TheArtOfService
Cross-Framework Mapping

3GPP Security Architecture (TS 33.501 — 5G Security)vsNIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)

See exactly how 3GPP Security Architecture (TS 33.501 — 5G Security) controls map to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205). Pre-computed mappings, identified gaps, and coverage analysis.

18
Controls Mapped
4
Gaps Found
36%
Coverage

According to the TheArtOfService Compliance Knowledge Graph:

3GPP Security Architecture (TS 33.501 — 5G Security) maps to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) with 36% coverage across 8 directly mapped controls. Analysis of 22 3GPP Security Architecture (TS 33.501 — 5G Security) controls identifies 14 compliance gaps — primarily concentrated in Subscriber Privacy and Service Security.

Source: TheArtOfService Knowledge Graph | 22 controls analysed | 693 frameworks | 819K+ cross-framework mappings

Control Mappings

Showing 18 of 18 mapped controls across 4 domains. Sign up to explore all 819K+ mappings across 693 frameworks.

Subscriber Privacy and Service Security(5 mappings)

6.12Subscription Identifier Privacy5 targets
FIPS 203 Sec. 5.2Encapsulation (Encaps)
FIPS 203 Sec. 5.3Decapsulation (Decaps)
Impl. Req. 3Key Management and Storage
Impl. Req. 4Algorithm Validation
Impl. Req. 5Migration Planning

Authentication and Key Management(2 mappings)

6.3SUPI and SUCI Privacy
FIPS 205 Sec. 6Hash Function Instantiations
6.5AUSF and SEAF Functions
FIPS 205 Sec. 6Hash Function Instantiations

Radio and Access Network Security(7 mappings)

6.6RRC and UP Ciphering and Integrity2 targets
FIPS 203 Sec. 5.2Encapsulation (Encaps)
FIPS 203 Sec. 5.3Decapsulation (Decaps)
6.7Security Key Establishment for Radio Bearers4 targets
FIPS 205 Sec. 6Hash Function Instantiations
Impl. Req. 3Key Management and Storage
Impl. Req. 4Algorithm Validation
Impl. Req. 5Migration Planning
6.9Handover Security
FIPS 205 Sec. 6Hash Function Instantiations

Non-3GPP and Inter-Network Security(4 mappings)

9.1N32 Interface Security (PRINS/TLS)3 targets
Impl. Req. 3Key Management and Storage
Impl. Req. 4Algorithm Validation
Impl. Req. 5Migration Planning
9.2Network Domain Security
FIPS 205 Sec. 6Hash Function Instantiations

Related Comparisons

Other 3GPP Security Architecture (TS 33.501 — 5G Security) comparisons

3GPP Security Architecture (TS 33.501 — 5G Security) vs NIST SP 800-171A Rev 3 — Assessing CUI Security Requirements15 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs NIS2 Directive Implementing Acts15 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs UK Telecommunications (Security) Act 202115 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs TISAX — Trusted Information Security Assessment Exchange13 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs FAA Cybersecurity Framework for Aviation13 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs South Korea ISMS-P13 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs NIST SP 800-82 Rev 3 — Guide to OT Security13 mappings3GPP Security Architecture (TS 33.501 — 5G Security) vs PAS 1192-5:2015 — Security-Minded Approach to BIM and Digital Built Environments13 mappings

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

3GPP Security vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsNIST SP 800-171A Rev 3 — Assessing CUI Security Requirements vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsFedRAMP Rev 5 vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsAWWA Cybersecurity Guidance for the Water Sector (American Water Works Association) vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsFFIEC IT Examination Handbook vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsOWASP ASVS vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsEAR — Export Administration Regulations vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappingsFBI CJIS Security Policy vs NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)6 mappings

Stop Paying Consultants to Read Spreadsheets

AI-powered compliance intelligence across 693 frameworks — at a fraction of consulting costs.

$0/forever

Free

  • 693 framework browser
  • Cross-framework mappings (819K+)
  • 824 compliance assessments
  • 3 AI queries & searches per day
Get Started Free
Recommended
$49/month

Professional

  • Unlimited AI Compliance Advisory
  • Unlimited full-text search
  • Framework self-assessment
  • PDF, Excel & CSV exports
Start 7-Day Free Trial →

Popular framework comparisons

NIST CSF vs NIST 800-53ISO 27001 vs NIST CSFCMMC vs NIST 800-53FedRAMP vs NIST 800-53NIST CSF vs SOC 2HIPAA vs NIST 800-53ISO 27001 vs SOC 2ISO 27001 vs ISO 27701

What are the key differences between 3GPP Security Architecture (TS 33.501 — 5G Security) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

3GPP Security Architecture (TS 33.501 — 5G Security) has 22 controls across its framework, while NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) covers 23 controls. Direct mapping analysis identifies 8 overlapping controls (36% coverage). The frameworks diverge most significantly in Subscriber Privacy and Service Security, where 4 3GPP Security Architecture (TS 33.501 — 5G Security) controls have no direct NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) equivalent.

How many controls map between 3GPP Security Architecture (TS 33.501 — 5G Security) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

Of 22 total 3GPP Security Architecture (TS 33.501 — 5G Security) controls, 8 map directly to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205) controls — representing 36% coverage. The remaining 14 controls represent compliance gaps requiring additional documentation or compensating controls to satisfy both frameworks simultaneously.

What are the compliance gaps when mapping 3GPP Security Architecture (TS 33.501 — 5G Security) to NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

14 3GPP Security Architecture (TS 33.501 — 5G Security) controls have no direct equivalent in NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205). The highest concentration of gaps is in Subscriber Privacy and Service Security with 4 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 3GPP Security Architecture (TS 33.501 — 5G Security) and NIST Post-Quantum Cryptography Standards (FIPS 203, 204, 205)?

The domain with the highest gap count is Subscriber Privacy and Service Security (4 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

This platform provides educational compliance tools, not legal, regulatory, or professional compliance advice. Cross-framework mappings are AI-assisted interpretations and do not reproduce or replace official standards. Framework names and trademarks belong to their respective owners. Consult qualified professionals for your specific compliance requirements. See our Terms of Service.