Global Automotive Functional Safety Market Outlook 2025 Sample – by Goldstein Research

Global Automotive Functional Safety Market Outlook

Global Automotive Functional Safety Market Outlook 2025 Opportunity & Growth Analysis, 2017-2025

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Global Automotive Functional Safety Market Outlook , 2017-2025

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Vision

Value

Visibility

Global Automotive Functional Safety Market, 20172025 – Table of Contents  Research Methodology     

Secondary Research Primary Research Data Analyzing & Market Size Estimation Research Design Bottom-Up & Top-Down Approach

 Global Automotive Functional Safety Market Outlook, 2017-2025 



Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

 United States Automotive Functional Safety Market Outlook, 2017-2025 



Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

 United States Functional Safety for Autonomous Vehicles Market Outlook, 2017-2025 



Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

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Global Automotive Functional Safety Market, 20172025  United States Functional Safety for Cyber Security in Automotive Industry Market Outlook, 2017-2025 



Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

 China Automotive Functional Safety Market Outlook, 2017-2025 



Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

 Global Autonomous Vehicle Industry Outlook, 2017-2025   



China Autonomous Vehicle Industry Outlook, 2017-2025 United States Autonomous Vehicle Industry Outlook, 2017-2025 Executive Summary  Market Size (USD)  Forecast Analysis (2017-2025)  Market Share (%)  Market CAGR (%) Market Dynamics  Growth Drivers  Market Restraints  Trends & Opportunities

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Global Automotive Functional Safety Market Outlook

ChapTer 1: GlObal auTOmOTive FunCTiOnal saFeTy markeT Connect With Us:

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Global Automotive Functional Safety Market Outlook Global Automotive Functional Safety Market Size (USD Billion), 2017-2025

Global Automotive Functional Safety Market Y-O-Y Growth (%), 2017-2025

XX

XX

XX

XX

XX% XX

XX

XX

XX

XX

XX

CAGR: (2017-2025) XX

XX

XX

XX

XX

m a S 2016e

XX

2017e

2018f

2017e 2018e 2019f 2020f 2021f 2022f 2023f 2024f 2025f

Source: Goldstein Research

e l p 2019f

2020f

2021f

2022f

2023f

XX%

2024f

Source: Goldstein Research

Safety Sensors segment accounted for the highest market share XX% in Global Automotive

In 2017,

XX%

XX%

XX%

XX%

XX%

XX%

XX%

XX%

Functional Safety Market

Global Automotive Functional Safety Market Share (%), By China & United States, 2017

With

XX% share in 2017, North

America region dominated the Global Automotive Functional Safety Market

Global Automotive Functional Safety Market Share (%), By Geography, 2017

XX% XX%

XX% 45.00% 55.00%

XX%

XX%

China

United States

North America

Europe

Asia Pacific

Middle East & Africa

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Latin America

Global Automotive Functional Safety Market Outlook  The Global Automotive Functional Safety Market registered an impressive growth in 2017 with all the four regions Americas, Asia-Pacific, Europe, Middle East and Africa demonstrating positive growth. North America stood as the largest functional safety in automotive industry in 2017.

High Efficiency

 In recent years, most of the modern automobiles are equipped with embedded electronic systems which include lots of Electronic Controller Units (ECUs), electronic sensors, signals, bus systems and coding. Due to the complex application in electrical, electronics and programmable electronics, it is necessary to analyze the potential risk of malfunction for automotive systems.

e l p

 As digitalization and automation progress, electrical, electronic or programmable electronic systems (E/E/PES) are used increasingly in the field of safety applications. interdisciplinary expertise is increasingly important to ensure safety and dependability of systems. As a result, new applications of functional safety are emerging, such as collaborative robots which work hand in hand with humans.

m a S

 Functional safety analysis is used to evaluate the safety level achieved by the product (e.g., an IP, an SoC). It comprises quantitative evaluations (such as failure mode effect and diagnostic analysis (FMEDA), timing analysis, and qualitative assessments (such as dependent failure analysis (DFA).

Connected Cars

Hardware Failure

 Safety becomes a fundamental requirement in the automotive systems to guarantee a tolerable level of risk. The growing need for connected vehicles as well as the increasing complexity of systems raises the demand for secure solutions.

 Standards are starting to emerge and develop in the form of IEC 62443 and IEC 61508. These standards offer a structured approach that allows industrial automation operators, vendors and system integrators to manage functional safety and cyber security all together, in a proportionate and cost-effective manner.

Innovative Technologies

Global Automotive Functional Safety Market Size (USD Billion), 2017-2025 North America

Europe

Asia-Pacific

2017

USD XX Billion

USD XX Billion

USD XX Billion

2025

USD XX Billion

USD XX Billion

USD XX Billion

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Growth Drivers Growth of Electric Vehicles  The race to achieve self-driving cars and the corresponding growth of electronics content and complexity has stretched the need for sharing the responsibility of guaranteeing functional safety through the supply chain, bridging the gap from car manufacturers/system providers to semiconductor companies and tool providers.  This new market has been an incredibly fast driver for the evolution of SoC development for automotive applications. Advanced driver assistance systems (ADAS), the precursor of fully autonomous vehicles, have led to an exponential increase in the amount and complexity of electronics in cars.

e l p

 Modern luxury cars are reported to have up to 90 electronic control units (ECUs) (Munir) implementing several of the advanced features, such as adaptive cruise control, collision avoidance system, automatic parking. ADAS applications require environment recognition based on processing of data from radar, lidar, and camera and sensor fusion, which is very computationally intensive and requires the support of advanced process nodes to meet the performance/watt demands.  Consequently, the automotive industry is also witnessing a migration to advanced technologies. Compliance to safety requirements has been traditionally addressed by car manufacturers and system suppliers. However, with the increasing complexity, the industry is taking a divide-and-conquer approach, and all participants of the supply chain are now called to support and enable functional safety and reliability standards.

m a S

Global Electric Vehicles Market Size (USD), 2017-2025 XX

XX

XX

XX

XX

XX

XX

XX

XX

XX

XX

XX XX

XX

XX

XX XX

Impact Analysis:-

 Growth in the electric vehicles market has huge impact on the global automotive functional safety market. The demand f the components & software is expected to expand at the rate of XX%. Thus the demand of the technological innovations further drive the market.  In North America, total of functional safety technology and automotive industry investments valued at USD XX billion in 2016. Over the forecast period (20162024) the growth in these two divisions will have highest impact share on the market.

XX 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025

Source: Goldstein Research

High

Medium

Low

Impact on Global Automotive Functional Safety Market Copyright

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Market Restraints The Increasing Complexity of Safety Applications 

Electronic safety systems, with their direct impact on human well-being, are experiencing increasingly stringent requirements. Designing safety systems while meeting state-of-the-art functional safety requirements can be a challenging job for system designers—especially when they are also managing increased application complexity combined with time to market urgency.



The challenge for system engineers is to architect their system in a way that prevents dangerous failures or at least sufficiently controls them when they occur. Dangerous failures may arise from: • Random hardware failures • Systematic hardware failures • Systematic software failures

e l p

 The functional safety standard ISO 26262 in automotive industry are applied to ensure that electronic systems in automotive applications are completely safe. The ISO document defines four Automotive Safety Integrity Levels (ASILs) with ASIL D denoting the most stringent safety level. Each level corresponds to a range of target likelihood of failures of a safety function.

m a S

 From the beginning of the design process, evidence must be collected to show that the product has been developed according to regulation standards. Any potential deviations that have been identified must be documented to ensure that adequate mitigation is in place. New tools have been developed to support this additional element to automotive quality assurance.

Global Functional Safety in Automotive Industry: ASIL Determination Based on Hazard and Risk Analysis (Example of ABS)

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Global Automotive Functional Safety Market Trends Analysis, 2016-2024  Safety-critical automotive applications have stringent demands for functional safety and reliability. Traditionally, functional safety requirements have been managed by car manufacturers and system providers. However, with the increasing complexity of electronics involved, the responsibility of addressing functional safety is now propagating through the supply chain to semiconductor companies and design tool providers.  Safety can be defined by referring to two existing safety standards: IEC 61508 (International Electrotechnical Commission (IEC), which is a functional safety standard for the general electronics market developed by the IEC, and ISO 26262 (IEC), which is a functional safety standard for automobiles developed by ISO. Introduced in 2007, ISO 26262 has rapidly been affirmed as the guideline for the automotive engineer (Munir). Compliance to these requirements has been traditionally addressed by car manufacturers and system suppliers.  However, with the increasing complexity, the industry is taking a divide-and-conquer approach, and all participants of the supply chain are now called to support and enable functional safety and reliability standards.  These metrics are becoming an integral part of the semiconductor design flow. Basics of Functional Safety in this section, we review the basic concepts of functional safety, its lifecycle and the analysis techniques.  Definition of Functional Safety ISO 26262: Road Vehicles—Functional Safety is the automotive industry standard, derivative of the more general IEC 61508 functional safety standard (IEC), designed for safety-related systems for series production passenger vehicles with a maximum gross vehicle mass up to 3,500 kg and that are equipped with one or more E/E subsystems (Beckers). According to ISO 26262, functional safety is defined as the “absence of unreasonable risk due to hazards caused by malfunctioning behavior of electrical/electronic systems”.

m a S

Safety Integrity Levels Proposed Metrics as per ISO 26262

Proposed Target

e l p

ASIL B

ASIL C

ASIL D

Single point fault

XX

XX

XX

Latent faults

XX

XX

XX

PMHF

XX

XX

XX

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Global Automotive Functional Safety Market Outlook

ChapTer 2: uniTeD sTaTes auTOmOTive FunCTiOnal saFeTy markeT Connect With Us:

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United States Automotive Functional Safety Market Outlook

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United States Automotive Functional Safety Market Outlook United States Automotive Functional Safety Market Size (USD Billion), 2017-2025

United States Automotive Functional Safety Market Y-O-Y Growth (%), 2017-2025

XX

XX%

XX

XX

CAGR: (2017-2025)XX

XX

XX

XX

XX

XX

XX%

XX%

XX XX

XX

XX

XX

XX

XX

m a S

2017e 2018e 2019f 2020f 2021f 2022f 2023f 2024f 2025f

Source: Goldstein Research

2016e

2017e

e l p XX%

XX%

XX%

2018f

2019f

2020f

XX%

XX%

XX%

XX%

2021f

2022f

2023f

2024f

Source: Goldstein Research

North America Automotive Functional Safety Market Share (%), By Country, 2017

United States Automotive Industry Size (USD Billion), 2017

XX

XX

XX

XX XX

25.00%

XX XX

XX

XX

XX

XX

XX XX

75.00% XX

XX

United States

Canada

XX 2017e 2018e 2019f 2020f 2021f 2022f 2023f 2024f 2025f

Source: Goldstein Research

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United States Automotive Functional Safety Market Outlook  The United States Automotive Functional Safety Market registered an impressive growth of XX% Y-O-Y in 2017 as compared to 2016 and the total market is anticipated to expand at a CAGR of XX% during the forecast period 2017-2025. In 2016 the total market was valued at USD XX billion which is forecast to reach USD XX billion by the end of 2025.

High Efficiency

 In recent years, most of the modern automobiles are equipped with embedded electronic systems which include lots of Electronic Controller Units (ECUs), electronic sensors, signals, bus systems and coding. Due to the complex application in electrical, electronics and programmable electronics, it is necessary to analyze the potential risk of malfunction for automotive systems.

e l p

 As digitalization and automation progress, electrical, electronic or programmable electronic systems (E/E/PES) are used increasingly in the field of safety applications. interdisciplinary expertise is increasingly important to ensure safety and dependability of systems. As a result, new applications of functional safety are emerging, such as collaborative robots which work hand in hand with humans.

m a S

 Functional safety analysis is used to evaluate the safety level achieved by the product (e.g., an IP, an SoC). It comprises quantitative evaluations (such as failure mode effect and diagnostic analysis (FMEDA), timing analysis, and qualitative assessments (such as dependent failure analysis (DFA). 



Connected Cars

Hardware Failure

SAMPLE (Similar data will be represented for rest oftothe Safety becomes a fundamental requirement in the automotive systems guarantee a tolerable level of risk. The growing need for connected vehicles as well report as per table of contents of global automotive as the increasing complexity of systems raises the demand for secure solutions. functional safety market, 2017-2025) Standards are starting to emerge and develop in the form of IEC 62443 and IEC

Innovative Technologies

61508. These standards offer a structured approach that allows industrial automation operators, vendors and system integrators to manage functional safety and cyber security all together, in a proportionate and cost-effective manner.

Global Automotive Functional Safety Market Size (USD Billion), 2017-2025 North America

Europe

Asia-Pacific

2017

USD XX Billion

USD XX Billion

USD XX Billion

2025

USD XX Billion

USD XX Billion

USD XX Billion

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