About the Company
Spacer Robotics is building autonomous, non-humanoid robotic systems to construct infrastructure in extreme environments. Our vision is to disrupt the $16 trillion global construction industry by pioneering a new Deep Tech philosophy that blends robotics, AI, and systems engineering at the frontier.
About the Role
We're seeking a Senior Systems Engineer to be the person who makes sure all the moving parts of our robot: mechanical, electrical, software, perception, safety, actually work together as one coherent product, not just individually. Our first system is an autonomous rebar-tying robot operating on live construction sites. Every subsystem has to integrate correctly, hold up to dust and vibration and uneven terrain, and stay safe around real workers.
As a senior hire, you won't just execute the systems function, you'll define it. You'll set how we write requirements, manage interfaces, and assess risk as the team and the product scale, while staying hands-on enough to catch the integration issues that only show up when you're in the room with the hardware.
On-Site Requirement
5 days a week, on-site in the San Francisco Bay Area. The robot is here. Integration happens in the room.
What You'll Do
Own system-level architecture across mechanical, electrical, and software domains - define how subsystems interface and where functional responsibility sits.
Establish the systems engineering practice and set up the process for converting customer requirements to functional requirements.
Write and maintain requirements and Interface Control Documents (ICDs) detailed enough to prevent integration surprises, lightweight enough not to slow the team down
Lead trade studies (cost, performance, complexity, time-to-ship) and make the call when a multidisciplinary tradeoff needs a decision, not an endless debate
Drive hazard analysis and risk assessment for a robot working around people on active job sites, safety isn't a checkbox here, it's the product
Translate field data and deployment feedback into concrete design changes, you're often the first to spot that a "software bug" is actually a sensor mounting issue, or a "hardware problem" is actually a calibration assumption that broke in the field
Lead design reviews and root-cause investigations, bringing a systems lens that catches what siloed reviews miss
Be the connective tissue between engineering execution and business priorities, translate technical risk and tradeoffs for leadership in terms that inform roadmap and customer commitments
Mentor other engineers on systems thinking as the team grows, even before you're formally managing anyone
Qualifications
5+ years of Systems Engineering experience in robotics, aerospace, automotive, heavy machinery, or similar multidisciplinary hardware/software systems
Proven track record owning system-level integration and architecture, not contributing to one, but having driven one end-to-end
Demonstrated experience being on the hook when subsystems didn't integrate cleanly, and changing how requirements or interfaces were written as a result
Comfortable with setting up a systems engineering workflow and pragmatic enough to adapt them for a fast-moving startup.
Expert-level requirements authoring, traceability management, and interface definition
Working knowledge of relevant safety standards (ISO 13849, IEC 61508, ANSI/RIA R15.06, or similar) and what they actually require versus what's overkill at this stage
Experience translating field/customer feedback into system design changes
Clear communicator across audiences - engineers, leadership, and eventually customers or regulators
A bias for action: you'd rather ship a v1 requirements doc and iterate than wait for perfect
Comfortable building process from scratch in an environment where none exists yet
Preferred
Experience with a physical robot deployed in a real-world environment (not just lab/sim)
Familiarity with ROS/ROS2 system architectures
Background bridging engineering and commercial/business functions, e.g., translating customer or investor conversations into technical priorities
Experience from setting-up systems engineering practice at an early-stage company specifically (built the process, not just followed one)
Why Join Us
You'll be the person who makes sure all the brilliant, fast-moving pieces of an early robotics company actually fit together, and that what gets built on the bench survives contact with a real construction site. This is a foundational, senior hire with outsized influence on how the company scales its engineering discipline from here.
Compensation
The US base salary range for this full-time position is competitive and benchmarked to Bay Area senior-level market rates, plus meaningful early-stage equity.
Skills Required
- 5+ years of Systems Engineering experience in robotics, aerospace, automotive, heavy machinery, or similar multidisciplinary hardware/software systems
- Proven track record owning system-level integration and architecture end-to-end
- Demonstrated experience resolving integration failures by improving requirements or interfaces
- Comfortable setting up and adapting systems engineering workflows for a fast-moving startup
- Expert-level requirements authoring, traceability management, and interface definition
- Working knowledge of relevant safety standards (ISO 13849, IEC 61508, ANSI/RIA R15.06 or similar)
- Experience translating field/customer feedback into concrete system design changes
- Clear communicator across engineers, leadership, and external stakeholders
- Bias for action; iterate on v1 documentation rather than waiting for perfect
- Comfortable building processes from scratch in an environment without existing systems
- On-site presence five days a week in the San Francisco Bay Area
- Experience with a physical robot deployed in real-world environments
- Familiarity with ROS or ROS2 system architectures
- Background bridging engineering and commercial/business functions
- Experience setting up systems engineering practice at an early-stage company
What We Do
Spacer Robotics is a startup developing next-generation AI robots designed to transform the construction industry and advance human progress. The company specializes in autonomous robotic systems, such as the GRID rebar-tying robot, to automate repetitive and high-risk tasks on terrestrial job sites. Its long-term mission extends beyond Earth, aiming to develop autonomous infrastructure robots capable of operating in extreme environments, including future lunar bases.







