Autonomy Software Engineer
Company: Zipline
Location: South San Francisco
Posted on: December 30, 2025
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Job Description:
Job Description Job Description About Zipline Do you want to
change the world? Zipline is on a mission to transform the way
goods move. Our aim is to solve the world's most urgent and complex
access challenges by building, manufacturing and operating the
first instant delivery and logistics system that serves all humans
equally, wherever they are. From powering Rwanda's national blood
delivery network and Ghana's COVID-19 vaccine distribution, to
providing on-demand home delivery for Walmart, to enabling
healthcare providers to bring care directly to U.S. homes, we are
transforming the way things move for businesses, governments and
consumers. The technology is complex but the idea is simple: a
teleportation service that delivers what you need, when you need
it. Through our technology that includes robotics and autonomy, we
are decarbonizing delivery, decreasing road congestion, and
reducing fossil fuel consumption and air pollution, while providing
equitable access to billions of people and building a more
resilient global supply chain. About You & the Role Own the
flight-critical runtime that keeps Zipline aircraft in a known safe
state—no matter what the world throws at them. You'll architect and
ship the autonomy safety layer that orchestrates missions,
detects/diagnoses faults, and executes mitigation and recovery
across planning, perception, and controls. This is deep systems
work in Rust/C++ with tight real-time constraints: you'll make
high-judgment design decisions, prove them in SIL/HIL and flight
logs, and raise the bar on reliability for a global,
safety-critical fleet. What You'll Do Design the mission/flight
manager : build the state machines and orchestration logic that
govern mission sequencing, safe-state transitions, and behavior
gating under latency and resource constraints. Own fault management
end-to-end : implement detection, isolation, mitigation, and
recovery (FIMR) for sensors, compute, comms, power, and actuation;
ensure graceful degradation and continuity of service. Ship
flight-critical Rust/C++ : develop and maintain core onboard
components with strong observability (health, logs, metrics) and
testability (deterministic replay, assertions, invariants). Prove
safety before flight : define success criteria and build the
tooling—scenario libraries, SIL/HIL, log-replay harnesses,
fault-injection—to validate behaviors across edge cases and
long-tail conditions. Integrate across autonomy : partner with
planning, perception, and controls to set interfaces,
hazards/assumptions, and escalation paths; codify contracts that
the runtime enforces. Close the loop with operations : turn fleet
telemetry and incident reviews into requirements and fixes; drive
MTBF/MTTR improvements and intervention-rate reductions. Lead with
systems judgment : write design docs, perform hazard analysis
(e.g., FMEA/STPA-style), run design/PR reviews, and mentor
engineers on deep-stack ownership. What You'll Bring 8 years
building production software for robotics, aerospace, AV, or other
safety-critical embedded systems . Expert in Rust and/or C++ (C as
a plus) for real-time, fault-tolerant applications on embedded
Linux/RTOS. Demonstrated systems thinking : clear interface design,
resource budgeting, and trade-offs under timing/safety/power
constraints. Hands-on with SIL/HIL , scenario validation, log
replay, and fault injection ; you measure reliability, not just
functionality. Track record of shipping autonomy features (mission
logic, supervision, watchdogs, health monitoring) into noisy,
dynamic real-world environments. Comfort in HW/SW co-design : you
can reason about sensors, compute, comms, and actuators well enough
to make robust software decisions. Strong communication and
documentation; you make complex safety decisions legible and
auditable. Not the Right Fit If Your background is primarily
web/backend/app platforms with limited embedded or autonomy
exposure. You prefer building general cloud tooling over
flight-critical runtime software that directly governs vehicles. At
Zipline, your code will decide—not just observe. If you're ready to
own the runtime that keeps aircraft safe while we scale autonomous
delivery worldwide, we'd love to talk. WHAT ELSE YOU NEED TO KNOW
This will be an in -office role based out of our South San
Francisco HQs. The starting cash range for this role is $200,000 -
$265,000; please note that this is a target, starting cash range
for a candidate who meets the minimum qualifications for this role.
We are always open to negotiation. The final cash pay for this role
will depend on a variety of factors, including a specific
candidate's experience, qualifications, skills, working location,
and projected impact. The total compensation package for this role
may also include: equity compensation; overtime pay; discretionary
annual or performance bonuses; sales incentives; benefits such as
medical, dental and vision insurance; paid time off; and more.
Zipline is an equal opportunity employer and prohibits
discrimination and harassment of any type without regard to race,
color, religion, age, sex, national origin, disability status,
genetics, protected veteran status, sexual orientation, gender
identity or expression, or any other characteristic protected by
federal, state or local laws or our own sensibilities. We value
diversity at Zipline and welcome applications from those who are
traditionally underrepresented in tech. If you like the sound of
this position but are not sure if you are the perfect fit, please
apply!
Keywords: Zipline, Redwood City , Autonomy Software Engineer, Engineering , South San Francisco, California
