The adoption of system-on-modules (SoMs) in the medical device industry is emerging as a transformative trend, offering engineers and designers the tools to optimize devices for enhanced connectivity and superior performance. The healthcare sector, in particular, is witnessing a continuous influx of innovations, making it imperative for devices to be equipped with effective designs and reliable components. As technology evolves, medical devices become more complex, leading to a demand for solutions that ensure robust performance and longer product lifecycles. SoMs, with their modular and versatile nature, are playing a crucial role in meeting these evolving requirements.
One of the key challenges in the healthcare industry is the increasing complexity of medical devices. Effective designs are essential to navigate this complexity and ensure the seamless integration of various components. SoMs provide a comprehensive solution as they encapsulate critical components like microprocessors, RAM, and other necessary elements on a single printed circuit board. This integration simplifies the design process, reduces points of failure, and contributes to the overall reliability of medical devices.
The healthcare landscape demands continuous connectivity, especially for devices involved in patient monitoring and other critical functions. Many medical devices need to be always connected to facilitate efficient patient monitoring, asset management, tracking, and ensuring patient safety. SoMs offer the necessary connectivity features that make them well-suited for applications in medical devices. The ability to stay connected is crucial for innovations in medical devices, and SoMs play a pivotal role in achieving this connectivity seamlessly.
Furthermore, the healthcare industry requires devices with extended product lifecycles to ensure consistent and reliable performance over time. SoMs contribute to achieving this goal by providing a modular platform that allows for easy upgrades and modifications without the need for a complete redesign. This flexibility is particularly beneficial in the medical field, where regulatory compliance and adherence to stringent quality standards are paramount.
Medical device manufacturers are increasingly relying on SoMs to integrate advanced functionalities into their products. SoMs can be effectively integrated into a range of medical devices, including infusion ventilators, implantable cardiac defibrillators, pumps, electrocardiograms (ECGs), bedside terminals, patient monitors, and more. The modular architecture of SoMs facilitates seamless integration, allowing manufacturers to focus on the specific functionalities and features of their medical devices without getting entangled in the intricacies of component-level design.
The adoption of SoMs in medical devices presents a lucrative opportunity for vendors operating in the global system-on-module market. As the healthcare industry continues to prioritize innovation, connectivity, and reliability in medical devices, SoMs are well-positioned to play a significant role in shaping the future of medical technology. The ability of SoMs to address the unique challenges of the healthcare sector makes them a valuable asset for medical device manufacturers, offering a pathway to efficient, connected, and reliable healthcare solutions.
In conclusion, the adoption of system-on-modules in the medical device industry is driven by the need for effective designs, enhanced connectivity, and superior performance in the evolving landscape of healthcare technology. The modular nature of SoMs aligns with the requirements of the healthcare sector, making them a vital component in the development of innovative and connected medical devices. The future of medical technology is intricately linked with the capabilities of SoMs, and their adoption is poised to contribute significantly to advancements in patient care, monitoring, and overall healthcare efficiency.
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Segment Outlook | Type, Standard, Application, and Region |
System on Module Market Size was valued at USD 2.9 Billion in 2023. The System on Module industry is projected to grow from USD 3.2 Billion in 2024 to USD 6.0 Billion by 2032, exhibiting a compound annual growth rate (CAGR) of 8.4% during the forecast period (2024 - 2032). The rising consumer adoption and surge in consumer demand for portable and wearable devices will boost the market growth.
Source: Secondary Research, Primary Research, MRFR Database, and Analyst Review
The increasing miniaturization of the system on module has resulted in optimum space and functionality, which is key requirements in portable and wireless devices. System on modules work on low power and offer balanced performance and, therefore, can be used in multiple handheld and portable devices. This allows developers to choose the platform best suited to their application needs. Developers can write application software on the same hardware that will be used in their final product. Thus, the surge in the demand for portable and wireless devices is expected to drive the growth of the System on Module Market during the forecast period.
Wearable devices are miniature portable devices used on the human body, mainly integrated and designed to replace already existing accessories like a watch and other medical equipment. The market for wearable and portable devices is booming significantly owing to the use of IoT, artificial intelligence and machine learning technologies. Thus, the need for smaller, more intuitive devices is rapidly increasing. In addition to the end user market, the demand for devices to track physical conditions and functionalities in medical industry is expected to rise the penetration of system on module in upcoming years. For instance, in December 2022, Kopin Corporation, a developer and supplier of micro-displays and sophisticated optics for wearable headsets, developed a collaborative technology solution along with OPTAC-X, a telehealth company, and RealWear, hands-free and sturdy wearable headsets. OPTAC-X offers telehealth developed to enable first responders and medical personnel to save lives in battle and other dangerous situations with the help of optic technologies and aided reality wearable.
The System on Module market segmentation, based on Type, includes ARM architecture, X86 architecture, power architecture. The power architecture held the leading segment growth over the forecasted period among the rest of types of system on modules. Power architecture is an instruction set architecture (ISA) implemented by a variety of processors from various vendors, including Power7, IBM's latest server processor. It is designed to exploit parallelism at the instruction, data, and thread-level.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
According to Standard, the segment is divided into COM Express, SMARC, Qseven, ETX/ XTX, COM-HPC and others. Qseven segment led the overall market in the System on Module industry in 2022, and COM-HPC segment is expected to grow significantly in terms of CAGR during the forecast period. COM-HPC (Computer on Module – High Performance Computing) is an open standard for a family of high-performance computer modules targeting the embedded computer space. When it comes to aspects like long-term availability, prolonged temperature operation, mechanical toughness, hardware, and firmware that can be tailored to the application, and Module vendor assistance for product developers, the embedded market differs from the commercial market.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
The System on Module market research segmentation, by application, the market is segmented into industrial automation, medical, entertainment, transportation, test and measurement, and others. System on module improves processing & machine operations and communication among factory equipment and industrial robots, accelerating market growth. The escalation of industrial robots in the manufacturing sector is contributing to the adoption of SoM in industrial automation. South Korea holds the highest robot density that stands at over 600 robots per 10,0000 robots in the industrial sector.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
By Region, the study segments the market into North America, Europe, Asia-Pacific, Middle East & Africa, and South and Central America. North America accounted for the largest share of revenue in 2022. The increasing uptake of wearable healthcare devices across developed economies is fueling the market. In addition, the rising penetration of IoT technology in North America will further accelerate the market growth. The presence of various companies such as Atmel Corporation, Intel Corporation, and Texas Instruments are contributing to the growth of the market by providing various systems to different industries to perform the task associated with their applications. Also, the rising urbanization and demand for smart appliances and the presence of large-scale industries in the region are some of the major factors driving the market in the region
The Asia-Pacific region is expected to have the largest market CAGR in the system on module market. The flourishing IT & services infrastructure in countries, including China and India, is supporting the adoption of highly efficient embedded computing solutions and IoT technologies, which provides an impetus for industry growth. The increased demand for automated solutions in manufacturing industries for advancement will create market prospects in the Asia Pacific region. the adoption of IoT and advanced technologies by several organizations, led to surge the need for system on modules in Asia Pacific.
Further, the countries considered in the scope of the System on Module market are the US, Canada, Mexico, UK, Germany, France, Italy, China, Japan, Singapore, South Korea, South Africa, Saudi Arabia, United Arab Emirates, Brazil, Argentina, and others.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
Major market players are spending a lot of money on R&D to increase their product lines, which will help the System on Module market grow even more. Market participants are also taking a range of strategic initiatives to grow their worldwide footprint, including new product launches, contractual agreements, mergers and acquisitions, increased investments, and collaboration with other organizations. Competitors in the System on Module industry must offer cost-effective items to expand and survive in an increasingly competitive and rising market environment.
TechNexion’s collaboration with Emteria in September 2021 is meant to grow embedded products for the long term on the Android-based operating system.
In 2022, SiFive declared its alliance with BrainChip, an AI processor manufacturing company. The partnership’s motto is to offer designer chips optimized with Artificial Intelligence and machine learning for edge computing.
Deutsche Beteiligungsgesellschaft acquired Cognate AG in August 2022 for approximately US$136 million. Deutsche Beteiligungsgesellschaft made this acquisition in order to strengthen its position within the market.
The joint cooperation of Covade and SoMLabs in 2020 aims to provide engineering services for projects throughout Europe. Covade has broad experience and expertise in designing embedded electronic systems.
The joint cooperation between Covade and SoMLabs in 2020 aims to provide engineering services across projects all over Europe. Covade has vast experience and expertise in developing embedded electronic system designs.
Bulgarian open hardware specialist Olimex introduced a new system-on-module (SOM) and an evaluation carrier board that targeted industrial applications — using NXP's iMX 8M Plus system-on-chip with its 2.3 TOPS neural coprocessor for on-device machine learning workloads and artificial intelligence workloads launched on June 2024.
Telit Cinterion, an IoT solutions provider, announced that they had released SE868K5-RTK, which is a Global Navigation Satellite System (GNSS) receiver module with an accuracy of up to centimeter-level positioning. The first GNSS module in Telit Cinterion’s portfolio, which enables such high-precision location data, is made possible by means of advanced Real Time Kinematics (RTK) technology. Dual frequency signals, as well as support for multiple satellite constellations, are used by the module, thus overcoming multipath interference and identifying locations with unmatched accuracy.
MYiR, Variscite, and Compulab have launched a new NXP i.MX 93 system-on-modules in May 2024. We covered announcements about earlier NXP i.MX 93-based modules like ADLINK OSM-IMX93 and Ka-Ro Electronics’ QS93, as well as products integrating the higher-end NXP i.MX 95 processor, such as the Toradex Titan Evaluation kit. In addition to two older models for Dart and Variscite, there are also three others based on the same chip from Compulab that are now available.
North America
Europe
Asia-Pacific
Middle East & Africa
South and Central America
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