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AS9100D:2016 — Quality Management Systems for Aviation, Space, and DefencevsDO-178C / ED-12C — Software Considerations in Airborne Systems

See exactly how AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence controls map to DO-178C / ED-12C — Software Considerations in Airborne Systems. Pre-computed mappings, identified gaps, and coverage analysis.

23
Controls Mapped
15
Gaps Found
24%
Coverage

According to the TheArtOfService Compliance Knowledge Graph:

AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence maps to DO-178C / ED-12C — Software Considerations in Airborne Systems with 24% coverage across 9 directly mapped controls. Analysis of 38 AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence controls identifies 29 compliance gaps — primarily concentrated in Operation (Clause 8).

Source: TheArtOfService Knowledge Graph | 38 controls analysed | 693 frameworks | 819K+ cross-framework mappings

Control Mappings

Showing 20 of 23 mapped controls across 5 domains. Sign up to explore all 819K+ mappings across 693 frameworks.

Performance Evaluation and Improvement (Clauses 9–10)(4 mappings)

10.2Nonconformity and Corrective Action
Table A-8, Obj. 3Problem Reporting
9.2Network Domain Security3 targets
Table A-1, Obj. 1Software Development Plan
Table A-1, Obj. 2Software Verification Plan
Table A-2, Obj. 2Derived Requirements

Context of the Organisation (Clause 4)(6 mappings)

4.1External Standards3 targets
Table A-3, Obj. 4HLR Traceability
Table A-5, Obj. 3Source Code Traceability
Table A-8, Obj. 2Baselines and Traceability
4.2Building Fabric and Facilities3 targets
Table A-3, Obj. 4HLR Traceability
Table A-5, Obj. 3Source Code Traceability
Table A-8, Obj. 2Baselines and Traceability

Leadership (Clause 5)(3 mappings)

5.3Management of Allergens3 targets
Table A-3, Obj. 4HLR Traceability
Table A-5, Obj. 3Source Code Traceability
Table A-8, Obj. 2Baselines and Traceability

Planning and Support (Clauses 6–7)(3 mappings)

7.1Training and Competence3 targets
Table A-3, Obj. 4HLR Traceability
Table A-5, Obj. 3Source Code Traceability
Table A-8, Obj. 2Baselines and Traceability

Operation (Clause 8)(4 mappings)

8.5Production and Service Provision3 targets
Table A-3, Obj. 4HLR Traceability
Table A-5, Obj. 3Source Code Traceability
Table A-8, Obj. 2Baselines and Traceability
8.5.2Identification and Traceability
Table A-3, Obj. 4HLR Traceability

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Related Comparisons

Other AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence comparisons

AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs AS9100D — Aerospace Quality Management System16 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs ISO/IEC 27003:201716 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs PIC/S Guide to Good Manufacturing Practice for Medicinal Products15 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs NIST SP 800-171A Rev 3 — Assessing CUI Security Requirements14 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs SQF Code Edition 9 — Safe Quality Food14 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs 3GPP Security Architecture (TS 33.501 — 5G Security)13 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs UK Telecommunications (Security) Act 202113 mappingsAS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence vs NIS2 Directive Implementing Acts13 mappings

Other DO-178C / ED-12C — Software Considerations in Airborne Systems comparisons

IEC 62304:2015 Medical Device Software Lifecycle Processes vs DO-178C / ED-12C — Software Considerations in Airborne Systems9 mappingsAS9100D — Aerospace Quality Management System vs DO-178C / ED-12C — Software Considerations in Airborne Systems8 mappingsISO/IEC 27003:2017 vs DO-178C / ED-12C — Software Considerations in Airborne Systems8 mappingsNIST SP 800-171A Rev 3 — Assessing CUI Security Requirements vs DO-178C / ED-12C — Software Considerations in Airborne Systems8 mappingsISO/IEC 17025:2017 — General Requirements for Testing and Calibration Laboratories vs DO-178C / ED-12C — Software Considerations in Airborne Systems7 mappingsISO 15189:2022 — Medical Laboratories Requirements for Quality and Competence vs DO-178C / ED-12C — Software Considerations in Airborne Systems7 mappingsFDA Quality Management System Regulation (QMSR) vs DO-178C / ED-12C — Software Considerations in Airborne Systems7 mappingsSQF Code Edition 9 — Safe Quality Food vs DO-178C / ED-12C — Software Considerations in Airborne Systems7 mappings

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What are the key differences between AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence and DO-178C / ED-12C — Software Considerations in Airborne Systems?

AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence has 38 controls across its framework, while DO-178C / ED-12C — Software Considerations in Airborne Systems covers 36 controls. Direct mapping analysis identifies 9 overlapping controls (24% coverage). The frameworks diverge most significantly in Operation (Clause 8), where 11 AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence controls have no direct DO-178C / ED-12C — Software Considerations in Airborne Systems equivalent.

How many controls map between AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence and DO-178C / ED-12C — Software Considerations in Airborne Systems?

Of 38 total AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence controls, 9 map directly to DO-178C / ED-12C — Software Considerations in Airborne Systems controls — representing 24% coverage. The remaining 29 controls represent compliance gaps requiring additional documentation or compensating controls to satisfy both frameworks simultaneously.

What are the compliance gaps when mapping AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence to DO-178C / ED-12C — Software Considerations in Airborne Systems?

29 AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence controls have no direct equivalent in DO-178C / ED-12C — Software Considerations in Airborne Systems. The highest concentration of gaps is in Operation (Clause 8) with 11 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 AS9100D:2016 — Quality Management Systems for Aviation, Space, and Defence and DO-178C / ED-12C — Software Considerations in Airborne Systems?

The domain with the highest gap count is Operation (Clause 8) (11 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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