The overall market for IoT & embedded operating systems will continue steady growth over the forecast period, while emerging trends and dynamics will lead to shifts in the internal market makeup. Factors including engineering practices, commercial strategies, government pressures, and industry group initiatives will lead to shifts in the markets for proprietary, commercial open source, and publicly available open source operating systems. Continued advancements in embedded hardware performance has exposed gaps in the market servicing certain processor types, while emerging architectures are forcing vendors to adapt to future development needs.
This report analyzes the market and emerging trends for IoT & embedded operating systems. It includes detailed discussion of emerging trends and technologies, standards and regulations, engineer preferences, and competitive strategies that are impacting longstanding market norms and opening up new commercial opportunities.
What Questions are Addressed?
How large is the global market for IoT & Embedded Operating Systems, both in terms of attributable revenue and unit shipments?
In what ways are open source operating systems posing a competitive threat to commercial proprietary solutions?
Which operating system purchasing decision factors remain top of mind for embedded engineers?
What shifts have recent mergers and acquisitions (M&A) activity caused within the automotive industry's competitive landscape?
How does use of commercial proprietary, commercial open source, and publicly available open source OSs differ by vertical and regional market?
Who Should Read this Report?
This research program is written for those making critical business decisions regarding product, market, channel, and competitive strategy and tactics. This report is intended for senior decision-makers who are developing embedded technology, including:
CEO or 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
Organizations Listed in this Report:
Arm
AWS
Canonical
Concurrent Real-Time
The Debian Project
The Eclipse Foundation
Elektrobit
Enea
eSOL
ETAS
Green Hills Software
Intel
The Linux Foundation
Lynx
Micrium (Silicon Labs)
Microsoft
NXP
The OpenAtom Foundation
Oracle
PX5
QNX, a division of BlackBerry
Qualcomm
Red Hat
Renesas
SEGGER
Siemens
STMicroelectronics
Synopsys
SYSGO
Texas Instruments
Timesys (Lynx)
Vector Informatik
VMware
Wind River
WITTENSTEIN
The Yocto Project
The Zephyr Project
Executive Summary
Overall growth in IoT deployments will continue to drive demand for IoT & embedded operating systems. The rise of advanced technologies across embedded markets, including advanced driver assistance systems (ADAS), autonomous systems, and industrial predictive maintenance, are increasing demand for operating systems (OSs) that can provide safety-critical compliance while addressing reliability and low latency requirements. Together, these drivers of demand have opened up a new market opportunity for solutions that can support broad, industry- and use-case agnostic sophisticated functionalities. At the same time, OS vendors are expanding the functional safety certifications their solutions adhere to, placing them at the forefront of product marketing messaging. In doing so, vendors that once focused on specific markets are increasingly offering their solutions to other adjacent industries that value their lineage of safety-critical solutions and expertise.
Within safety-critical markets including aerospace & defense and automotive, rising cost pressures have turned more developers and engineering organizations towards open source solutions to avoid expensive royalty and licensing fees. At the same time, advancements in open source operating systems' ability to address the needs of these safety and security sensitive industries combined with a robust developer community has increased embedded developers' confidence with integrating open source solutions into their projects. Commercial vendors are continuing to expand their Linux-based OS offerings alongside their proprietary solutions, with recent focus shifting to open source safety-certification efforts. Advancements in device processing power and memory capabilities have exposed a market opportunity for RTOS vendors to address demand from MCU-based devices that, while in the past has been serviced by multiple leading OS vendors, has now emerged as a potential future- proofed market gap for a new entrant.
Embedded development organizations are seeking to consolidate the oftentimes disparate tool sets their use within projects and across enterprises. As such, OS vendors are responding in kind with unified platforms, offering their OS solutions alongside software development tools, acting as single source for engineers to help simplify development processes and ensure compatibility.
Key Findings:
Bare metal development and use of lightweight executives has decreased within MCU-based embedded projects, highlighting a growing demand and commercial opportunity for operating systems targeting smaller hardware footprints.
The IoT & embedded operating systems market is experiencing significant M&A activity, corporate restructurings, and partnerships that have the potential to redefine the competitive landscape.
The expansion of product portfolios through both internally developed solutions as well as collaborative partnerships will drive vendor differentiation within the IoT & embedded operating system market, as engineers seek to consolidate toolsets and look for ease of integration.
Report Excerpt
Security and Reliability Remain Key Drivers of Purchasing Decision
With advancements in regulations combined with increasingly complex and demanding standards across industries, embedded engineers are demanding more stringent safety and security certifications built into their operating systems. Offerings from leading vendors including BlackBerry QNX, SEGGER, and WITTENSTEIN offer built-in certifications to leading industry standards such as ISO 26262, IEC 62304, and IEC 61508. Aside from longstanding purchasing decision factors such as overall cost and overall reliability, security capabilities serve as a leading driver of primary embedded operating system selection. The importance of this factor has increased since 2022, highlighting the growing emphasis that embedded engineers place upon safety and security functions. Vendors across the ecosystem regularly highlight the safety and security certifications of their commercial operating system solutions - a marketing approach that should continue to be utilized to attract business and confidence among safety-critical embedded industries.
Being able to offer engineers suites of complementary solutions remains a considerable driver of embedded operating system purchasing decision, ranking fifth (25.8%). Vendors such as Green Hills Software and Wind River offer product development tools alongside their operating systems, with their tool suites acting as strategic launching pads to penetrate into large development organizations. Once developing both brand reputation as well as familiarity with their tooling solutions, vendors can effectively cross-sell their OS solutions, increasing overall wallet share and account size. This dynamic can be spurred along by the growing consolidation sought out among developers seeking to standardize dispersed sets of development tools on one specific vendor. A considerable downside to open source OS use is the lack of robust and readily available complementary development tools, which may hamper sustained use of open source operating systems. The growing and extending software lifecycle will only increase the premium associated with advanced development tools, especially as more OEMs look for platforms not only for code composition, but also to audit and manage code updates across deployed devices.
A notable increase in the importance of overall cost has occurred since 2022, highlighting the need for vendors of commercial non open source OS solutions to address their offerings. While multiple companies including eSOL and Red Hat have experimented with and introduced new pricing structures more akin to multi-year contracts and subscription models that include support and service than traditional perpetual licensing schemes, a more holistic approach considering a total reconsideration of value proposition may prove to be more fruitful in addressing cost sensitivities. Changes to licensing structures within the OS market are not a new dynamic, with Wind River adopting a term licensing structure over a decade ago. Siemens has ceased offering its OS solutions as standalone solutions, deciding instead to roll them into its new Innexis product portfolio to inadvertently enhance the capabilities of its solutions through packaged complementary offerings. Elsewhere, vendors like SEGGER are adapting to this increased price sensitivity by lowering licensing costs for its OS solutions for R&D purposes, incentivizing experimentation that will hopefully translate to realized revenue down the line.
Table of Contents
Inside this Report
What Questions are Addressed?
Who Should Read this Report?
Organizations Listed in this Report
Executive Summary
Key Findings
Global Market Overview
Introduction
Open Source Focusing on Safety Certification
Renewed Commercial Opportunity for the MCU
RISC-V Support Critical for Future Development
Recent Market Developments
Standards & Regulations
Portable Operating System Interface (POSIX)
Organizations
The Eclipse Foundation
The Linux Foundation
Partnerships & Acquisitions
Azure RTOS is now ThreadX (Again)
Bosch Repositions ETAS to Service the Entire SDV
Green Hills Software and NXP Partner on SDV Platform
Lynx Acquires CoreAVI
Vertical Markets
Aerospace & Defense
Automotive/Rail/Transportation
Industrial Automation
Regional Markets
The Americas
Europe, the Middle East & Africa (EMEA)
Asia-Pacific (APAC)
Competitive Landscape
Selected Vendor Insights
eSol
Green Hills Software
Lynx
Microsoft
PX5
QNX
Red Hat
Siemens
Wind River
End-User Insights
Rising Utilization of Open Source Operating Systems
Security and Reliability Remain Key Drivers of Purchasing Decision
Increasing Demand for Real-Time Capabilities
An Openness to Safety-Critical Open Source
About the Authors
About VDC Research
List of Exhibits
Exhibit 1: Global Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 2: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Operating System Type; 2023 - 2028
Exhibit 3: Global Unit Shipments of IoT & Embedded Operating Systems, 2023 - 2028
Exhibit 4: Global Unit Shipments of IoT & Embedded Operating Systems, Segmented by Operating System Type; 2023 - 2028
Exhibit 5: Most Important Characteristics when Selecting the Primary Embedded Operating System for Current Project, by use of Windows OS
Exhibit 6: Estimation of Number of Defects and Software Patches Required by Customer Per Year for Most Current Project, Segmented by Primary Operating System Type
Exhibit 7: Primary Operating System Used on Current Project, Segmented by Primary Application Processor Type
Exhibit 8: Processor Family/Architecture of Primary/Application Processor in Current Project
Exhibit 9: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Vertical Market; 2023 & 2028
Exhibit 10: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Vertical Market (Excluding Microsoft); 2023 & 2028
Exhibit 11: Global Revenue of IoT & Embedded Operating Systems and Related Services, Segmented by Vertical Market and Revenue Leaders; 2023
Exhibit 12: Global Aerospace & Defense Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 13: Global Automotive/Rail/Transportation Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 14: Global Industrial Automation Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 15: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Regional Market; 2023 & 2028
Exhibit 16: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Regional Market (Excluding Microsoft); 2023 & 2028
Exhibit 17: Global Revenue of IoT & Embedded Operating Systems and Related Services, Segmented by Regional Market and Revenue Leaders; 2023
Exhibit 18: The Americas Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 19: EMEA Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 20: APAC Revenue of IoT & Embedded Operating Systems & Related Services, 2023 - 2028
Exhibit 21: Global Revenue of IoT & Embedded Operating Systems & Related Services, Segmented by Leading Vendors; 2023
Exhibit 22: Global Revenue of IoT & Embedded Real-Time Operating Systems & Related Services, Segmented by Leading Vendors; 2023
Exhibit 23: Global Revenue of IoT & Embedded Linux Operating Systems & Related Services, Segmented by Leading Vendors; 2023
Exhibit 24: Global Unit Share of IoT & Embedded Operating Systems and Related Services, Segmented by Leading Vendors; 2023
Exhibit 25: Primary Operating System Used on Current Project
Exhibit 26: Primary Operating System Expected to be Used in Three Years
Exhibit 27: Most Important Characteristics When Selecting the Primary Embedded Operating System for Current Project
Exhibit 28: Capabilities/Features of Current Project
Exhibit 29: Type of Real-Time Capabilities for Current Project
Exhibit 30: Primary Operating System Used on Current Project, Segmented by Certification/Process Standard Requirement
Exhibit 31: Primary Operating System Used on Current Project, Segmented by Lack of Certification/Process Standard Requirement
