Empowering practical innovation for mission-critical vehicle functions
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Automotive embedded software development competencies
HMI and In-Vehicle Infotainment (IVI)
We build complex HMI and IVI solutions that support multimedia features, comfort functions, personalization settings, and online services, covering architectural design, validation of cybersecurity compliance, and configuration of embedded operating systems including Automotive Grade Linux, Android Automotive, BlackBerry QNX, Kernel-based OS, and custom-made embedded Linux with the integration of leading frameworks like Kanzi, Altia, DiSTI, Qt Automotive, Vulkan, and OpenGL.
Board Support Package
We provide expertise in BSP development from low-level bootloader bring-up, Hypervisor porting, and adaptation to target platforms, to development of Yocto-based BSPs for target boards and BSPs for virtual Hypervisor environments, middleware services, apps, and secure firewall scripts. We work with Adaptive and Classic AUTOSAR platforms, open-source RTOS, Android, Linux, and QNX, covering maintenance and upgrades of customer-specific boards based on SoCs from Qualcomm, Renesas, Infineon, TI, Intel, and NXP.
Hypervisor platforms
Consolidation of infotainment, connectivity, and safety-related workloads on a single hardware platform with E2E virtualization support from BSPs, guest setup, and resource management to device assignment, IPC, backend drivers, OTA, and boot-time optimization. We work with Xen, QNX Hypervisor, Green Hills Multivisor, OpenSynergy COQOS, LXC, and Docker to accelerate SDV development.
AUTOSAR-compliant ADAS
We develop AUTOSAR-compliant embedded software modules, working with microcontroller platforms and AUTOSAR Classic and Adaptive Platforms, migrating to new SoCs/MCUs, creating prototypes for target boards with necessary MCAL modifications, running vehicle bus simulations using leading tools like dSPACE and Vector, validating the architectural design of AUTOSAR-based ECUs for functional safety compliance, automatically generating code with Matlab/Simulink, and performing AUTOSAR module functional and integration testing with model in a loop and hardware in a loop approaches.
AI and Machine Learning
We cover the integration of ADAS-enabling functions, including real-time perception algorithms, FuSa-compliant ML algorithms, embedded navigation, and high-performance embedded services with OS Linux, RTOS, and QNX. We work with operation systems on multiple levels, from creating sensor firmware and developing Linux drivers to integrating middleware of AI/ML/DNN frameworks into BSPs, developing ADAS testing apps, and integrating SDKs for ADAS, GL Studio, and Qt.
Validation and verification
We have a deep understanding of full-cycle development, integration, and validation of AUTOSAR-based ECU components and ADAS/AD (autonomous driving) safety functions to ensure industry compliance and alignment with requirements. Our engineering teams perform functional, integration, and qualification testing, validating and verifying ISO/SAE 21434 criteria and simulating ADAS/AD algorithms using modern techniques and proprietary frameworks.
Functional safety
We follow the ISO 26262 framework to ensure the safety of vehicle electrical and electronic systems, reduce software failures, build testing models, create software for ECU modules, and align processes with industry standards. Our embedded engineers are experienced in ASIL-A/ASIL-C compliant ECU development and in-vehicle bus simulation using tools from leading suppliers like Vector and dSPACE.
ECU development
We have practical experience working with AUTOSAR-based architectures to create software for critical ECU systems that control body electronics, powertrain, transmission, chassis acceleration, deceleration, steering, and braking. We cover the full-cycle development of virtualized Hypervisor solutions to test and configure ECU performance, optimize computing and energy power consumption, and validate compliance with ASPICE requirements.
Firmware Over the Air
We have extensive expertise in developing custom over the air / firmware over the air (OTA/FOTA) components for remote and background updates of ECU firmware. This includes configuring and integrating open-source and commercial OTA/FOTA products to achieve efficient update downloads and reduce install time, minimize download package size, and integrate and test third-party OTA/FOTA solutions for compliant ECU firmware updates.
In-vehicle networks
We create software for CAN, LIN, V2V, V2X, and other in-vehicle networks, enabling real-time ethernet connections, stable high-speed wireless connections, and optimized energy consumption. We create communication protocols for in-vehicle communication between ECU units, cloud connectivity, and processing of incoming telematics data (car sensor data, weather data, data from road infrastructure) for critical safety functions.
V2X
We develop embedded software to connect vehicles, cloud, and infrastructure using hardware and software from Qualcomm, Quectel, and Cohda Wireless. This software enables V2X communication by integrating onboard modules with leading cloud services, ensuring high solution availability and optimal processing of third-party and in-vehicle telematics data for enhanced vehicle performance.
Cybersecurity
We ensure the highest level of security for connected vehicles, adhering to ISO 21434 standards in cybersecurity planning. We run SDLC audits and complex cybersecurity assessments for vehicle ECUs and in-car networks with modeling and analysis of cybersecurity issues, probability estimation, and mitigation planning.
eMobility
We work on adaptive, reliable, and secure embedded navigation for EVs, implementation of FOTA updates, and development of embedded computing solutions that ensure efficient charging network management and prevent failures in integration with the smart grid. We support clients with the implementation of CPP/OCPI protocols for EVs, charging infrastructure, and various hardware classes.
Edge computing
We integrate core in-vehicle modules with transport and traffic management systems, creating embedded software that leverages edge computing power for critical safety features to improve vehicle performance and response times. Our expertise in optimizing algorithms and applying leading frameworks allows for real-time data processing and reduces dependency on cloud services and connectivity networks.
Our automotive accelerators for embedded software
At Intellias, we build accelerators that help OEMs and Tier 1 suppliers test, modernize, integrate, and bring products to market faster without engineering everything from scratch. From next-generation infotainment systems to autonomous driving solutions, our accelerators simplify complex transformations into efficient and scalable implementation of validated industry-grade solutions.
Intellias automotive accelerators showcase our cross-domain expertise, built through collaboration with clients, technology partners, industry associations, and open-source communities. They address key areas where organizations need tech innovation and business efficiency from a proven automotive embedded software development company, spanning advanced data capabilities, cloud connectivity, enhanced user experience, embedded development, and modern platforms.
IntelliKit
The Automotive Portable Kit, or simply IntelliKit, showcases the engineering expertise we provide to our clients by integrating automotive-grade hardware, cloud platforms and tools, developing embedded and middleware software, and designing breathtaking user interfaces.
Smart Charger
Intellias Smart Charging Portable Kit is an all-in-one solution accelerator designed to tackle the toughest hurdles in EV charging infrastructure, specifically on interoperability, standardization, and scalability.
Partnerships and certifications
Ecosystem provider partnerships
Compliance with industry standards
What our clients say
Over the past few years of our partnership with Intellias, our teams have closely collaborated to successfully deliver critical programs to HERE customers. Intellias teams have consistently delivered on time and on quality. They have been extremely responsive and customer focused, mobilizing quickly to respond to requests, challenges, and feedback. We are looking forward to continuing our close relationship and accompanying Intellias in their global development.
It all comes down to capabilities, experience, and scalability. The Intellias team has Digital Cockpit-specific knowledge on the SDK level combined with vast experience building HMI solutions. We have also been working with Intellias for quite some time, so there’s a strong relationship there already. These insights and the Intellias capabilities showcased during a couple of joint projects made us believe and trust in Intellias as a partner.
We are excited to partner with Intellias and combine our ICs with their software expertise to deliver exceptional products to our customers. Our partnership with Intellias represents a significant step forward for Elmos. By combining our strengths, we are now even better positioned to deliver state-of-the-art automotive innovation that meets the evolving needs of the industry. This partnership is a win-win for both companies, and most importantly, for our customers.
By entering into this partnership, the Intellias hub will act as an extension of our team in Gothenburg, accelerating our overall digital production capabilities and supporting customer co-creation. By having a strengthened team in Europe, we can not only create new unique digital products and services for markets outside of China but also respond quickly to customer input and feedback.
In-focus mobility domains
Navigating change. Our insights
White paper
Intellias: An AUTOSAR Partner
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