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IoT向けデジタルツイン、デブオプス(DevOps)、電子設計の原則

Digital Twin, DevOps, and Digital Design Principles for the IoT

 

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VDC Research Group
VDCリサーチグループ社
2018年1月お問い合わせください 16 186

サマリー

この調査レポートはクロスエンジニアリングドメインインテグレーション、DevOps/DevSecOps、製品ライン/製品群エンジニアリング、デジタルツイン技術を含むIoT向けソフトウェアとシステムを開発している組織に影響を与える新しい電子設計の動向を分析しています。

This report analyzes emerging digital design trends influencing organizations developing software and systems for the IoT, including cross-engineering domain integration, DevOps/DevSecOps, product line/family engineering, and digital twin technologies. Market dynamics are discussed in the context of leading vendors, current technologies, tool selection priorities, and data from VDC’s 2017 Software and System Development Survey.

Inside This Report

A software-driven digital revolution is transforming the competitive landscape across multiple industries and changing the ways in which many companies define and deliver value to customers. For suppliers of development tools and services, this drive to reshape business plans and increasingly use software as a primary means for engaging with customers profoundly impacts how software and systems are conceived, planned, designed, built, delivered, and updated. The need for embedded OEMs to increase agility in their operations necessitates that they improve the speed and efficiency of the development and delivery of their software and systems.

This report analyzes emerging digital design trends influencing organizations developing software and systems for the IoT, including cross-engineering domain integration, DevOps/DevSecOps, product line/family engineering, and digital twin technologies. Market dynamics are discussed in the context of leading vendors, current technologies, tool selection priorities, and data from VDC’s 2017 Software and System Development Survey.

Who should read this report?

This research program is written for those making critical business decisions regarding product, market, channel, and competitive strategy as well as tactics. This report is intended for senior decision makers who are developing embedded technology, including:

  • CEOs and other C-level executives
  • Corporate development and M&A teams
  • Marketing executives
  • Business development and sales leaders
  • Product development and product strategy leaders
  • Channel management and channel strategy leaders

What questions are addressed?

  • In what ways are engineering teams modifying Agile methods to fit the needs of the embedded market?
  • How does the use of hybrid development practices influence tooling selection?
  • What are the biggest challenges to adopting DevSecOps?
  • How does DevOps adoption differ by market?
  • Which vendors are best positioned to support organizations implementing Digital Twin?
  • What resources will companies utilize to create a Digital Thread?

Vendors Listed in this Report

Amazon (AWS), Atlassian, CA Technologies, Dassault Systèmes, GE, IBM, Jama Software, JetBrains, Mentor Graphics (Siemens), MuleSoft Inc., Polarion (Siemens), PTC (Atego, MKS, ThingWorx, Axeda), QA Systems, Red Hat (3scale), Rogue Wave (Akana), Siemens, SmartBear, Vector Software (Vector Informatik)



目次

Table of Contents

Inside This Report
Executive Summary
Global Market Overview
Agile Led to DevOps
DevOps – Accelerate Software Release
DevSecOps – Accelerate While Minimizing Risks
Digital Twin, Digital Thread, IoT Cloud Platforms
About VDC Research

List of Report Exhibits

Exhibit 1 Agile Methodology Use, Segmented by Market and Industry (Percent of Responses)
Exhibit 2 Number of Development Methodologies Used in Current Project, Segmented by Use of Agile
Exhibit 3 Embedded/IoT Schedule Performance, Segmented by Use of Agile
Exhibit 4 Types of Tools Used on Embedded/IoT Project, Segmented by Use of Agile
Exhibit 5 Formality of Embedded/IoT Requirements Engineering, Segmented by Use of Agile
Exhibit 6 Multi-Domain Integration, Segmented by Vertical Market
Exhibit 7 DevOps Use Rates in 2016 and 2017, Segmented by Market
Exhibit 8 Importance of Security in Embedded/IoT Project, Segmented by Development Practice
Exhibit 9 Actions Taken in Response to Security Requirements, Segmented by Development Practice

List of Excel Exhibits

Exhibit 1 Types of Products Currently in Development or Production
Exhibit 2 Primary Area of Expertise
Exhibit 3 Primary Classification of Current or Most Recently Completed Project
Exhibit 4 Personal Involvement with Engineering in Project
Exhibit 5 Products Purchased by Respondent’s Organization
Exhibit 6 Organization’s Primary Industry
Exhibit 7 Number of People Working for Respondent’s Organization Worldwide
Exhibit 8 Respondent’s Primary Role Within Organization
Exhibit 9 Respondent’s Country of Residence
Exhibit 10 Respondent’s Region of Residence
Exhibit 11 Industry/Vertical Market
Exhibit 27 Capabilities or Features Included in Current Project
Exhibit 28 Capabilities or Features Expected for Similar Project in Three Years
Exhibit 33 Estimate of Total Project Length in Calendar Months (Time from Initial Specification to
Shipment)
Exhibit 34 Current Project’s Schedule
Exhibit 35 Estimate of Total Years for Which Current Product will be Manufactured Once Initial
Development is Complete
Exhibit 36 Estimate of Product’s Average Years of Useful Life Once Deployed in Field by End Customer
Exhibit 37 Reasons for Any Delays in Current Project
Exhibit 38 Engineering Tasks in which the Respondent is Personally Involved for the Current Project
Exhibit 39 Portion of Time Spent on Engineering Tasks in which the Respondent is Personally Involved for the Current Project
Exhibit 40 Tasks where Respondent Personally Planned for/Designed, Identified, or Remediated
Security Issues
Exhibit 41 Percent of Time Spent on Each Task Personally Planning for/Designing, Identifying, or
Remediating Security Issues
Exhibit 42 Estimated Distribution of Full-Time Engineers Working on Project
Exhibit 43 Estimated Number of Full-Time Engineers Employed by Respondent’s Organization
Exhibit 44 Estimated Distribution of Full-Time Engineers Employed by Respondent’s Organization
Exhibit 45 Estimated Total Cost of Development for the Project
Exhibit 46 Estimated Bill of Material (BOM) for the Project
Exhibit 47 Estimated Number of Units to be Shipped for the Project
Exhibit 48 Estimated Distribution of Development Costs on the Project
Exhibit 49 Estimated Distribution of Development Costs on the Project Three Years from Now
Exhibit 50 Estimate of the Fully-Loaded Labor Cost (including salary, benefits, overhead, etc.) for a
Typical Embedded Engineer at Respondent’s Location
Exhibit 51 Estimated Total Number of Defects or Software Patches Reported/Required per Year once
Product is Deployed in Field
Exhibit 52 Estimated Combined IT and Engineering Time (man-hours) Required for each Patch or
Defect Remediation
Exhibit 53 Estimated Percentage of Devices that will become Inoperable and Require Repair or
Replacement each Year
Exhibit 54 Primary Method for Updating Devices once Deployed in Field
Exhibit 55 Types of Computer System Components or Sub-Systems Purchased by Organization
Exhibit 56 Types of Processors Used on Project
Exhibit 57 Types of Processors Expected to be Used on Similar Project in 3 Years
Exhibit 58 Primary/Application Processor Used on Project
Exhibit 59 Primary Processor Family/Architecture Used on Project
Exhibit 60 Processor Families/Architectures Considered for Project
Exhibit 61 Bit-Width of Architecture Used by Primary Processor on Project
Exhibit 62 Most Important Characteristics when Selecting Embedded Processors
Exhibit 63 CPU/MPU suppliers Currently Used on Project
Exhibit 64 MCU Suppliers Currently Used on Project
Exhibit 65 SoC Suppliers Currently Used on Project
Exhibit 66 ASSP Suppliers Currently Used on Project
Exhibit 67 FPGA Suppliers Currently Used on Project
Exhibit 68 Satisfaction with Embedded Processor Suppliers that Respondent has Purchased from
Exhibit 69 Most Important Product Selection Criteria (Excluding Cost) when Purchasing/Specifying
CPU Boards, Blades and/or Modules
Exhibit 70 Architectures or Form Factors of Boards/Modules Used on Project
Exhibit 71 Architectures or Form Factors of Boards/Modules Expected to be Used on a Similar Project
in Three Years
Exhibit 72 Embedded Board Vendors Currently Used on Project
Exhibit 73 Most Important Product Selection Criteria (Excluding Cost) when Purchasing/Specifying
Embedded Computing and/or Storage Systems
Exhibit 74 Architectures or Form Factors Used in Embedded Computing Systems that are Purchased
by Respondent’s Organization on Project
Exhibit 75 Architectures or Form Factors in Embedded Computing Systems Expected to be Purchased
by Respondent’s Organization on Similar Project in Three Years
Exhibit 76 Motherboard Form Factors Currently Used in Organization’s Systems
Exhibit 77 Motherboard Form Factors Expected to be Used in Organization’s Systems on Similar
Project in Three Years
Exhibit 78 COM Form Factors Currently Used in Organization’s Systems
Exhibit 79 COM Form Factors Expected to be Used in Organization’s Systems on Similar Project in
Three Years
Exhibit 80 Types of Wired, Optical, and/or Wireless Connections Used in Systems/Services Produced
by Organization
Exhibit 81 Types of Wired, Optical, and/or Wireless Connections Expected to be Used in Systems/
Services Produced by Organization in Three Years
Exhibit 82 Types of Low-Powered Wide-Area-Networks (LPWAN) Used in Systems/Services Produced
by Organization
Exhibit 83 Types of Low-Powered Wide-Area-Networks (LPWAN) Expected to be Used in Embedded
Systems/Services Produced by Organization on Similar Project in Three Years
Exhibit 84 Estimated Amount of Data Generated by Organization’s Products on Average each Day per
Device
Exhibit 85 Estimated Amount of Data Generated by Organization’s Products on Average each Day per
Device on Similar Project in Three years
Exhibit 86 IoT Middleware Frameworks/Platforms Used on Project
Exhibit 87 IoT Protocols Used on Project
Exhibit 88 Approximate Distance Needed for Devices to Communicate Wirelessly
Exhibit 89 Source of Primary Operating System Used on Previous Project
Exhibit 90 Source of Primary Operating System Used on Project
Exhibit 91 Expected Source of Primary Operating System on Similar Project in Three Years
Exhibit 92 Commercially Obtained, NON Open Source OS Used on Project
Exhibit 93 Commercially or Consortia Obtained, Open Source OS Used on Project
Exhibit 94 Freely and/or Publicly Available, Open Source OS Used on Project
Exhibit 95 Chip/Board Vendor-Supplied OS Used on Project
Exhibit 96 Most Important Characteristics when Selecting Primary Operating System
Exhibit 97 Likelihood of Using same Operating System on Similar Project in Three Years
Exhibit 98 Software Stack Components Required on Project (Aside from OS)
Exhibit 99 Software Stack Components Required on Similar Project Three Years from Now (Aside from OS)
Exhibit 100 Importance of Security in Project
Exhibit 101 Actions Organization has Taken in Response to Security Requirements
Exhibit 102 How Well Organization has Addressed Security Requirements
Exhibit 103 Primary Reason Security is Not Important for Project
Exhibit 104 Have any Security Vulnerabilities or Failures within Organization’s Products been Exposed
or Identified
Exhibit 105 Were any Vulnerabilities Disclosed to Customers
Exhibit 106 Results of Security Vulnerabilities
Exhibit 107 Implications of Security Vulnerabilities
Exhibit 108 Commercial Security Vendors Used on Project
Exhibit 109 Embedded Security Software Used on Project
Exhibit 110 Embedded Security Hardware Used on Project
Exhibit 111 Inclusion of PKIs in Project
Exhibit 112 Functions of Digital Certificates/Keys
Exhibit 113 Place Where Digital Certificates/Keys are Stored
Exhibit 114 How Digital Certificates are Provisioned
Exhibit 115 CA Primarily Used to Issue Digital Certificate
Exhibit 116 Cost Per Device of Digital Certificate
Exhibit 117 Types of Devices Connected to Organization’s Enterprise/IT Network on Project
Exhibit 118 Types of Devices Connected to Organization’s Enterprise/IT Network on Similar Project in
Three Years
Exhibit 119 Do Organization’s Current IT Security Policies Cover IoT Devices
Exhibit 120 Has Organization Enacted IT Security Policies Specifically to Cover IoT Devices
Exhibit 121 Will Organization Enact Specific Security Policies for IoT Devices in Three Years
Exhibit 122 Expected Coverage of IoT Security Solutions from Organization’s IT Security Vendor
Exhibit 123 Types of Security Threats Organization is Concerned about for IoT Devices
Exhibit 124 Extent of Agreement with Following IoT Security Statements
Exhibit 125 Security Solutions Currently Used to Protect IoT Devices Connected to Organization’s
Network
Exhibit 126 Security Solutions Expected to be Used to Protect IoT Devices Connected to Organization’s Network in Three Years
Exhibit 127 Commercial IT Security Vendors Currently Used by Respondent’s Organization
Exhibit 128 Use of Security Solutions from IoT Specialist Vendors
Exhibit 129 Percentage of Organization’s IT Security Budget Related to Security
Exhibit 130 Percentage of Organization’s IT Security Budget Related to Commercial Security Software/Services
Exhibit 131 Percentage of Organization’s IT Security Budget Related to Security on a Similar Project in Three Years
Exhibit 132 Person Responsible for Selection and Purchase of Enterprise Security Solutions
Exhibit 133 Types of Tools Used on Project
Exhibit 134 Types of Tools Used on Similar Project in Three Years
Exhibit 135 Most Important Characteristics when Selecting Compiler Used on Project
Exhibit 136 Types of Compiler Purchased by Respondent’s Organization
Exhibit 137 Compilation Tools Currently Used on Project
Exhibit 138 Static Analysis or SAST Tools Used on Project
Exhibit 139 Most Important Characteristics when Selecting SAST or Static Analysis Tool Used on Project
Exhibit 140 Who Makes Purchasing Decision for Static Analysis and SAST Tools
Exhibit 141 Dynamic Testing or DAST Tools Being Used on Project
Exhibit 142 Most Important Characteristics when Selecting Dynamic Testing or DAST Tools Used on
Project
Exhibit 143 Who Makes Purchasing Decision for Dynamic Testing or DAST Tools
Exhibit 144 Requirements Management/Definition Tools being Used on Project
Exhibit 145 Most Important Characteristics when Selecting Requirements Management/Definition Tools Used on Project
Exhibit 146 Who Makes Purchasing Decision for Requirements Management/Definition Tools
Exhibit 147 Product Line Engineering (PLE) Tools Used on Project
Exhibit 148 Most Important Characteristics when Selecting PLE Tools Used on Project
Exhibit 149 Who Makes Purchasing Decision for PLE Tools
Exhibit 150 Release Management/Continuous Deployment Tools Used on Project
Exhibit 151 Most Important Characteristics when Selecting Release Management/Continuous
Deployment Tools Used on Project
Exhibit 152 Who Makes Purchasing Decision for Release Management/Continuous Deployment Tools
Exhibit 153 Software Composition Analysis (SCA)/IP Compliance Tools Used on Project
Exhibit 154 Most Important Characteristics when Selecting SCA/IP Compliance Tools Used on Project
Exhibit 155 Who Makes SCA/IP Compliance Tool Purchasing Decisions
Exhibit 156 Organization Linking System Requirements on Project
Exhibit 157 Description of Organization’s Requirements Engineering
Exhibit 158 Implementation/Investigation of ALM, PLM, EDA Integration
Exhibit 159 Advantages/Benefits of Cross-Engineering Domain Integrations
Exhibit 160 Investigation/Implementation of Enhanced Delivery of Continuous Post-Deployment Content and Services Support
Exhibit 161 Approximate Cost Budgeted for all Tools Used on Project
Exhibit 173 Languages Used on Previous Project
Exhibit 174 Languages Used on Project
Exhibit 175 Languages Expected to be Used on Similar Project in Three Years
Exhibit 176 Estimated Total Source Lines of Code (SLOC) on Project
Exhibit 177 Percent of Total Software Code in Final Design from Following Sources
Exhibit 178 Expected Change in Source Lines of Code (SLOC) on Next Project: Commercial Third-Party Software
Exhibit 179 Expected Change in Source Lines of Code (SLOC) on Next Project: Open Source Third-
Party Software
Exhibit 180 Expected Change in Source Lines of Code (SLOC) on Next Project: In-house Developed
Code
Exhibit 181 Percent Increase Expected for SLOC: Commercial Third-Party Software
Exhibit 182 Percent Increase Expected for SLOC: Open Source Third-Party Software
Exhibit 183 Percent Increase Expected for SLOC: In-house Developed Code
Exhibit 184 Percent Decrease Expected for SLOC: Commercial Third-Party Software
Exhibit 185 Percent Decrease Expected for SLOC: Open Source Third-Party Software
Exhibit 186 Percent Decrease Expected for SLOC: In-House Developed Code
Exhibit 187 Percent of In-House Developed Software Code for Project from Certain Sources
Exhibit 188 Software Design Methodologies Used on Project
Exhibit 189 Software Design Methodologies Expected to be Used on Similar Project Three Years from
Now
Exhibit 190 Certification/Process Standard(s) Adhered to
Exhibit 191 Adherence to Coding Standards
Exhibit 192 Deployment of IoT Capabilities and/or Applications into Organization’s Products
Exhibit 193 Primary Factor Driving Respondent’s Organization to Utilize/Deploy IoT Capabilities
Exhibit 194 IoT Will Allow Respondent’s Organization to…
Exhibit 195 Largest Overall Challenge for Respondent’s Organization in Developing IoT Solutions
Exhibit 196 Most Important Factors when Selecting Suppliers of IoT Components and Solutions
Exhibit 197 Use of IoT Cloud Services to Build Embedded/IoT Project
Exhibit 198 Use of IoT Cloud Services to Connect, Manage, or Analyze any of IoT Devices on Networks
Exhibit 199 Types of IoT Cloud Services being Used on Project
Exhibit 200 Types of IoT Cloud Services Expected to be Used on Similar Project in Three Years
Exhibit 201 Plans to Resell IoT Services as Value-Added Service
Exhibit 202 Types of Cloud Analytics Used for IoT Data
Exhibit 203 Types of Non-Cloud IoT Services Used to Support Customers on Project
Exhibit 204 IoT Cloud Platforms-as-a-Service (PaaS) Used in Project
Exhibit 205 IoT Cloud Platforms-as-a-Service (PaaS) Used on a Similar Project Three Years from Now
Exhibit 206 IoT Platform Functions Used on Project
Exhibit 207 IoT Platform Functions Expected to be Used on Similar Project in Three Years
Exhibit 212 Most Important Requirements when Selecting Embedded Connectivity Products for IoT
Gateways Purchased/Used/Integrated by Respondent’s Company
Exhibit 213 Types of Other Devices/Systems IoT Gateways Designed to Connect to in Project
Exhibit 214 Percent of Overall Computation being Done at each Level of Full System

 

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