SDx requires the introduction of software platforms.
Updating the software OTA, for example, requires a system design taking account of all the layers of software stack, from the OS, middleware or foundation, services, and applications. It also calls for the understanding of standard APIs and cloud computing. In order to design and integrate all these software and technological layers, a full stack engineering is necessary.
eSOL offers the full stack engineering from the bottom to the top, also combining the toolchain and development process into one, contributing thus to the realization of SDx.

SDx is an important concept for the next generation of system development and manufacturing. SDV (Software-Defined Vehicles) is a key theme in particular for the automotive industry. The SDV market is forecast to experience 20.1% annual growth through 2030 and is expected to give rise to innovative and efficient vehicles and new businesses. At eSOL, we interpret the “V” (Vehicle) in the broadest terms, encompassing not only automobiles but also railways, aircraft, robots – anything that moves.
Software-first and platform approaches are indispensable for SDV development. Safety and security are also essential points to consider.
eSOL boasts deep expertise and advanced technological capability cultivated through the provision of platform products and engineering services to global top-class OEMs and suppliers.
With a track record as one of the few leading OS vendors in the market, we are ready to take advantage of our full-stack engineering expertise built through a broad spectrum of software development projects and contribute to the realization of SDV.

eSOL works on a wide array of embedded systems, from automotive and industrial to medical devices, for example. Our strength lies in the development of mission-critical systems that demand high real-time availability, high performance with enhanced safety and security.
As the Cyber Physical Systems (CPS) advances, including SDV, the amount of software increases further while these computers, both on the edge and in the cloud, will increasingly become mission-critical, resulting in a need for higher performance and energy efficiency. eSOL eMCOS OS offers high scalability for hundreds of processing cores. Its deterministic, real-time processing is a unique solution to the challenge of CPS.
In the automotive and aerospace fields, where high performance and high safety are required, the adoption of eSOL's platform products is a testament to their reliability. Our engineering services, which we provide in conjunction with our products, have also received high praise for their technological capability and reliability. By leveraging the wealth of technical knowledge, we have gained through long years of supporting the development of these systems, we support customers in realizing ever more advanced mission-critical systems.

eSOL contributes globally to industrial standardization activities in the field of automotive technologies, such as AUTOSAR, SOAFEE and the Autoware Foundation. We also contribute to standardization of multi-many-core technologies such as the IEEE 2804 SHIM Working Group.
As systems become more sophisticated, complex, and large-scale, using standards and open-source software, to achieve the re-use of software, is becoming increasingly important.
eSOL actively contributes to these standardization activities and quickly incorporates standardized technologies into its products and services. By utilizing these technologies in development, it supports the development of systems that are highly interoperable, reliable, flexible, and scalable.