Smart Flow Lab  |  Technology Analysis

Quantum Leap

By Mohamed Ismaili  •  May 21, 2026  •  Senior Technology Analyst

Quantum computing threatens modern encryption standards

Quantum Leap — Smart Flow Lab

The rapid advancement of quantum computing has significant implications for various industries, particularly in the realm of cryptography and cybersecurity. As Scientific American recently noted, quantum computing could lead to revolutions in cryptography, materials design, and telecommunications, but fulfilling those promises could be many years away. However, the potential threat to modern encryption standards is a pressing concern that requires immediate attention. According to Scientific American, quantum computers could potentially solve problems that are currently unsolvable with traditional computers, which could have a significant impact on the security of online transactions and communication.

Background

The development of quantum computing has been gaining momentum in recent years, with significant investments being made by tech giants and governments alike. The potential benefits of quantum computing are vast, ranging from breakthroughs in medical research to improvements in optimization problems. However, the potential risks associated with quantum computing, particularly in the realm of cryptography, cannot be ignored. As SiliconANGLE News reported, the rise of agentic AI and on-premises AI deployments is forcing enterprises to think about security at the hardware level, which is a critical aspect of quantum computing. According to Intel, hardware trust is at the center of enterprise security, and this is particularly important in the context of quantum computing.

Current Developments

Recent developments in the field of quantum computing have significant implications for modern encryption standards. As PR Newswire UK reported, IBM has announced the general availability of IBM Sovereign Core, which is designed to help enterprises, governments, and service providers operationalize digital sovereignty with continuous compliance and control across hybrid environments. This is a significant development, as it highlights the importance of digital sovereignty in the context of quantum computing. Some of the key developments in the field of quantum computing include:

• Advances in quantum hardware, such as the development of more powerful quantum processors
• Improvements in quantum software, such as the development of more efficient quantum algorithms
• Increased investment in quantum computing research and development, particularly in the realm of cryptography and cybersecurity

As SiliconANGLE News noted, Veeam Software Group GmbH has debuted new features that will make it easier for enterprises to back up their records and protect them from hackers, which is a critical aspect of quantum computing security.

"Quantum computing has the potential to revolutionize the field of cryptography, but it also poses a significant threat to modern encryption standards. As such, it is essential for enterprises to think about security at the hardware level and to invest in quantum-resistant cryptography." — Senior analyst, cybersecurity sector

What's Next

As the development of quantum computing continues to advance, it is essential for enterprises to think about the potential implications for modern encryption standards. According to Scientific American, quantum computers could potentially solve problems that are currently unsolvable with traditional computers, which could have a significant impact on the security of online transactions and communication. As such, it is critical for enterprises to invest in quantum-resistant cryptography and to think about security at the hardware level. As SiliconANGLE News reported, the rise of agentic AI and on-premises AI deployments is forcing enterprises to think about security in a new way, and this is particularly important in the context of quantum computing. Ultimately, the development of quantum computing has the potential to revolutionize the field of cryptography, but it also poses a significant threat to modern encryption standards, and as such, it requires immediate attention and investment from enterprises and governments alike.

📰 Sources & References

• Which problems will quantum computers solve—and when? — Scientific American, 2026-05-19
• Three insights you might have missed from theCUBE’s coverage of the ‘Securing the AI Factory’ event — SiliconANGLE News, 2026-05-13
• Veeam introduces new backup management, cybersecurity features — SiliconANGLE News, 2026-05-13
• As agentic AI moves on-prem, Intel puts hardware trust at the center of enterprise security — SiliconANGLE News, 2026-05-07
• Think 2026: IBM Makes Digital Sovereignty Operational with General Availability of IBM Sovereign Core — PR Newswire UK, 2026-05-05

Mohamed Ismaili
Senior Technology Analyst at Smart Flow Lab — covering AI systems, semiconductor markets, cybersecurity, and digital infrastructure policy. Based in Morocco.

Editorial Note: This analysis is based on publicly available industry information and recent news sources. All opinions expressed are those of the author.

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