BS EN IEC 60300-1:2024
$215.11
Dependability management – Managing dependability
| Published By | Publication Date | Number of Pages |
| BSI | 2024 | 78 |
IEC 60300-1:2024 provides guidance on: – the meaning and significance of dependability from a business, technical and financial perspective; – achieving dependability through suitable adaptation of organizational management systems such as those described in ISO 9001 (quality management) and ISO 55001 (asset management); – the activities that are integrated into management systems and life cycle processes in order to achieve dependable systems, products and services; – planning and implementing dependability activities throughout the life cycle to achieve and assure required outcomes, taking into account factors such as costs, safety, the environment, customer goodwill, brand and reputation. This document is applicable to any type of system, both new and existing, to mass produced industrial or consumer products, to components and to services. This document addresses all elements of systems, products and services including hardware, software, data, processes, procedures, facilities, materials, and personnel required for operations and support.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 6 | Annex ZA (normative)Normative references to international publicationswith their corresponding European publications |
| 7 | English CONTENTS |
| 10 | FOREWORD |
| 12 | INTRODUCTION |
| 13 | 1 Scope 2 Normative references 3 Terms, definitions, and abbreviated terms |
| 14 | 3.1 Terms and definitions |
| 19 | 3.2 Abbreviated terms 4 Key concepts and application of this document 4.1 Overview 4.2 Principles of dependability management |
| 20 | 4.3 Benefits of managing dependability |
| 21 | 4.4 Attributes of dependability |
| 23 | 4.5 Relationship between an organization’s management system and dependability Figures Figure 1 – Dependability and security attributes |
| 24 | 4.6 Technical programmes for dependability Figure 2 – Relationship between management system standards and dependability standards |
| 25 | 4.7 Life cycle concept |
| 26 | 4.8 Dependability activity concept 5 Integrating dependability into an organization’s management system 5.1 Overview |
| 27 | 5.2 Understanding the organization and its context 5.3 Leadership Figure 3 – Integration of dependability into a management system |
| 28 | 5.4 Planning 5.5 Support |
| 29 | 5.6 Documented information |
| 30 | 5.7 Operation 5.8 Performance evaluation and improvement |
| 31 | 6 Programme design 6.1 General 6.2 Coordination and integration |
| 32 | 6.3 Trade-offs 6.4 Tailoring a technical programme of dependability activities |
| 33 | 6.5 Key success factors 7 Programme management activities 7.1 Overview |
| 34 | 7.2 Plan dependability activities 7.2.1 Purpose 7.2.2 Outcomes 7.2.3 Tasks |
| 36 | 7.3 Implement the plan 7.3.1 Purpose 7.3.2 Outcomes 7.3.3 Tasks |
| 37 | 7.4 Review and improve 7.4.1 Purpose 7.4.2 Outcomes 7.4.3 Tasks |
| 38 | 7.5 Providing assurance 7.5.1 Purpose 7.5.2 Outcomes 7.5.3 Tasks |
| 39 | 7.6 Achieving accountability 7.6.1 Purpose 7.6.2 Outcomes 7.6.3 Tasks |
| 40 | 8 Technical dependability activities 8.1 Overview 8.2 Stakeholder engagement, consensus building and communication 8.2.1 Purpose |
| 41 | 8.2.2 Outcomes 8.2.3 Tasks |
| 42 | 8.3 Managing opportunities, threats and risks 8.3.1 Purpose 8.3.2 Outcomes |
| 43 | 8.3.3 Tasks 8.4 Dependability analysis 8.4.1 Purpose |
| 44 | 8.4.2 Outcomes 8.4.3 Tasks |
| 45 | 8.5 Dependability assessment 8.5.1 Purpose 8.5.2 Outcomes |
| 46 | 8.5.3 Tasks 8.6 Maintenance, support and improvement 8.6.1 Purpose |
| 47 | 8.6.2 Outcomes 8.6.3 Tasks |
| 49 | Annexes Annex A (informative) IEC standards related to dependability Tables Table A.1 – Classification of dependability standards by topic and life cycle stage |
| 52 | Annex B (informative) Life cycle models B.1 Generic life cycle Figure B.1 – Generic life cycle model Table B.1 – Stages of generic model, their purpose and outputs |
| 53 | B.2 Alternative life cycle models B.2.1 Life cycle model with multiple progressions B.2.2 Managing change through the life cycle Figure B.2 – Life cycle model with some of the possible progressions |
| 54 | B.2.3 Hardware B.2.4 Software (see Figure B.5) Figure B.3 – Managing change through the life cycle Figure B.4 – Example of hardware life cycle model |
| 55 | B.2.5 Services B.2.6 Open systems Figure B.5 – Example of software life cycle model Figure B.6 – Example of service life cycle model Figure B.7 – Simplified life cycle model for an open system |
| 56 | Annex C (informative) Stakeholders C.1 General C.2 Users of systems, products and services C.3 Managers C.4 The workforce |
| 57 | C.5 Specialists C.6 Others C.7 Stakeholders through the life cycle C.7.1 Concept – Specification C.7.2 Development C.7.3 Realization (including manufacture, transport acquisition and installation) |
| 58 | C.7.4 Operation or use of items C.7.5 Maintenance C.7.6 Obsolescence, retirement and re-use |
| 59 | Annex D (informative) Dependability maturity assessment Table D.1 – Example of dependability maturity matrix |
| 62 | Annex E (informative) Dependability through the life cycle Table E.1 – Examples of dependability focus relevant to each life cycle stage |
| 65 | Annex F (informative) Comparison of approach of ISO/IEC/IEEE 15288 with that of IEC 60300-1 F.1 Overview F.2 Concept of system life cycle processes |
| 66 | Figure F.1 – System life cycle processes according to ISO/IEC/IEEE 15288 |
| 67 | Table F.1 – Comparison of approach of ISO/IEC/IEEE 15288 and IEC 60300-1 |
| 69 | Annex G (informative) Testing G.1 General G.2 Purpose and objectives of tests G.3 Test conditions |
| 70 | G.4 Types of test Figure G.1 – Verification and validation methods or practices |
| 71 | G.5 Data quality and quantity |
| 73 | Bibliography |
