October 28, 2024
IBM has recently strengthened its defenses against future quantum threats by introducing its quantum-safe cryptography platform. This move positions IBM as a leader in addressing the potential risks posed by quantum computing.
IBM centers its strategy on crypto-agility, which allows businesses to swiftly switch between cryptographic methods as new security challenges emerge. The company integrates lattice cryptography, using complex geometric structures to provide quantum-resistant security for long-term data protection. Platforms like IBM’s Z16 leverage these advanced algorithms to enhance defenses.
IBM’s 2023-2024 architecture emphasizes the importance of crypto-agility. IBM’s Quantum Safe platform now ensures secure digital infrastructures while enabling organizations to transition smoothly to future cryptographic standards.
By focusing on quantum-resistant technologies, IBM leads the effort to build a secure, quantum-safe digital landscape for the future. Engaging with quantum-resistant blockchain solutions is a vital step in securing the future.
This news blog explores how IBM’s Quantum Safe platform is shaping a quantum-safe future and why businesses must adopt crypto-agility to secure their digital infrastructure.
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Quantum computing poses a significant risk to classical cryptographic systems like RSA. Today’s widely used RSA-2048 encryption, which relies on the difficulty of factoring large prime numbers, is considered secure against classical computers. However, quantum computers will have the capability to break this encryption in a matter of hours. Some studies suggest this could happen as soon as 2029, while others forecast the compromise might occur by 2030 or later. In contrast, classical supercomputers would need an estimated 300 trillion years to break RSA-2048 encryption.
Given this looming threat, organizations must act now to transition to quantum-safe cryptography.
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IBM has made significant upgrades to its Quantum Safe platform by incorporating crypto-agility, which allows businesses to switch between cryptographic methods quickly and seamlessly. A standout feature of this architecture is the network-based cryptographic inventory analysis tool, which identifies vulnerabilities in encryption across an organization’s systems, enabling businesses to prioritize security updates more effectively.
Additionally, IBM’s Guardium Data Security Posture Management (DSPM)) enhances governance by automating cryptographic policy management and integrating with ticketing systems, making the process of updating cryptographic protocols more efficient. This capability positions IBM at the forefront of quantum-safe architecture, offering businesses the agility needed to respond to evolving quantum threats.
The company demonstrates IBM’s commitment to this future-proof approach by its ongoing efforts to migrate over 35,000 critical applications to ensure they are quantum-safe.
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IBM is also a key player in the global effort to develop quantum-safe cryptography standards. As part of the NIST Post-Quantum Cryptography Standardization Process IBM has contributed several leading algorithms. This includes CRYSTALS-Kyber for key encapsulation and CRYSTALS-Dilithium for digital signatures.
NIST, the U.S. National Institute of Standards and Technology, received 82 submissions from organizations vying to create quantum-resistant algorithms.
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Oodles Blockchain provides expert solutions to protect your digital assets with quantum-resistant technologies. Our team specializes in developing secure quantum-safe cryptocurrencies. We integrate advanced algorithms like CRYSTALS-Kyber and CRYSTALS-Dilithium into blockchain platforms. Additionally, we offer custom solutions to build or upgrade quantum-safe infrastructures. Contact our expert blockchain developers today to learn more about implementing quantum-safe technologies and securing your systems for the future.
