Developed an LRU product to support two separate series of aircraft with the safety criticality at Level A for airborne systems. We helped our aero client reduce NRE/RE cost and enabled the system/product to qualify for Design Assurance Level A.
Designed and developed a modular control platform for a cold storage provider through a redesign approach that allowed the client to reuse 75% of the code and reduce LRU development cost by 40%
Enhance your hardware, firmware, and middleware design with embedded applications, UI and UX, and mechanical design services and leverage our capabilities across the product development life cycle—from PoC to pre-certification and certification support.
Leverage capabilities, including board support package development, firmware, device drivers, protocols, and cross-platform porting to address challenges such as low power, small footprint, and low failure tolerance.
Utilize our capabilities in the design and development of multilayer PCB (up to 24 layers) and FPGA-based hardware, prototyping and testing, E-CAD, failure analysis, and manufacturing.
Develop solutions based on our extensive experience in validating system and product safety for critical airborne products consistent with DO178B, DO178C, DO262, mature process quality standards such as CMM, BEST, and Six Sigma, and hardware and software validation.
Design and develop embedded applications for navigation devices, mobile applications, multimedia, and wireless communication that include UI and experience development, multimedia applications, and framework development (DirectShow, OpenGL). Address the requirement for optimal real-time performance devices for critical hardware and software systems.
Ensure equivalent component identification, code re-usability, and BOM cost reduction through our value-added services, well-defined processes, and proven methodologies and tools.
Design power supplies using various topologies, sensor interfaces and process controls, control algorithms for AC/DC drives, power device selection (such as IGBTs), including designing thermal management and EMI/EMC compliance as per IEC, MIL, and SAE standards.
Design and verify safety-critical embedded software applications by using modeling and simulation tools that follow a model-based design approach for the simulation and modeling.
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