{"version":"0.1","company":{"name":"YubHub","url":"https://yubhub.co","jobsUrl":"https://yubhub.co/jobs/skill/software-version-control-systems"},"x-facet":{"type":"skill","slug":"software-version-control-systems","display":"Software Version Control Systems","count":2},"x-feed-size-limit":100,"x-feed-sort":"enriched_at desc","x-feed-notice":"This feed contains at most 100 jobs (the most recently enriched). For the full corpus, use the paginated /stats/by-facet endpoint or /search.","x-generator":"yubhub-xml-generator","x-rights":"Free to redistribute with attribution: \"Data by YubHub (https://yubhub.co)\"","x-schema":"Each entry in `jobs` follows https://schema.org/JobPosting. YubHub-native raw fields carry `x-` prefix.","jobs":[{"@context":"https://schema.org","@type":"JobPosting","identifier":{"@type":"PropertyValue","name":"YubHub","value":"job_56241661-4d1"},"title":"Senior Embedded Software Engineer","description":"<p>We are seeking a highly experienced and influential Senior Software Engineer to lead the firmware development and integration for a family of innovative connected modular systems. These multi-functional products can be used both inside and outside the vehicle, creating a seamless and connected user experience.</p>\n<p>As a technical leader, you will play a crucial role in shaping the future of vehicle interaction and personalization, setting the architectural direction for the project. This role requires a deep mastery of embedded systems, connectivity, diagnostics, and a talent for integrating third-party solutions. Strong leadership and collaboration skills are essential for success in this position.</p>\n<p>Responsibilities:</p>\n<ul>\n<li>Lead Firmware Development: Lead the design and implementation of application firmware for connected vehicle devices, focusing on optimizing performance and ensuring robust security. This includes architectural design, code implementation, and ongoing maintenance.</li>\n</ul>\n<ul>\n<li>System Integration: Oversee the integration of various subsystems, including those provided by 3rd party collaborators and vendors, into the overall project. This involves close collaboration with external partners to review firmware specifications, provide design guidance, and ensure seamless interoperability.</li>\n</ul>\n<ul>\n<li>Design and implement end-to-end diagnostics and telemetry features. This includes developing updates for embedded systems and supporting Android applications/bridges, as well as driving full-stack validation from the device to the cloud.</li>\n</ul>\n<ul>\n<li>Ensure continuous improvements, high performance, and robust issue resolution for all developed functionalities, both before and after product launch.</li>\n</ul>\n<ul>\n<li>Connectivity and Communication: Design and implement firmware architecture and communication protocols between the modular devices and other systems, including in-vehicle networks and mobile devices. Ensure secure and reliable data exchange between different components.</li>\n</ul>\n<ul>\n<li>Testing and Validation: Collaborate closely with the validation team to develop and execute comprehensive test plans to validate firmware functionality, performance, stability, and adherence to requirements. This includes defining test cases, developing test scripts, and analyzing test results. Active participation in all testing phases, from unit testing to system-level testing, is expected.</li>\n</ul>\n<ul>\n<li>Continuous Integration: Integrate project source code into the Continuous Integration (CI) software build infrastructure to automate the build process, perform automated testing, and ensure code quality.</li>\n</ul>\n<ul>\n<li>Documentation: Maintain clear and concise documentation of firmware architecture, design decisions, and code implementation.</li>\n</ul>\n<p>Qualifications:</p>\n<ul>\n<li>Bachelor&#39;s or Master&#39;s degree in Computer Science, Electrical Engineering, or a related field.</li>\n</ul>\n<ul>\n<li>Significant experience in embedded software/firmware development, ideally in the automotive or consumer electronics industry.</li>\n</ul>\n<ul>\n<li>Proven experience architecting and leading firmware development for complex embedded systems.</li>\n</ul>\n<ul>\n<li>Strong programming skills in C/C++. Experience with other relevant languages (e.g., Python) is beneficial.</li>\n</ul>\n<ul>\n<li>Deep understanding of RTOS concepts and experience with RTOS platforms.</li>\n</ul>\n<ul>\n<li>Experience with communication protocols such as Ethernet, Bluetooth, and Wi-Fi.</li>\n</ul>\n<ul>\n<li>Proficiency in hardware debugging tools (JTAG debuggers, oscilloscopes, logic analyzers).</li>\n</ul>\n<ul>\n<li>Experience with software version control systems (e.g., Git).</li>\n</ul>\n<ul>\n<li>Excellent problem-solving, analytical, and communication skills.</li>\n</ul>\n<ul>\n<li>Ability to work effectively in a collaborative team environment and lead technical discussions.</li>\n</ul>\n<ul>\n<li>Experience with over-the-air (OTA) updates is a plus.</li>\n</ul>\n<p style=\"margin-top:24px;font-size:13px;color:#666;\">XML job scraping automation by <a href=\"https://yubhub.co\">YubHub</a></p>","url":"https://yubhub.co/jobs/job_56241661-4d1","directApply":true,"hiringOrganization":{"@type":"Organization","name":"Ford Motor Company","sameAs":"https://www.ford.com/","logo":"https://logos.yubhub.co/ford.com.png"},"x-apply-url":"https://efds.fa.em5.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1/job/62569","x-work-arrangement":"hybrid","x-experience-level":"senior","x-job-type":"full-time","x-salary-range":"$135,420-226,980","x-skills-required":["C/C++","Embedded Systems","Connectivity","Diagnostics","Communication Protocols","RTOS","Hardware Debugging Tools","Software Version Control Systems","Problem-Solving","Analytical Skills","Communication Skills"],"x-skills-preferred":["Python","Android Applications","Bridges","Full-Stack Validation","Continuous Integration","Over-the-Air Updates"],"datePosted":"2026-04-24T12:20:46.943Z","jobLocation":{"@type":"Place","address":{"@type":"PostalAddress","addressLocality":"Palo Alto"}},"employmentType":"FULL_TIME","occupationalCategory":"Engineering","industry":"Automotive","skills":"C/C++, Embedded Systems, Connectivity, Diagnostics, Communication Protocols, RTOS, Hardware Debugging Tools, Software Version Control Systems, Problem-Solving, Analytical Skills, Communication Skills, Python, Android Applications, Bridges, Full-Stack Validation, Continuous Integration, Over-the-Air Updates","baseSalary":{"@type":"MonetaryAmount","currency":"USD","value":{"@type":"QuantitativeValue","minValue":135420,"maxValue":226980,"unitText":"YEAR"}}},{"@context":"https://schema.org","@type":"JobPosting","identifier":{"@type":"PropertyValue","name":"YubHub","value":"job_4670c5d1-302"},"title":"Sr. Systems Development Engineer","description":"<p>We made history and now we work to transform the future – for our customers, our communities and our families. You&#39;ll see your work on the road every day, helping people move freely and pursue their dreams. At Ford, you can build more than vehicles. Come build what matters.</p>\n<p>In this position, you will interact with feature owners and software development teams to scope and define robust systems interface and software requirements, with a strong emphasis on proactive Design Failure Mode Effects and Analysis (DFMEA). This includes the process of deriving functional level requirements from feature level requirements, and utilizing a model-based systems engineering approach in conjunction with Behavior Driven Development methodology to define individual functions, use cases, sequence diagrams, and test cases, ensuring design for reliability and early identification and mitigation of potential failure modes across the In-Vehicle Infotainment and Connectivity sub-system and software levels.</p>\n<p>Responsibilities:</p>\n<ul>\n<li>Executing functional partitioning of features, focusing on identifying and isolating potential failure points and ensuring fault tolerance.</li>\n<li>Developing robust and fault-tolerant interfaces between allocable classes, considering potential failure propagation and implementing safeguards.</li>\n<li>Specifying comprehensive system-level and ECU software requirements, explicitly defining expected behavior, error handling, and failure recovery mechanisms based on DFMEA principles.</li>\n<li>Adopting model-based systems engineering (MBSE) methodologies for specification development, leveraging modeling and simulation for early failure mode identification and mitigation.</li>\n<li>Using Requirement Management tools for requirement authoring, change management, and specification generation, ensuring traceability to DFMEA activities and reliability targets.</li>\n<li>Using Behavior Driven Development (BDD) with Gherkin syntax to develop scenarios and associated test cases, incorporating negative test cases and failure scenarios derived from DFMEA analyses.</li>\n<li>Leading and performing comprehensive Design Failure Mode Effects and Analysis (DFMEA) activities throughout the product lifecycle to ensure the thoroughness, robustness, and reliability of software and system designs, proactively identifying and addressing potential failure modes.</li>\n<li>Managing cross-functional working level meetings with Feature/Function Owners, module owners, HMI teams, and the IVI Platform team to develop functional integration strategies that incorporate reliability and failure avoidance considerations.</li>\n<li>Performing rigorous system compatibility analysis and impact assessment for IVI feature deployment, specifically evaluating and mitigating potential failure modes introduced by new architectures, programs, or market variations.</li>\n<li>Proactively identifying, analyzing, and resolving complex technical issues at the system and interface level impacting the In-Vehicle Infotainment system, applying systematic root cause analysis and implementing design changes to prevent recurrence and enhance reliability.</li>\n</ul>\n<p>Qualifications:</p>\n<ul>\n<li>Minimum of a Bachelor of Science Degree in Computer/Software/Electrical Engineering or equivalent.</li>\n<li>5+ years of experience with electrical architecture, electrical systems, and automotive network topologies, with a strong background in Systems Engineering and reliability principles.</li>\n<li>5+ years of experience in robust requirement development, verification, and validation, with a focus on designing for reliability and testability, and experience in component/vehicle level testing for failure modes.</li>\n<li>Proven experience in systematically analyzing and resolving complex systems issues, employing root cause analysis, corrective action methodologies, and implementing design solutions for failure avoidance.</li>\n<li>In-depth knowledge of CAN, LIN, and Ethernet-based In-Vehicle Network protocols and processes, including understanding of potential failure modes and diagnostic strategies.</li>\n<li>Knowledge of Service Oriented Architecture (SOA) based API design, with an understanding of fault tolerance and error handling in distributed systems.</li>\n<li>Knowledge of Human Factors and Human-Machine Interfaces (HMI), including considerations for usability, error prevention, and graceful degradation in failure scenarios.</li>\n<li>Strong knowledge of Requirements Engineering (INCOSE, EARS, BDD/Gherkin), with an ability to translate reliability and safety requirements into actionable specifications.</li>\n<li>Demonstrated in-depth knowledge and practical application of Design Failure Mode Avoidance (DFMA), Failure Modes and Effects Analysis (FMEA), Fault Tree Analysis (FTA), and other reliability engineering techniques.</li>\n<li>Knowledge of Unified Modeling Language (UML) or System Modeling Language (SysML) for modeling system behavior, structure, and potential failure modes.</li>\n<li>Knowledge of Computer Programming Competencies (C++, Python, Java) for developing robust and fault-tolerant software.</li>\n<li>Familiarity with Automotive Infotainment Systems or other Automotive Domains, including a deep understanding of interfaces, communication protocols, features/functions, architecture, and common failure mechanisms.</li>\n</ul>\n<p>Preferred qualifications include knowledge of Network tools (VehicleSpy, CANalyzer, CANoe, ValueCAN, Ethernet tools), requirement authoring tools (VSEM System Engineering, DOORS, JAMA, Polarion, etc), UML/SysML tools (IBM Rational Rhapsody, MagicDraw), Software Version Control Systems and cloud storage (Git, GitHub), VSCode, Technical Writing, Agile Methodologies (Scrum, Kanban), and MS Office Suite.</p>\n<p style=\"margin-top:24px;font-size:13px;color:#666;\">XML job scraping automation by <a href=\"https://yubhub.co\">YubHub</a></p>","url":"https://yubhub.co/jobs/job_4670c5d1-302","directApply":true,"hiringOrganization":{"@type":"Organization","name":"Ford Motor Company","sameAs":"https://www.ford.com/","logo":"https://logos.yubhub.co/ford.com.png"},"x-apply-url":"https://efds.fa.em5.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1/job/62500","x-work-arrangement":"hybrid","x-experience-level":"senior","x-job-type":"full-time","x-salary-range":"$84,480-141,360","x-skills-required":["electrical architecture","electrical systems","automotive network topologies","Systems Engineering","reliability principles","robust requirement development","verification","validation","designing for reliability","testability","component/vehicle level testing","CAN","LIN","Ethernet-based In-Vehicle Network protocols","Service Oriented Architecture","API design","fault tolerance","error handling","distributed systems","Human Factors","Human-Machine Interfaces","usability","error prevention","graceful degradation","Requirements Engineering","Design Failure Mode Avoidance","Failure Modes and Effects Analysis","Fault Tree Analysis","Unified Modeling Language","System Modeling Language","Computer Programming Competencies","C++","Python","Java","Automotive Infotainment Systems","interfaces","communication protocols","features/functions","architecture","common failure mechanisms"],"x-skills-preferred":["Network tools","requirement authoring tools","UML/SysML tools","Software Version Control Systems","cloud storage","VSCode","Technical Writing","Agile Methodologies","MS Office Suite"],"datePosted":"2026-04-24T12:19:28.807Z","jobLocation":{"@type":"Place","address":{"@type":"PostalAddress","addressLocality":"Dearborn"}},"employmentType":"FULL_TIME","occupationalCategory":"Engineering","industry":"Automotive","skills":"electrical architecture, electrical systems, automotive network topologies, Systems Engineering, reliability principles, robust requirement development, verification, validation, designing for reliability, testability, component/vehicle level testing, CAN, LIN, Ethernet-based In-Vehicle Network protocols, Service Oriented Architecture, API design, fault tolerance, error handling, distributed systems, Human Factors, Human-Machine Interfaces, usability, error prevention, graceful degradation, Requirements Engineering, Design Failure Mode Avoidance, Failure Modes and Effects Analysis, Fault Tree Analysis, Unified Modeling Language, System Modeling Language, Computer Programming Competencies, C++, Python, Java, Automotive Infotainment Systems, interfaces, communication protocols, features/functions, architecture, common failure mechanisms, Network tools, requirement authoring tools, UML/SysML tools, Software Version Control Systems, cloud storage, VSCode, Technical Writing, Agile Methodologies, MS Office Suite","baseSalary":{"@type":"MonetaryAmount","currency":"USD","value":{"@type":"QuantitativeValue","minValue":84480,"maxValue":141360,"unitText":"YEAR"}}}]}