Radio
Now Playing
Quickyla Radio โ€” Click to play
Open โ†’
3 min left
Back to News

Peter Shorโ€™s algorithm could break the internet โ€“ but he's not worried

Few people have invented an algorithm with the potential to spark a worldwide crisis, so why is quantum computing pioneer Peter Shor so unconcerned? Karmela Padavic-Callaghan spoke to him to find out

Peter Shorโ€™s algorithm could break the internet โ€“ but he's not worried
New Scientist โ€” 7 July 2026
Text:
15 0 0

Few people have invented an algorithm with the potential to spark a worldwide crisis, so why is quantum computing pioneer Peter Shor so unconcerned? K

Read Full Story at New Scientist โ†’
โšก Quickyla Analysis Original editorial context โ€” not sourced from the article above

Why This Matters

The intersection of Peter Shorโ€™s foundational quantum algorithm and the fragility of modern encryption systems isnโ€™t just a technical curiosityโ€”itโ€™s a ticking clock for global cybersecurity. His work threatens to unravel decades of cryptographic infrastructure overnight, exposing vulnerabilities that nations and corporations have only recently begun to grapple with. The fact that Shor himself remains unconcerned speaks volumes about the misalignment between theoretical breakthroughs and practical preparedness, revealing a critical gap in how we prioritize and mitigate existential technological risks.

Background Context

Shorโ€™s algorithm, developed in 1994, demonstrated that a sufficiently powerful quantum computer could factor large integers exponentially faster than classical machinesโ€”effectively cracking widely used encryption standards like RSA. Yet despite its theoretical menace, the algorithmโ€™s real-world impact has been muted by the glacial pace of quantum hardware development and the cryptographic communityโ€™s slow but growing adaptation to post-quantum encryption methods. Meanwhile, governments and corporations continue to rely on systems built for a pre-quantum era, gambling with billions in digital infrastructure.

What Happens Next

Expect an acceleration in the migration to quantum-resistant encryption, but not before a period of heightened exposure to state-sponsored hacking and cyber espionage. The lag between Shorโ€™s warning and widespread implementation of safeguards could create a window of vulnerability, particularly as quantum advancements outpace defensive measures. Watch for regulatory mandates in critical sectors like finance and defense, as well as a scramble among tech giants to patent post-quantum cryptographic solutions before the market consolidates.

Advertisement
React:
Sources
Sponsored

More to Read

Suzanne Simard finds mother trees sustain forests via fungaโ€ฆ
๐Ÿ”ฌ Science
Suzanne Simard finds mother trees sustain forests via fungal networks
Inside Climate News ยท 11 days ago
NASA rover finds signs of past water and life on Mars
๐Ÿ”ฌ Science
NASA rover finds signs of past water and life on Mars
Live Science ยท 11 days ago
Cold metal fuses in space, NASA and SpaceX act
๐Ÿ”ฌ Science
Cold metal fuses in space, NASA and SpaceX act
Live Science ยท 10 days ago
Anthropic resumes Mythos 5 use after U.S. restrictions
๐Ÿ›๏ธ Politics
Anthropic resumes Mythos 5 use after U.S. restrictions
The Verge ยท 11 days ago
Canada's Marsch praises history-making World Cup 'heroes'
โš”๏ธ War & Conflict
Canada's Marsch praises history-making World Cup 'heroes'
Yahoo Sports ยท 9 days ago
Why Copart Stock Stumbled Today
โš”๏ธ War & Conflict
Why Copart Stock Stumbled Today
Nasdaq News ยท 8 days ago
Full view