3. Concept phase
2. Management of functional safety2.4 Management during complete safety lifecycle 2.5 Safety management during development
7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
and control of systematic HW failures
5.9 Qualification of parts and components
Cor
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oces
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2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
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7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
and control of systematic HW failures
5.9 Qualification of parts and components
Cor
e pr
oces
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2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
3. Concept phase
2. Management of functional safety2.4 Management during complete safety lifecycle 2.5 Safety management during development
7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
and control of systematic HW failures
5.9 Qualification of parts and components
Cor
e pr
oces
ses
2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
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7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
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5.9 Qualification of parts and components
Cor
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oces
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2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
3. Concept phase
2. Management of functional safety2.4 Management during complete safety lifecycle 2.5 Safety management during development
7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
and control of systematic HW failures
5.9 Qualification of parts and components
Cor
e pr
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2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
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3. Concept phase
2. Management of functional safety2.4 Management during complete safety lifecycle 2.5 Safety management during development
7. Production and operation
6.4 Initiating SW development
6.5 SW safety requirementsspecification
6.6 SW architecture and design
6.7 SW implementation
6.8 SW unit test
6.9 SW integration and test
6.10 SW safety acceptance test
5.4 HW requirements analysis
5.5 HW architecture design 5.6 Quantitative requirements
for random HW failures5.7 Measures for avoidance
and control of systematic HW failures
5.9 Qualification of parts and components
Cor
e pr
oces
ses
2.6 Safety management activities after SOP
3.5 Initiation of safety lifecycle(modification and derivates)
1. Glossary
9. Annexes
8. Supporting processes8.4 Interfaces within distributed developments8.5 Overall management of safety requirements
8.7 Change management8.8 Safety analysis8.9 Analysis of CCF, CMF, cascading failures
8.10 Verification activities
8.12 Overall quality management8.11 Documentation
8.14 Qualification of software libraries8.15 Proven in use argumentation
3.4 Item definition
3.6 Hazard analysis andrisk assessment
3.7 Functional safety concept
7.5 Operation, service and decommissioning
7.4 Production
8.6 Configuration management8.13 Qualification of software tools
4. Product development system
4.4 Initiation of productdevelopment system
4.6 System design 4.7 Integration 4.8 Safety validation
4.9 Functional safety assessment
4.10 Product release
6. Product development S/W5. Product development H/w
5.10 Overall requirements for HW-SW interface
5.8 Safety HW integration and verification
4.5 Specification of technicalsafety concept
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C O 2 R e du c t io n : u p t o 2 0 %C O 2 R e du c t io n : u p t o 2 0 % C O 2 R e du c t io n : u p t o 2 5 %C O 2 R e du c t io n : u p t o 2 5 %
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100,00
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NEFZgesARTEMISges
NEFZ _ECE
ARTEMISCity
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Automotive MagazineMOT
Automotive MagazineAMS
NSVZ
Legal or Part of Legal Test Cycle (on Chassis Dyno)
Semi-Official Test Cycle (on Chassis Dyno)
Real World On-Road Cycle
FEV Scatterband (for 1360 - 1590 kg) IWC
FEV HECS Gen. 1 Results (IWC 1700kg)
NEDC Target (2020) in 1470 kg IWC
100,00
200,00
300,00
NEFZgesARTEMISges
NEFZ _ECE
ARTEMISCity
FTP-75
NEFZ_EUDC
ARTEMISRoad
ARTEMISMotorwayUS Highway
ADAC Eco
Urban Center
City
Automotive MagazineMOT
Automotive MagazineAMS
NSVZ
Legal or Part of Legal Test Cycle (on Chassis Dyno)
Semi-Official Test Cycle (on Chassis Dyno)
Real World On-Road Cycle
FEV Scatterband (for 1360 - 1590 kg) IWC
FEV HECS Gen. 1 Results (IWC 1700kg)
NEDC Target (2020) in 1470 kg IWC
100,00
200,00
300,00
NEFZgesARTEMISges
NEFZ _ECE
ARTEMISCity
FTP-75
NEFZ_EUDC
ARTEMISRoad
ARTEMISMotorwayUS Highway
ADAC Eco
Urban Center
City
Automotive MagazineMOT
Automotive MagazineAMS
NSVZ
Legal or Part of Legal Test Cycle (on Chassis Dyno)
Semi-Official Test Cycle (on Chassis Dyno)
Real World On-Road Cycle
FEV Scatterband (for 1360 - 1590 kg) IWC
FEV HECS Gen. 1 Results (IWC 1700kg)
NEDC Target (2020) in 1470 kg IWC
100,00
200,00
300,00
NEFZgesARTEMISges
NEFZ _ECE
ARTEMISCity
FTP-75
NEFZ_EUDC
ARTEMISRoad
ARTEMISMotorwayUS Highway
ADAC Eco
Urban Center
City
Automotive MagazineMOT
Automotive MagazineAMS
NSVZ
Legal or Part of Legal Test Cycle (on Chassis Dyno)
Semi-Official Test Cycle (on Chassis Dyno)
Real World On-Road Cycle
FEV Scatterband (for 1360 - 1590 kg) IWC
FEV HECS Gen. 1 Results (IWC 1700kg)
NEDC Target (2020) in 1470 kg IWC
0 20 40 60 80 100 120 140
80
75
70
65
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50
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