[{"additionalPlain":"Benefits include but not limited to:\n\nHealth, dental and vision\nFSA, HSA\nPTO plus 14 paid company holidays\n401K with 3% contribution\nStock Options\nLife insurance and disability\n","additional":"Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full Time","department":"Semiconductor Engineering","location":"Milpitas, California","team":"ASIC Engineering","allLocations":["Milpitas, California"]},"createdAt":1745364853331,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n\n\nJob Description:\nLumotive is seeking a highly experienced and hands-on Director of Analog to lead the development of next-generation analog circuitry for Beam steering mixed-signal ASIC controllers. This leadership role is critical in defining and driving the development of active transistor matrix arrays and analog channel driver technologies in close collaboration with optical and ASIC design teams.\nYou will oversee the full life cycle of mixed-signal IPs—from architecture definition, design, and layout to tape-out, silicon bring-up, and mass production. This role requires a seasoned technical leader with deep domain expertise, exceptional problem-solving skills, and the ability to thrive in a fast-paced, interdisciplinary environment.\n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\n\n
Lumotive is seeking a highly experienced and hands-on Director of Analog to lead the development of next-generation analog circuitry for Beam steering mixed-signal ASIC controllers. This leadership role is critical in defining and driving the development of active transistor matrix arrays and analog channel driver technologies in close collaboration with optical and ASIC design teams.
\n
You will oversee the full life cycle of mixed-signal IPs—from architecture definition, design, and layout to tape-out, silicon bring-up, and mass production. This role requires a seasoned technical leader with deep domain expertise, exceptional problem-solving skills, and the ability to thrive in a fast-paced, interdisciplinary environment.
\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\n\n
Lumotive is seeking a highly experienced and hands-on Director of Analog to lead the development of next-generation analog circuitry for Beam steering mixed-signal ASIC controllers. This leadership role is critical in defining and driving the development of active transistor matrix arrays and analog channel driver technologies in close collaboration with optical and ASIC design teams.
\n
You will oversee the full life cycle of mixed-signal IPs—from architecture definition, design, and layout to tape-out, silicon bring-up, and mass production. This role requires a seasoned technical leader with deep domain expertise, exceptional problem-solving skills, and the ability to thrive in a fast-paced, interdisciplinary environment.
\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
\n
Job Description:
\n
\n
In this role, you will own day-to-day support and enablement for customers evaluating Lumotive dev kits. This role is the frontline interface for early-stage customers and plays a key role in moving them toward adoption.
\n
\n
\n
\n
\n
\n
\n- Support LiDAR dev kit customers during evaluation phase, including setup, configuration, and integration
\n- Provide sample datasets and guidance on sensor usage and modes
\n- Conduct and support basic testing and joint customer evaluations (remote/on-site)
\n- Troubleshoot common issues in integration and usage
\n- Maintain clear communication with customers to drive progress and avoid stalls
\n- Collaborate with internal teams to escalate and resolve issues
\n\n
\n
\n- Bachelor’s degree in Engineering, Electrical, Computer Science or related
\n- 1–3 years of hands-on engineering experience
\n- Background in electrical engineering, optics, robotics, or related fields
\n- Comfortable with basic debugging (hardware/software) and scripting / data handling (Python, ROS is a plus)
\n- Strong English communication skills and ability to work with customers
\n- Comfortable to work in a fast paced start up environment
\n- Exposure to LiDAR / 3D sensing and robotics or perception systems is preferred
\n- Candidates must be Omani Nationals
\n\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"\n
Job Description:
\n
\n
In this role, you will own day-to-day support and enablement for customers evaluating Lumotive dev kits. This role is the frontline interface for early-stage customers and plays a key role in moving them toward adoption.
\n
\n
\n
\n
\n
Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full Time","department":"Semiconductor Engineering","location":"Milpitas, California","team":"ASIC Engineering","allLocations":["Milpitas, California"]},"createdAt":1779411137042,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n\n\nJob Description:\nJoin our firmware team to develop and support embedded software for next-generation Mixed signal ASIC/SoC for Optical circuit switching platform. This role is ideal for recent graduates or engineers with up to one year of experience who want hands-on exposure to embedded systems, firmware development, RTOS environments, and hardware bring-up. You will work closely with experienced engineers across hardware, software, and system teams to develop production-quality firmware and gain practical experience with embedded platforms.\n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\n\n
Join our firmware team to develop and support embedded software for next-generation Mixed signal ASIC/SoC for Optical circuit switching platform. This role is ideal for recent graduates or engineers with up to one year of experience who want hands-on exposure to embedded systems, firmware development, RTOS environments, and hardware bring-up. You will work closely with experienced engineers across hardware, software, and system teams to develop production-quality firmware and gain practical experience with embedded platforms.
\n
\n
\n- Develop and maintain embedded firmware modules for processor-based systems and ASIC/SoC platforms.
\n- Assist in implementation, integration, and debugging of firmware features under guidance from senior engineers.
\n- Support development and validation of drivers and interfaces for embedded peripherals such as I²C, SPI, UART, GPIO, DMA, and related hardware modules.
\n- Participate in RTOS-based firmware development activities including task creation, scheduling, and debugging.
\n- Support board bring-up activities and system-level integration and validation.
\n- Collaborate with hardware and software teams to integrate firmware components into the overall system architecture.
\n- Assist in debugging firmware and hardware interaction issues.
\n- Write unit tests and participate in system-level testing and validation activities.
\n- Use debugging and lab tools such as JTAG, oscilloscopes, logic analyzers, and related tools for troubleshooting.
\n- Participate in code reviews and follow software development best practices.
\n- Document firmware designs, implementation details, and test results.
\n- Work closely with cross-functional teams including ASIC, hardware, software, and systems engineering teams.
\n\n
\n
\n- Bachelor’s, Master’s, or PhD degree in Computer Science, Computer Engineering, Electrical Engineering, or related field.
\n- 0–1 year of experience in embedded systems or firmware development (internships, research work, and academic projects are acceptable).
\n- Basic understanding of C/C++ programming for embedded systems.
\n- Understanding of computer architecture concepts including memory systems, interrupts, and processor fundamentals.
\n- Basic understanding of embedded systems and microcontroller-based design.
\n- Familiarity with communication protocols such as I²C, SPI, UART, GPIO, Ethernet or similar interfaces.
\n- Familiarity with software development tools and version control systems such as Git.
\n- Strong problem-solving and analytical skills.
\n- Good written and verbal communication skills.
\n- Ability to learn quickly and work effectively in a collaborative team environment.
\n- Internship, academic research, or project experience in embedded systems or firmware development.
\n- Exposure in IC design, processor design or optical system design.
\n- Exposure to RTOS environments such as FreeRTOS, Zephyr, ThreadX, or similar systems.
\n- Basic scripting experience with Python or similar programming languages.
\n- Familiarity with Linux-based development environments.
\n- Exposure to debugging tools such as oscilloscopes, logic analyzers, or JTAG-based debugging.
\n- Understanding of software testing concepts including unit testing and debugging methodologies.
\n- Familiarity with embedded software development workflows and build systems.
\n\n
Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.
","salaryDescriptionPlain":"Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.\n","text":"Engineer, Firmware","country":"US","workplaceType":"onsite","opening":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\n\n
Join our firmware team to develop and support embedded software for next-generation Mixed signal ASIC/SoC for Optical circuit switching platform. This role is ideal for recent graduates or engineers with up to one year of experience who want hands-on exposure to embedded systems, firmware development, RTOS environments, and hardware bring-up. You will work closely with experienced engineers across hardware, software, and system teams to develop production-quality firmware and gain practical experience with embedded platforms.
\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\nSupport development, testing, and customer use of Lumotive LiDAR systems through Python scripting, API-level integration, and data analysis. This role works at the interface of software, hardware, and customer applications.
","id":"e84e7f0d-1645-47bf-8343-234c74ee865d","lists":[{"text":"Responsibilities:","content":"\n
\n- Develop Python scripts and tools for LiDAR testing and automation and data capture and processing
\n- Work with LiDAR APIs and GUIs to configure sensors and run experiments and test scenarios
\n- Analyze point cloud and sensor data for basic visualization and identifying issues and anomalies
\n- Support customer use of dev kits including setup, configuration, and troubleshooting
\n- Assist in building and maintaining test scripts and workflows as well as datasets for evaluation and demos
\n- Interface with test stations and lab equipment and basic automation setups
\n- Collaborate with systems and applications engineers on debugging issues and validating system behavior
\n\n
\n
\n- Bachelor’s degree in Engineering, Electrical, Computer Science or related field
\n- 0–3 years of experience in software engineering or related field
\n- Strong proficiency in Python scripting
\n- Basic understanding of API’s and software interaction as well as data structures and debugging
\n- Comfortable working close to hardware (not purely backend/software role)
\n- Exposure to LiDAR / 3D sensing / robotics and ROS or point cloud tools (e.g., Open3D, PCL) is preferred
\n- Basic knowledge of C / embedded C and Linux environments is preferred
\n- Candidates must be Omani Nationals
\n\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\nSupport development, testing, and customer use of Lumotive LiDAR systems through Python scripting, API-level integration, and data analysis. This role works at the interface of software, hardware, and customer applications.
","descriptionBodyPlain":"","hostedUrl":"https://jobs.lever.co/lumotive/e84e7f0d-1645-47bf-8343-234c74ee865d","applyUrl":"https://jobs.lever.co/lumotive/e84e7f0d-1645-47bf-8343-234c74ee865d/apply"},{"additionalPlain":"Benefits include but not limited to:\n\nHealth, dental and vision\nFSA, HSA\nPTO plus 14 paid company holidays\n401K with 3% contribution\nStock Options\nLife insurance and disability\n","additional":"Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full-time","department":"Systems Engineering & Customer Support","location":"Redmond, Washington","team":"Hardware Engineering","allLocations":["Redmond, Washington"]},"createdAt":1780602597785,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
\n
Job Description:
\n
\n
We are seeking a highly motivated and detail-oriented individual to join our team as a Technologist. In this position, you will play an essential role in building our unique LCM technology into cutting edge Lidar systems. While prior experience is not required, a strong interest in emerging technologies and willingness to learn are essential. You will work closely with our team of experienced engineers to support system prototype development and engineering operations.
\n
\n\n
Component and sub-assembly intake and inventory management:\nManage and optimize intake and quality control procedure for circuit boards, optomechanical components, and subassemblies.\nTrack inventory of key component, subassembly, and systems on site and at contract manufacturer.\nLidar system prototyping:\nPrototyping hands-on tasks including opto-mechanical precision assembly, optical alignment, system calibration, opto-electrical test and measurement.\nSet up workbench and build fixtures for system assembly, calibration and test.\nLidar system quality control:\nManage and optimize intake and incoming quality control of prototype parts, circuit boards, and subassemblies.\nManage Lidar system outgoing quality control and engineering sample fulfillment.\nSupport engineering and lab operations:\nOperate and maintain custom electro-optical test setup for system calibration, characterization and performance evaluation.\nSupport system engineering lab equipment and ensure facility stays organized and functional.\n\n"},{"text":"Qualifications:","content":"\n\n
Associate’s degree or diploma in engineering related field or equivalent experience in a hardware lab or manufacturing environment.\nExcellent attention to detail and ability to follow instructions accurately.\nStrong organizational skills and ability to work effectively in a team environment.\nPrior experience with opto-electronics product is highly preferred.\nAble to work under general supervision. \nEffective written and verbal communication skills.\n\n"}],"salaryRange":{"min":40000,"max":45000,"currency":"USD","interval":"per-year-salary"},"text":"Hardware Engineering Technician","country":"US","workplaceType":"onsite","opening":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"\n
Job Description:
\n
\n
We are seeking a highly motivated and detail-oriented individual to join our team as a Technologist. In this position, you will play an essential role in building our unique LCM technology into cutting edge Lidar systems. While prior experience is not required, a strong interest in emerging technologies and willingness to learn are essential. You will work closely with our team of experienced engineers to support system prototype development and engineering operations.
\n
Job Description:
\n\n
The Hardware Reliability Engineer is a critical role in a cross-functional team building next-generation lidar systems for industrial, consumer, and automotive applications. This is a high-ownership, hands-on role spanning test methodology, qualification, failure analysis, and manufacturing quality practices. This role reports to the Sr. Director of Hardware Engineering.
\n
You will work closely with optical, electrical, mechanical, systems, software, and test engineering teams across the full product development lifecycle – from early requirements and design reviews through prototype builds and design qualification. You will personally set up test equipment, execute test plans, analyze data, and perform failure analysis. This role requires clear technical communication with cross-functional teams, external test labs, suppliers, and customers.
\n
\n
","id":"0aa550ff-e264-46c9-aad2-f91b271113b8","lists":[{"text":"Responsibilities:","content":"\n\n
Develop, set up, and execute reliability test plans for lidar modules and systems, including environmental stress tests (temperature cycling, thermal shock, humidity), accelerated life testing, and mechanical shock/vibration.\nAnalyze test results, identify failure mechanisms, and produce reliability assessment reports with quantitative findings and clear recommendations.\nPerform failure analysis on defective units, engineering test escapes, and customer-returned units using in-house tools; define scope and technically direct external test labs for advanced failure analysis.\nAuthor customer-facing failure analysis reports and drive CAPA/8D to verified closure.\nOwn reliability risk assessment for lidar modules and systems throughout the product development lifecycle, from concept through qualification – leading design and process FMEAs and tracking risk mitigation actions to closure in collaboration with cross-functional engineering teams.\nOwn the reliability and quality sections of product requirements documents; define reliability targets, qualification test requirements, and acceptance criteria.\nRepresent reliability, quality, and manufacturability in hardware design reviews and product performance reviews; identify risk early and drive design changes that improve robustness and reduce manufacturing complexity.\nOwn manufacturing quality and reliability processes for in-house prototype builds and NPI builds at contract manufacturers. Define workmanship acceptance criteria, drive nonconformance resolution, and maintain quality records and trend data across build iterations.\n\n"},{"text":"Qualifications:","content":"\n
\n- Bachelor’s degree in electrical engineering, physics, optical engineering, or related fields. Master’s degree preferred.
\n- 5+ years of hands-on industry experience in a hardware reliability engineering role for complex electronic or optoelectronic hardware at the module or system level.
\n- Demonstrated hands-on experience planning, setting up, and executing hardware reliability test plans, including environmental stress, accelerated life, and mechanical testing.
\n- Demonstrated experience writing FA reports and driving CAPA/8D to closure.
\n- Experience with design and/or process FMEAs, reliability risk assessments, and product reliability and quality specifications.
\n- Experience providing DFM, DFA, and DFT feedback during hardware design reviews.
\n- Experience owning manufacturing quality processes for prototype or NPI hardware builds, including workmanship standards, in-process inspection, and nonconformance management.
\n- Working knowledge of module- and system-level reliability and quality standards, such as JEDEC JESD22, ISO 16750, IEC 60068, or AEC-Q102/Q104.
\n- Experience with lidar, optical sensing, or photonics hardware development.
\n- Experience with statistical reliability data analysis, lifetime data analysis, MTBF/FIT estimation, and HALT methodology.
\n- Experience managing quality processes at contract manufacturers or external partners.
\n\n
Job Description:
\n\n
The Hardware Reliability Engineer is a critical role in a cross-functional team building next-generation lidar systems for industrial, consumer, and automotive applications. This is a high-ownership, hands-on role spanning test methodology, qualification, failure analysis, and manufacturing quality practices. This role reports to the Sr. Director of Hardware Engineering.
\n
You will work closely with optical, electrical, mechanical, systems, software, and test engineering teams across the full product development lifecycle – from early requirements and design reviews through prototype builds and design qualification. You will personally set up test equipment, execute test plans, analyze data, and perform failure analysis. This role requires clear technical communication with cross-functional teams, external test labs, suppliers, and customers.
\n
\n
","descriptionBodyPlain":"","hostedUrl":"https://jobs.lever.co/lumotive/0aa550ff-e264-46c9-aad2-f91b271113b8","applyUrl":"https://jobs.lever.co/lumotive/0aa550ff-e264-46c9-aad2-f91b271113b8/apply"},{"additional":"","additionalPlain":"","categories":{"commitment":"Full Time","department":"Systems Engineering & Customer Support","location":"Muscat, Oman","team":"Systems Engineering","allLocations":["Muscat, Oman"]},"createdAt":1775863223909,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n\n\nJob Description:\nThis position senior level lead position will play a key role in a start-up environment in our Oman office. You will lead system-level development and customer enablement for Lumotive-based LiDAR solutions. This role acts as the technical anchor for complex debugging, system architecture, and high-value customer engagements. \n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\n\n
This position senior level lead position will play a key role in a start-up environment in our Oman office. You will lead system-level development and customer enablement for Lumotive-based LiDAR solutions. This role acts as the technical anchor for complex debugging, system architecture, and high-value customer engagements.
\n
\n
\n- Lead system-level design, debugging, and optimization of LiDAR systems (iToF and dToF)
\n- Support module maker partners through design → prototype → production
\n- Act as technical lead in customer and ecosystem engagements
\n- Drive performance analysis and trade-offs across range, FoV, resolution, power, frame rate
\n- Debug issues across optics, electronics, firmware, and software stack
\n- Guide and mentor junior engineers across testing, system behavior, data interpretation
\n- Contribute to system architecture decisions and future product direction
\n\n
\n
\n- Master’s degree in Engineering, Electrical Engineering, Computer Science or related field
\n- 5+ years in LiDAR / 3D sensing systems
\n- Proven experience designing and delivering LiDAR systems (end-to-end)
\n- Deep knowledge of SPAD-based dToF systems and Indirect ToF (iToF) architectures
\n- Strong understanding of LiDAR signal chain, calibration and system tuning, noise, multipath, and artifact handling
\n- Experience with point cloud processing, DSP, and signal processing
\n- Familiarity with perception stacks and embedded / edge compute platforms
\n\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\n\n
This position senior level lead position will play a key role in a start-up environment in our Oman office. You will lead system-level development and customer enablement for Lumotive-based LiDAR solutions. This role acts as the technical anchor for complex debugging, system architecture, and high-value customer engagements.
\n
Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full Time","department":"Semiconductor Engineering","location":"Redmond, Washington","team":"Product R&D Engineering","allLocations":["Redmond, Washington"]},"createdAt":1779570608797,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
\n
Job Description:
\n
We are looking for a versatile, hands-on R&D engineer to join Lumotive’s LCM team in Redmond. This is a role for someone who thrives at the intersection of hardware, software, and optical systems — someone who takes a problem from concept to working hardware, hands it off, and is already excited about the next challenge.
\n
\n
You will own the design and bring-up of custom optoelectronic test systems and PCBs that are central to Lumotive’s ability to develop, validate, and ship next-generation LCM technology. You’ll collaborate closely with electrical, optical, and software engineers. Your work will have direct and visible impact on major product milestones.
\n
\n
\n
\n- Defining and overseeing the test hardware ecosystem for Lumotive’s next generation of products
\n- Optical and mechanical design and implementation of LCM characterization test stands and demo systems
\n- Develop Python-based software for instrument control, test automation, and integration with Lumotive’s test data infrastructure
\n- Design, layout, fabricate, and bring up custom PCBs for LCM test, characterization, and control applications
\n- Support bring-up and validation of new LCM products and ASICs, debugging at the hardware/firmware boundary
\n- Design of robust LCM optical and electrical systems that can be installed at contract manufacturers for pass / fail testing
\n- Programming and software development in Python for streamlining LCM control and adding functionality
\n- Collaborate with the LiDAR systems team to integrate LCM technology into new reference designs
\n- Document your work thoroughly and contribute to design / code reviews, SOPs, and knowledge transfer
\n\n
\n
\n- Bachelor’s degree in physics, electrical engineering, optical engineering, or related fields
\n- 5+ years of experience in a hardware-focused R&D or engineering role
\n- Hands-on experience building and operating test stands or characterization systems for optoelectronic devices
\n- Strong understanding of geometrical / diffractive / polarization optics
\n- Mechanical design and fabrication skills (SolidWorks, 3D printing, machining)
\n- Proven track record designing and bringing up PCBs, including schematic capture, layout, and hardware debugging
\n- Proficiency in Python for test automation, instrument control, or data analysis
\n- Experience with Git and software development best practices (unit testing, code review, version control)
\n- Strong written and verbal communication skills; able to document and present technical work clearly
\n- Extreme attention to detail
\n\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"\n
Job Description:
\n
We are looking for a versatile, hands-on R&D engineer to join Lumotive’s LCM team in Redmond. This is a role for someone who thrives at the intersection of hardware, software, and optical systems — someone who takes a problem from concept to working hardware, hands it off, and is already excited about the next challenge.
\n
\n
You will own the design and bring-up of custom optoelectronic test systems and PCBs that are central to Lumotive’s ability to develop, validate, and ship next-generation LCM technology. You’ll collaborate closely with electrical, optical, and software engineers. Your work will have direct and visible impact on major product milestones.
\n
\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\n\n
Lumotive is seeking a Principal Member of Technical Staff based in Taiwan with deep expertise in New Product Introduction (NPI) and production management for semiconductor advanced packaging and test of optical devices. This is an outward-facing role that requires regular travel to key suppliers across Taiwan and China.
\n
You will serve as a critical link between design and production, executing best practices with vendors across wafer fab, OSAT, LCOS assembly, optical sub-assembly, and test, including support for Lumotive’s wafer fab partner as needed. In addition to technical leadership, this role requires strong project ownership, supplier coordination, and disciplined execution to drive schedules, milestones, and issue resolution across a distributed supply base. The role reports to the Director, Semiconductor Module Manufacturing in the Redmond, Washington office.
\n
\n
\n- Supplier Engagement & Project Management
\n- Own technical engagement and production support with OSATs, LCOS assembly, optical sub-assembly and test vendors, and wafer fab partners
\n- Drive supplier project plans, schedules, deliverables, and risk mitigation to ensure on-time execution
\n- Travel 50% of time to supplier sites across Taiwan and China to ensure alignment, troubleshoot issues, and remove execution barriers
\n- Support customer fulfillment while helping define and implement long-term volume ramp strategy
\n- Coordinate cross-functional escalation and decision-making between internal teams and suppliers to keep NPI and production activities on track
\n- NPI & Technical Execution
\n- Lead NPI assembly process development for LCM-based optical modules, transitioning from low-volume builds to scalable production
\n- Define, develop, and qualify advanced packaging architectures (e.g., flip-chip, wafer-level assembly, fan-out, CoC using ACF, TCB, LAB)
\n- Collect, consolidate, and communicate Design for Manufacturability (DFM) feedback from suppliers
\n- Serve as the on-site production test interface between Taiwan suppliers and Lumotive’s in-house test team; provide Level 1 troubleshooting support, triage hardware/software interactions, and escalate issues with clear documentation
\n- Guide suppliers and the Lumotive test team on manufacturing test best practices for a production environment, including test coverage strategy, yield tracking, and test station readiness criteria
\n- Provide inspection and failure analysis (FA) feedback to drive supplier corrective actions for prototype and production builds
\n- Establish build readiness criteria and support qualification activities for new processes, tooling, and suppliers
\n- Documentation, Quality & Continuous Improvement
\n- Contribute to design reviews and Technical Data Package creation
\n- Apply configuration management and quality best practices internally and with suppliers for change management, RMA, SCAR, CAPPA, and related workflows
\n- Develop and maintain assembly instructions, inspection plans, SOPs, and manufacturing documentation
\n- Drive yield improvement, process optimization, and cost reduction across the supply chain
\n- Monitor supplier readiness, process capability, and production risk to support successful product ramps
\n- Own production test environments; provide Level 1 troubleshooting, support hardware/software interactions at the test station, and act as an effective on-site liaison with Lumotive’s test engineering team
\n
"},{"text":"Qualifications:","content":"\n
\n- Bachelor’s degree in Mechanical Engineering, Manufacturing Engineering, Materials Science, or a related field (MS/PhD or equivalent practical experience strongly preferred)
\n- 12+ years of industry experience, including 10+ years in supplier-facing manufacturing, process, quality, or NPI engineering roles
\n- Fluency in Mandarin and English is required
\n- Proven experience in DFM and process design for opto-mechanical and opto-electronic systems
\n- Strong background in semiconductor packaging, LCOS, or MEMS assembly, with a focus on optical subsystems
\n- Experience working with semiconductor and advanced packaging suppliers in Taiwan
\n- Demonstrated ability to manage complex project schedules and drive supplier execution
\n- Experience with wafer bonding, dicing, AOI, wire bonding, optical alignment, and related assembly processes
\n- Skilled in drawing review, process documentation, technical data packages, and production audits
\n- Experience leading supplier qualification, process readiness reviews, and production ramp activities
\n- Ability to drive technical issue resolution across design, test, quality, and operations teams
\n- Experience with PLM, MES, and SPC systems for managing production data and supplier quality is required
\n- Experience with tools such as Arena (PLM), SolidWorks, Tableau, and JMP
\n\n
Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\n\n
Lumotive is seeking a Principal Member of Technical Staff based in Taiwan with deep expertise in New Product Introduction (NPI) and production management for semiconductor advanced packaging and test of optical devices. This is an outward-facing role that requires regular travel to key suppliers across Taiwan and China.
\n
You will serve as a critical link between design and production, executing best practices with vendors across wafer fab, OSAT, LCOS assembly, optical sub-assembly, and test, including support for Lumotive’s wafer fab partner as needed. In addition to technical leadership, this role requires strong project ownership, supplier coordination, and disciplined execution to drive schedules, milestones, and issue resolution across a distributed supply base. The role reports to the Director, Semiconductor Module Manufacturing in the Redmond, Washington office.
\n
\n
Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full Time","department":"Semiconductor Engineering","location":"Milpitas, California","team":"ASIC Engineering","allLocations":["Milpitas, California"]},"createdAt":1756324248189,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n\n\nJob Description:\n \nLead architecture and development of firmware across multi-processor embedded subsystems integrated into ASIC/SoC platforms. You’ll partition functionality across hardware, firmware, and software; bring up RTOS and secure boot flows; and deliver production-grade code and tests for low-power, safety-critical products.\n \n \n \n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\n
\nLead architecture and development of firmware across multi-processor embedded subsystems integrated into ASIC/SoC platforms. You’ll partition functionality across hardware, firmware, and software; bring up RTOS and secure boot flows; and deliver production-grade code and tests for low-power, safety-critical products.
\n
\n
\n
","id":"836459a4-705a-46c8-bbec-fc957125787b","lists":[{"text":"Responsibilities:","content":"\nOwn firmware architecture for multi-core embedded subsystems; define HW datapath engines and the FW needed for extensible, scalable architectures.\nPartition designs and justify tradeoffs across HW/FW/SW; collaborate with ASIC/SoC, digital design, verification, board, and systems teams.\nBring up RTOS (selection, BSPs, drivers, scheduler configuration) and multiple boot modes including secure boot, key provisioning, and rollback.\nImplement low-power firmware strategies (clock/power domains, sleep states, retention, wake sources) and validate current/latency targets.\nDevelop and optimize drivers and middleware for common interconnects (USB, JTAG, I²C, SPI, GPIO, UART, DMA); integrate with hardware modules.\nBuild production firmware for both prototyping platforms and formal product environments; manage transitions from lab to manufacturing.\nCreate host-side drivers/tools for Windows and Linux as needed (kernel/user-space interfaces, diagnostics, provisioning utilities).\nDefine and implement TDD workflows: unit tests, HIL/integration tests, test frameworks, and CI pipelines; enforce code quality via reviews and static analysis.\nSupport board bring-up and validation; read/review schematics and layouts; debug with oscilloscopes, logic analyzers, and protocol analyzers.\nContribute to functional safety activities (requirements, traceability, FMEA/Fault-trees, safety mechanisms) per automotive/industry standards.\nDocument designs and decisions; make clear calls amid ambiguity with incomplete information.\n"},{"text":"Qualifications:","content":"\nBachelor’s degree in Computer Science, Computer Engineering, or equivalent.\n8+ years as a firmware/HW/SoC architect or senior embedded firmware engineer.\nProven experience with multiple embedded processor subsystems and integration into ASIC/SoC.\nSolid grasp of computer architecture and OS principles (memory, concurrency, scheduling, interrupts, caches).\nRTOS selection and bring-up (e.g., FreeRTOS, Zephyr, ThreadX) including BSPs, bootloaders, and startup code.\nFirmware-controlled low-power design and measurement.\nMultiple firmware boot modes, including secure boot, signing, key management, and recovery.\nDriver development and HW module interfacing (USB, JTAG, I²C, SPI, UART, DMA).\nFirmware and driver development for Windows and Linux environments.\nSchematic/layout literacy for effective HW/FW co-debug.\nProficiency with lab/debug tools: oscilloscopes, logic analyzers, JTAG/SWD, and network/protocol analyzers.\nTDD experience and ability to implement robust unit/integration test frameworks; CI with Git-based workflows.\nComfortable managing ambiguity and making sound tradeoffs with limited information; strong written/spoken communication.\nExperience defining HW datapath engines tightly coupled with firmware control loops.\nAutomotive/functional safety (e.g., ISO 26262) or similar safety-critical domain experience.\nSecure manufacturing/provisioning, OTA/update strategies, and rollback.\nPerformance/power profiling and optimization on constrained systems.\nPython/CMake/Yocto or build/test tooling for automation and HIL rigs.\nCompliance practices (MISRA-C/CERT C), static analysis, and coverage tools.\n"}],"salaryRange":{"min":145000,"max":170000,"currency":"USD","interval":"per-year-salary"},"salaryDescription":"Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.
","salaryDescriptionPlain":"Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.\n","text":"Senior Member of Technical Staff, Firmware Engineer (SoC/RTOS)","country":"US","workplaceType":"onsite","opening":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\n
\nLead architecture and development of firmware across multi-processor embedded subsystems integrated into ASIC/SoC platforms. You’ll partition functionality across hardware, firmware, and software; bring up RTOS and secure boot flows; and deliver production-grade code and tests for low-power, safety-critical products.
\n
\n
\n
","descriptionBodyPlain":"Job Description:\n \nLead architecture and development of firmware across multi-processor embedded subsystems integrated into ASIC/SoC platforms. You’ll partition functionality across hardware, firmware, and software; bring up RTOS and secure boot flows; and deliver production-grade code and tests for low-power, safety-critical products.\n \n \n \n","hostedUrl":"https://jobs.lever.co/lumotive/836459a4-705a-46c8-bbec-fc957125787b","applyUrl":"https://jobs.lever.co/lumotive/836459a4-705a-46c8-bbec-fc957125787b/apply"},{"additionalPlain":"Benefits include but not limited to:\n\nHealth, dental and vision\nFSA, HSA\nPTO plus 14 paid company holidays\n401K with 3% contribution\nStock Options\nLife insurance and disability\n","additional":"Benefits include but not limited to:
Health, dental and vision
FSA, HSA
PTO plus 14 paid company holidays
401K with 3% contribution
Stock Options
Life insurance and disability
","categories":{"commitment":"Full-time","department":"G&A","location":"Milpitas, California","team":"Human Resources","allLocations":["Milpitas, California"]},"createdAt":1780618777082,"descriptionPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","description":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
Job Description:
\nLumotive is seeking an experienced, hands-on Talent Acquisition and Human Resources Specialist to join the team in the Milpitas office. This role covers a broad range of responsibilities, including talent acquisition, HR operations, and compliance, and plays a key role in delivering a world-class candidate and employee experience across the US organization. The Talent Acquisition & Human Resources Specialist reports directly to the Corporate Vice President of Human Resources.
","id":"70498297-954f-496e-b91a-3a1240c4d61e","lists":[{"text":"Responsibilities:","content":"\n
\n- Assist with sourcing, interviewing, scheduling, and hiring team members.
\n- Post job descriptions in the applicant tracking system and manage related requisitions.
\n- Partner with Lumotive hiring managers to ensure a high-caliber candidate talent pool.
\n- Optimize talent acquisition systems to improve the hiring manager and candidate experience.
\n- Establish and maintain relationships with external recruitment sources as needed.
\n- Attend job fairs and lead outreach efforts when required.
\n- Network with local organizations to source candidates for current and future openings.
\n- Collaborate with hiring managers to ensure the new-hire orientation program is deployed effectively.
\n- Manage HR administration, onboarding, leave management, and documentation.
\n- Assist with payroll as needed.
\n- Complete E-Verify and I-9 processes.
\n- Serve as the first point of contact for US employee questions regarding policies, benefits, and procedures.
\n- Assist in maintaining open employee communication channels and uphold an open-door policy.
\n- Coordinate immigration-related visa processing with the immigration attorney as needed.
\n- Coordinate labor law compliance and regulatory requirements.
\n\n
\n- Degree in Human Resources, Business Administration, or a related field
\n- Minimum of 7+ years of experience in human resources
\n- Expert-level proficiency with Lever’s Applicant Tracking System
\n- Tech-stack savvy
\n- Excellent communication skills
\n- Strong knowledge of U.S. labor laws and HR best practices
\n- Ability to work proactively in a fast-paced startup environment
\n- U.S. citizenship required
\n
"}],"salaryRange":{"min":85000,"max":100000,"currency":"USD","interval":"per-year-salary"},"text":"Talent Acquisition/Human Resources Specialist","country":"US","workplaceType":"onsite","opening":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.
At the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.
Lumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.
With more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.
","openingPlain":"Lumotive is pioneering the era of programmable optics—where light is controlled as intelligently and flexibly as software.\n \nAt the heart of this transformation is a once-in-a-generation innovation: a flat CMOS-based “general purpose optic.” Lumotive’s Light Control Metasurface (LCM™) beam forming chips can be programmed to function as a beam steering mirror, a lens, mirror, a beam splitter—or any optical function—replacing bulky and mechanical optical components with a fully digital, reconfigurable semiconductor . This breakthrough lays the foundation for a massive shift in multiple technologies—from 3D sensing and imaging to optical networking, free space optical communication, and beyond. Like the shift from analog to digital in electronics, programmable optics will reshape industries from robotics, self-driving cars, AI, defense, and healthcare.\n\nLumotive’s first commercial application is in LiDAR, where its software-defined beam steering chips are already enabling compact, high-performance, solid-state sensors. These sensors are being deployed today in smart infrastructure, robotics, and mobility systems through leading module makers and solution integrators.\n\nWith more than 200 patents and growing commercial traction, Lumotive is delivering the world’s first digital platform for light—and redefining what’s possible in the optical age.\n","descriptionBody":"Job Description:
\nLumotive is seeking an experienced, hands-on Talent Acquisition and Human Resources Specialist to join the team in the Milpitas office. This role covers a broad range of responsibilities, including talent acquisition, HR operations, and compliance, and plays a key role in delivering a world-class candidate and employee experience across the US organization. The Talent Acquisition & Human Resources Specialist reports directly to the Corporate Vice President of Human Resources.
","descriptionBodyPlain":"","hostedUrl":"https://jobs.lever.co/lumotive/70498297-954f-496e-b91a-3a1240c4d61e","applyUrl":"https://jobs.lever.co/lumotive/70498297-954f-496e-b91a-3a1240c4d61e/apply"},{"additional":"","additionalPlain":"","categories":{"commitment":"Full-time","department":"Operations","location":"Milpitas, California","team":"Operations & Semiconductor Manufacturing","allLocations":["Milpitas, California","Redmond, Washington"]},"createdAt":1780531117640,"descriptionPlain":"Job Description:\nLumotive is seeking an experienced, hands-on VP of Operations to lead, optimize, and scale operational functions across semiconductor manufacturing and the supply chain.\n \nThis role will serve as a strategic partner to management and oversee fabrication, assembly, test, quality, planning, and logistics, with responsibility for driving operational excellence. The VP of Operations will ensure alignment across manufacturing capabilities, technology roadmaps, customer demand, and corporate strategy, while improving efficiency, yield, and cost performance.\n \nThe preferred location for this role is Milpitas, California; candidates based in Redmond, Washington will also be considered. This position reports directly to the CEO.\n","description":"\n
Job Description:
\n
\n
Lumotive is seeking an experienced, hands-on VP of Operations to lead, optimize, and scale operational functions across semiconductor manufacturing and the supply chain.
\n
\n
This role will serve as a strategic partner to management and oversee fabrication, assembly, test, quality, planning, and logistics, with responsibility for driving operational excellence. The VP of Operations will ensure alignment across manufacturing capabilities, technology roadmaps, customer demand, and corporate strategy, while improving efficiency, yield, and cost performance.
\n
\n
The preferred location for this role is Milpitas, California; candidates based in Redmond, Washington will also be considered. This position reports directly to the CEO.
\n
\n
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\n- Oversee daily operations for wafer fabrication, assembly, testing, and packaging.
\n- Drive continuous improvements in yield, cycle time, equipment utilization, and manufacturing efficiency.
\n- Lead expansion, capacity planning, and technology transitions (e.g., new nodes, new packaging technologies).
\n- Manage end-to-end supply chain including procurement, vendor management, inventory, and logistics.
\n- Build strategic supplier relationships to ensure materials availability and cost-effectiveness.
\n- Mitigate supply risks and develop dual-sourcing strategies.
\n- Lead quality systems across manufacturing, supplier management, and customer qualification.
\n- Ensure compliance with ISO, IATF, and industry-specific standards.
\n- Drive root-cause analysis and corrective actions for yield issues or field failures.
\n- Partner with R&D, Product Engineering, Sales/Marketing, and Finance to support product launches and customer commitments.
\n- Translate technology roadmaps into operational requirements within budgetary requirements.
\n- Support new product introduction (NPI) to high-volume manufacturing (HVM).
\n- Develop long-term operational strategy aligned with company goals.
\n- Mentor and develop a high-performing operations team
\n\n
\n
\n- Extensive experience (15+ years) spanning manufacturing, supply chain, and operations leadership at a global scale within the fabless semiconductor industry.
\n- Bachelor’s degree in Engineering or related field.
\n- Proven record of operational transformation improving cost, quality, and delivery simultaneously.
\n- Proven experience managing high-volume manufacturing environments.
\n- Operational economics, supplier readiness, and data-driven manufacturing systems expertise, senior executive level communications.
\n- Executive presence, clarity in communication, and comfort operating at both strategy and execution levels.
\n- Experience leading sophisticated, cross-functional initiatives that align multiple organizations to deliver coordinated operational results.
\n- Experience scaling manufacturing networks or managing large-site transformations.
\n- Proven collaboration to enable aligned execution.
\n\n
Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.
","salaryDescriptionPlain":"Base pay is scaled depending on experience + Performance based Quarterly Bonus + Equity.\n","text":"Vice President, Operations","country":"US","workplaceType":"onsite","opening":"","openingPlain":"","descriptionBody":"\n
Job Description:
\n
\n
Lumotive is seeking an experienced, hands-on VP of Operations to lead, optimize, and scale operational functions across semiconductor manufacturing and the supply chain.
\n
\n
This role will serve as a strategic partner to management and oversee fabrication, assembly, test, quality, planning, and logistics, with responsibility for driving operational excellence. The VP of Operations will ensure alignment across manufacturing capabilities, technology roadmaps, customer demand, and corporate strategy, while improving efficiency, yield, and cost performance.
\n
\n
The preferred location for this role is Milpitas, California; candidates based in Redmond, Washington will also be considered. This position reports directly to the CEO.
\n
\n