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Cross-Framework Mapping

IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1)vsNIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)

See exactly how IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) controls map to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205). Pre-computed mappings, identified gaps, and coverage analysis.

3
Controls Mapped
8
Gaps Found
27%
Coverage

According to the TheArtOfService Compliance Knowledge Graph:

IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) maps to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) with 27% coverage across 3 directly mapped controls. Analysis of 11 IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) controls identifies 8 compliance gaps — primarily concentrated in IAEA NSS-17 Assurance + Regulator + Improvement.

Source: TheArtOfService Knowledge Graph | 11 controls analysed | 718 frameworks | 332K+ cross-framework mappings

Control Mappings

Showing 3 of 3 mapped controls across 3 domains. Sign up to explore all 332K+ mappings across 718 frameworks.

IAEA NSS-17 Access Control(1 mappings)

IAEA-NSS17-AccessControl-OT-IT-Authentication-AuthorizationIAEA NSS-17 - Access Control + Authentication + Authorization + IAM + Privileged Access for OT and IT
PQC-4FIPS 205 SLH-DSA Implementation - Stateless Hash-Based Digital Signature

IAEA NSS-17 Architecture + Zones(1 mappings)

IAEA-NSS17-Architecture-Zones-DefenceInDepth-SegmentationIAEA NSS-17 - Computer Security Architecture + Zone Model + Defence in Depth + Network Segmentation + Boundary
PQC-4FIPS 205 SLH-DSA Implementation - Stateless Hash-Based Digital Signature

IAEA NSS-17 Supply Chain + Third Party(1 mappings)

IAEA-NSS17-SupplyChain-ThirdParty-OEM-TrustIAEA NSS-17 - Supply Chain + Third Party + OEM + Vendor Security + Trustworthy Components
PQC-4FIPS 205 SLH-DSA Implementation - Stateless Hash-Based Digital Signature

Related Comparisons

Other IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) comparisons

IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs NIST Cybersecurity Framework 2.08 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs ISO/IEC 27400:20227 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs NIST SP 800-82 Revision 3: Guide to Industrial Control Systems (ICS) Security7 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs NIST SP 800-171A Rev 3 - Assessing CUI Security Requirements7 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs OWASP Top 10:20256 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs OWASP DevSecOps Maturity Model (DSOMM)6 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs ISO 27001:20226 mappingsIAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) vs ISO/IEC 27011:20246 mappings

Other NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) comparisons

NIST SP 800-171A Rev 3 - Assessing CUI Security Requirements vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsOWASP ASVS vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsNIST Special Publication 800-34 Revision 1, Contingency Planning Guide for Federal Information Systems vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsCISA Cross-Sector Cybersecurity Performance Goals (CPG) 2.0 vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsAzure Security Benchmark vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsFFIEC IT Examination Handbook vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsAWWA Cybersecurity Guidance for the Water Sector (American Water Works Association) vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappingsIEC 62351 - Power Systems Communication Security vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)5 mappings

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What are the key differences between IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) has 11 controls across its framework, while NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) covers 8 controls. Direct mapping analysis identifies 3 overlapping controls (27% coverage). The frameworks diverge most significantly in IAEA NSS-17 Assurance + Regulator + Improvement, where 1 IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) controls have no direct NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) equivalent.

How many controls map between IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

Of 11 total IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) controls, 3 map directly to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) controls — representing 27% coverage. The remaining 8 controls represent compliance gaps requiring additional documentation or compensating controls to satisfy both frameworks simultaneously.

What are the compliance gaps when mapping IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

8 IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) controls have no direct equivalent in NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205). The highest concentration of gaps is in IAEA NSS-17 Assurance + Regulator + Improvement with 1 unmapped controls. These gaps represent areas where additional controls, policies, or documentation must be created to achieve compliance with both frameworks.

Which control domains have the most gaps between IAEA Nuclear Security Series - Computer Security at Nuclear Facilities (NSS-17-T Rev 1) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

The domain with the highest gap count is IAEA NSS-17 Assurance + Regulator + Improvement (1 gaps). Export the full domain-by-domain gap breakdown via the Professional tier to generate a prioritised remediation roadmap.

Related Resources

How to Map Controls Across Frameworks|Multi-Framework Compliance Guide|Compliance Glossary

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