography Plans. Financial institutions should set "action alarms" for instance, once a quantum computer reaches 10,000 qubits, a pre-prepared 10-year migration plan must be triggered to ensure infrastructure is updated before the "meteor strike" occurs. 3. Hybrid Implementations: The Bridge to Security 🌉 The transition won't happen overnight. The paper highlights the importance of Hybrid Key Encapsulation Mechanisms (KEM), which combine classical security with PQC. Financial Use Case: Enhancing TLS 1.3 and OpenSSL 3.5 protocols. By implementing hybrid models now, banks can protect against current quantum threats (like HNDL) while maintaining compatibility with existing classical systems, ensuring a smooth and safe transition. The Bottom Line: A reactive approach is no longer an option. Early adopters who evaluate their data's "time value" and begin the migration today will be the ones to maintain resilience and protect global financial assets tomorrow. #QuantumComputing #PostQuantumCryptography #FinTech #CyberSecurity #DigitalTrust #MastercardResearch

  • View profile for Usman Asif

    Access 2000+ software engineers in your time zone | Founder & CEO at Devsinc

    234,246 followers

    Three weeks ago, our Devsinc security architect, walked into my office with a chilling demonstration. Using quantum simulation software, she showed how RSA-2048 encryption – the same standard protecting billions of transactions daily – could theoretically be cracked in just 24 hours by a sufficiently powerful quantum computer. What took her classical computer billions of years to attempt, quantum algorithms could solve before tomorrow's sunrise. That moment crystallized a truth I've been grappling with: we're not just approaching a technological evolution; we're racing toward a cryptographic apocalypse. The quantum computing market tells a story of inevitable disruption, surging from $1.44 billion in 2025 to an expected $16.22 billion by 2034 – a staggering 30.88% CAGR that signals more than market enthusiasm. Research shows a 17-34% probability that cryptographically relevant quantum computers will exist by 2034, climbing to 79% by 2044. But here's what keeps me awake at night: adversaries are already employing "harvest now, decrypt later" strategies, collecting our encrypted data today to unlock tomorrow. For my fellow CTOs and CIOs: the U.S. National Security Memorandum 10 mandates full migration to post-quantum cryptography by 2035, with some agencies required to transition by 2030. This isn't optional. Ninety-five percent of cybersecurity experts rate quantum's threat to current systems as "very high," yet only 25% of organizations are actively addressing this in their risk management strategies. To the brilliant minds entering our industry: this represents the greatest cybersecurity challenge and opportunity of our generation. While quantum computing promises revolutionary advances in drug discovery, optimization, and AI, it simultaneously threatens the cryptographic foundation of our digital world. The demand for quantum-safe solutions will create entirely new career paths and industries. What moves me most is the democratizing potential of this challenge. Whether you're building solutions in Silicon Valley or Lahore, the quantum threat affects us all equally – and so does the opportunity to solve it. Post-quantum cryptography isn't just about surviving disruption; it's about architecting the secure digital infrastructure that will power humanity's next chapter. The countdown has begun. The question isn't whether quantum will break our current security – it's whether we'll be ready when it does.

  • View profile for Sudiptaa Paul Choudhury CMO, Independent Director, Board Advisor

    Global, Strategic, Impactful Marketing & Brand Leader | TEDx & Keynote Speaker | IIM-C | Ex-Intuit, Ericsson, Oracle, HP, EMC | AI, Digital Marketing Leader | GTM, ABM, Content Strategy, Writing,CRM, Marketing Automation

    8,135 followers

    Happy to see my article has been published at ABP Live on "Beyond AI: Why Quantum-Safe #Cryptography Is a Business Imperative in 2025" The alarming rise in cyberattacks—both in India and globally—makes one thing painfully clear: traditional encryption is no longer enough. In India alone, businesses stand to lose ₹20,000 crore this year, while global cybercrime costs are projected to reach $13.82 trillion by 2028. Even worse? The impending quantum era threatens to render our current cryptographic systems obsolete. Technologies like RSA, which power everything from internal communications to critical external collaborations, are vulnerable to quantum-enabled decryption. So what must businesses do right now? Embrace Quantum-Safe Messaging: Opt for end-to-end encrypted platforms designed to withstand quantum attacks, especially for communications with clients, partners, and vendors. Follow Standards and Best Practices: NIST has already rolled out the first wave of Post-Quantum Cryptography (PQC) standards—like ML-KEM for encryption and ML-DSA for digital signatures. Think Strategically, Not Just Tactically: Transitioning to PQC is more than a technical upgrade—it’s a strategic initiative. Build governance, crypto-agility, and roadmap planning into your cybersecurity strategy. What the world is doing: - Europe aims to migrate to quantum-safe encryption by 2030, starting with risk assessments and awareness campaigns in 2026 - The UK’s NCSC is urging organizations to begin full migration planning by 2028 and complete it by 2035 - Setting an example in the private sector, it has integrated post-quantum encryption into its WireGuard and Lightway protocols using NIST’s ML-KEM algorithm Reports from India’s BFSI sector show a worrying lack of readiness—yet almost 58% of CISOs recognize the threat within the next three years Key takeaway: Quantum-safe cryptography isn’t a futuristic concept—it’s a present-day necessity. The threat of "store now, decrypt later" attacks means the data we transmit today may be vulnerable tomorrow. Waiting isn’t an option Whether you’re in BFSI, government, telecoms, or healthcare, the time to act is now. Let’s lead the shift toward a secure quantum future. #QuantumSafe #Cybersecurity #PostQuantumCryptography #CryptoAgility #DigitalTrust #QuantumReady #QNulabs QNu Labs

  • View profile for Michal Krelina

    Quantum in Defence, Security and Space | CTO at QuDef | Researcher at SIPRI

    4,415 followers

    👉 Recently, my work on #quantum #technology and its impacts on international security was published at SIPRI. Here, I would like to highlight my observations and recommendations. I would like to point out the main observations and recommendations, especially covering: 🔸High-resolution magnetic and gravity data sets will become strategic assets 🔸Quantum decryption capabilities may widen intelligence asymmetries between states with different levels of technological advancement 🔸The strategic impact of quantum will depend on its integration with other technologies, not on quantum systems alone 🔸Dual-use quantum development will accelerate and attempts to fully separate civilian and military pathways are unlikely to succeed 🔸National self-sufficiency in quantum technologies is unrealistic—international cooperation is necessary for resilience and innovation 🔸There is a growing need for dedicated institutions to assess the peace and security implications of quantum technologies 🔸Malicious or illicit use of quantum technologies by non-state actors is likely to emerge over time

  • View profile for Rich Campagna

    SVP Products, Palo Alto Networks

    18,388 followers

    Quantum computing is moving from "science fiction" to "business reality" faster than most predicted. Two recent papers have fundamentally shifted the timeline for when we need to care about Quantum-Safe security: 1️⃣ The "10,000 Qubits" Milestone: New research shows that we can execute Shor’s algorithm—the math that breaks today’s encryption—with far fewer resources than previously thought. By using reconfigurable atomic qubits, the hardware requirements for cracking RSA-2048 have dropped by nearly 20x. 2️⃣ The "9-Minute" Crypto Warning: Google’s latest whitepaper highlights a terrifying reality for digital assets. Under advanced quantum scenarios, the encryption protecting a cryptocurrency wallet could be cracked in under 10 minutes. This puts billions in "dormant" assets at immediate risk of "at-rest" attacks. The Bottom Line: The "Q-Day" window is shrinking. It’s no longer about if a quantum computer can break your encryption, but when your current migration timeline will run out. How do we respond? We can't just flip a switch on "Q-Day." For many organizations, becoming quantum safe is a multi-year journey. This is where Palo Alto Networks Quantum-Safe Security comes in. Instead of a manual, multi-year overhaul, we provide a path to Agentic Resilience: - Continuous Discovery: It automatically maps your "cryptographic bill of materials" (CBOM), identifying exactly where vulnerable RSA and ECC algorithms are hiding in your network. - Risk Prioritization: It correlates your encryption strength with business criticality, telling you exactly which high-value assets need to move to Post-Quantum Cryptography (PQC) first. - Real-Time Remediation: For legacy systems that can’t be easily upgraded, a "Quantum-Safe Proxy" re-encrypts vulnerable traffic into post-quantum algorithms (like ML-KEM) at the network edge. The transition to a quantum-safe future is a marathon, but the starting gun has already fired. Learn how to take your first steps at the link in the comments.

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