quantum computing impact on cryptography
AI Search Visibility Analysis
Analyze how brands appear across multiple AI search platforms for a specific query

Total Mentions
Total number of times a brand appears
across all AI platforms for this query
Platform Presence
Number of AI platforms where the brand
was mentioned for this query
Linkbacks
Number of times brand website was
linked in AI responses
Sentiment
Overall emotional tone when brand is
mentioned (Positive/Neutral/Negative)
Brand Performance Across AI Platforms
BRAND | TOTAL MENTIONS | PLATFORM PRESENCE | LINKBACKS | SENTIMENT | SCORE |
---|---|---|---|---|---|
1NIST | 5 | 2 | 95 | ||
2Apple | 4 | 0 | 68 | ||
3Europol | 4 | 0 | 66 | ||
4IBM | 0 | 2 | 55 |
Strategic Insights & Recommendations
Dominant Brand
NIST emerges as the leading authority in quantum-safe cryptography standardization, with Apple being the first major company to implement quantum-resistant protocols.
Platform Gap
ChatGPT provides specific timelines and company examples, while Google AIO focuses on technical mechanisms and Perplexity emphasizes urgency and standardization efforts.
Link Opportunity
Organizations seeking quantum-safe migration guidance could benefit from linking to NIST standards, cybersecurity frameworks, and post-quantum cryptography implementation resources.
Key Takeaways for This Query
Quantum computers will break current RSA and ECC encryption through Shor's algorithm, requiring immediate preparation for post-quantum cryptography.
NIST released the first post-quantum cryptography standards in 2024, providing a roadmap for quantum-safe algorithm adoption.
Organizations should migrate to quantum-resistant systems by 2028 to avoid last-minute disruptions when quantum threats become real.
Apple's PQ3 protocol for iMessage demonstrates early industry adoption of quantum-safe encryption technologies.
AI Search Engine Responses
Compare how different AI search engines respond to this query
ChatGPT
BRAND (3)
SUMMARY
Quantum computing poses significant threats to current cryptography by making RSA and ECC vulnerable through Shor's algorithm, while Grover's algorithm reduces symmetric encryption security by half. Post-quantum cryptography is being developed with NIST releasing standards in 2024. Organizations should prepare for quantum-resistant systems by 2028, with companies like Apple already implementing quantum-safe protocols like PQ3 for iMessage.
REFERENCES (6)
Perplexity
BRAND (2)
SUMMARY
Quantum computing fundamentally challenges cryptography security through Shor's algorithm breaking RSA and ECC, and Grover's algorithm halving symmetric encryption strength. This threatens data confidentiality across banking, finance, and government sectors. NIST is standardizing post-quantum cryptographic algorithms by 2024-2025. Organizations must transition to quantum-resistant algorithms before large-scale quantum computers become operational to protect long-term data security.
REFERENCES (8)
Google AIO
BRAND (2)
SUMMARY
Quantum computing threatens current encryption through Shor's algorithm breaking RSA and ECC, and Grover's algorithm reducing symmetric encryption effectiveness. This could expose sensitive data and compromise digital signatures. Post-quantum cryptography and quantum key distribution are being developed as countermeasures. While practical quantum computers capable of breaking encryption are still years away, proactive preparation is essential.
REFERENCES (17)
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