Architect scalable, power-efficient, and real-time embedded systems for industrial automation, IoT, and edge AI applications.
Define hardware-software co-design strategies, ensuring seamless integration between firmware, hardware, and cloud.
Select optimal microcontrollers (STM32, Nordic, TI, ESP32, NXP, etc.), processors, and SoCs based on application requirements.
Implement multi-core processing strategies, RTOS integration, and power management techniques.
Develop high-performance, low-latency firmware using C, C++, and Rust.
Optimize code for memory efficiency, power consumption, and real-time execution.
Work on bootloaders, device drivers, HAL/LL libraries, and peripheral optimization.
Utilize RTOS (FreeRTOS, Zephyr, ThreadX) and embedded Linux for complex system designs.
Implement low-power wireless protocols (BLE, Wi-Fi, LoRa, Zigbee, Sub-GHz, 5G, UWB).
Design robust, scalable communication stacks using MQTT, CoAP, OPC-UA, and Modbus.
Work on time-sensitive networking (TSN) and deterministic communication protocols for industrial applications.
Integrate secure boot, encrypted firmware updates (OTA), and cryptographic libraries.
Ensure cybersecurity compliance (ISO 27001, NIST, IEC 62443) for IoT deployments.
Implement fault-tolerant and fail-safe mechanisms for mission-critical applications.
Design edge-AI optimized architectures for real-time sensor fusion, predictive analytics, and anomaly detection.
Utilize TensorFlow Lite, Edge Impulse, or custom DSP algorithms for embedded AI/ML applications.
Optimize hardware acceleration using DSPs, NPUs, and FPGAs.
Perform low-level debugging with JTAG, SWD, oscilloscopes, and logic analyzers.
Use profiling tools to optimize CPU utilization, task scheduling, and power consumption.
Ensure compliance with EMC/EMI, safety, and regulatory standards (FCC, CE, UL).
Drive design reviews, system modeling, and documentation.
Work closely with hardware, software, and cloud teams to define end-to-end solutions.
Mentor junior engineers and establish best practices in embedded development.
Education:
Experience:
Embedded Systems & Firmware Development
✅ Expert in C, C++, and Rust for embedded firmware development.
✅ Experience with microcontrollers (STM32, ESP32, Nordic, TI, NXP) and embedded processors.
✅ Strong knowledge of RTOS (FreeRTOS, Zephyr, ThreadX) and embedded Linux (Yocto, Buildroot, OpenWrt).
✅ Expertise in interrupt-driven systems, DMA, and real-time task scheduling.
Wireless & Industrial Protocols
✅ Experience with BLE, Wi-Fi, LoRa, Zigbee, Sub-GHz, 5G, UWB, and NB-IoT.
✅ Familiarity with Modbus, CAN, I2C, SPI, UART, RS-485, and industrial Ethernet.
Embedded Security & Cryptography
✅ Implementation of secure boot, OTA updates, TLS/SSL, and encryption (AES, ECC, SHA).
✅ Knowledge of secure key storage (TPM, HSM), authentication mechanisms, and security protocols.
Edge AI & Machine Learning on Embedded Systems (Preferred)
✅ Hands-on experience with TinyML, TensorFlow Lite, Edge Impulse, or DSP-based AI.
✅ Hardware acceleration using NPUs, GPUs, or dedicated AI processors.
Testing, Debugging & Optimization
✅ Strong debugging skills using JTAG, SWD, oscilloscopes, and logic analyzers.
✅ Experience in power profiling, real-time debugging, and firmware optimization techniques.
At EURTH TECHTRONICS PVT LTD, we are building the next-generation embedded architectures for IoT, industrial automation, and edge computing solutions.
- Lead mission-critical embedded system designs at the architecture level.
- Work on cutting-edge projects in industrial automation, edge AI, and low-power wireless networks
- Join a team of experts pushing the boundaries of embedded innovation.
Send your updated resume + portfolio (GitHub, design documents, or firmware projects) to [email protected].
Fill out the application form here: [Google Form Link].
