JOBSEARCHER

Embedded Software Engineer — Munition System

ARCHIVED

We can't find an active application page for this role right now. It may reopen or be listed elsewhere. Use Next Steps to search for an active apply link and similar live jobs.

Dice is the leading career destination for tech experts at every stage of their careers. Our client, citecht, is seeking the following. Apply via Dice today!We''re building a small, safety-critical kinetic munition delivered by an FPV-class airframe. The compute side is an electro mechanical safe and arm device (EMSAD).The current codebase is Rust-on-Embassy, but we''re language-agnostic on the role — strong C, C++, or Rust embedded engineers are equally welcome.What You''ll Do Own firmware end-to-end: drivers, state machine, communication protocols, command surface, bring-up, qualification, OTA / programming flow. Build the host-testable simulation surface. The state machine should be testable on a laptop without flashing a board — and stay that way. Work shoulder-to-shoulder with the HW engineer on bring-up, register-map ergonomics, and timing. Carry the firmware through environmental qualification (thermal, EMC, vibration). Define and enforce the firmware-side safety case.Required 5+ years of professional embedded firmware on ARM Cortex-M (or comparable) — in C, C++, or Rust. Deep comfort with interrupts, DMA, clocks, timers, low-power modes, linker scripts, memory maps. Strong with I²C, SPI, UART, USB CDC and debugging using scope / logic analyzer. Experience building state machines for real-world hardware. Discipline around testability and host testing. Working English, written and verbal.Nice to have Rust embedded experience — Embassy, embedded-hal, defmt, probe-rs, RTIC, no_std ecosystem. Modern C++ embedded (C++17/20 in firmware). Async firmware experience (Embassy, Zephyr, FreeRTOS). Safety-critical firmware background: ISO 26262, DO-178C, IEC 61508, etc. Bootloader / DFU / secure-boot work. FPV / small-UAV firmware: Betaflight, MAVLink, INAV. C FFI / SDK bindings.How We WorkSmall team, weekly hardware iterations, real boards on every desk. We expect concise, testable, safety-focused firmware development.