WARP OS

WarpOS is the flight-proven operating system that powers WarpWare. It provides a unified runtime for spacecraft software, enabling developers to design, test, and operate payloads across various space vehicles.

Deterministic Performance

Deterministic scheduling and thread-safe execution ensure reliable control in mission-critical environments.

Modular Architecture

WarpOS separates core services, subsystems, and applications — making it easy to integrate new components without rewriting legacy code.

Simulation-to-Flight Compatibility

The same WarpOS kernel runs across simulation and flight, guaranteeing that tested code behaves identically in orbit.

Hardware Abstraction

Unified drivers for spacecraft buses, sensors, and peripherals reduce integration effort across missions and vendors.

Hardware Abstraction

Resilient & Secure

Built-in process isolation, watchdog monitoring, and deterministic recovery for safety-critical operations.

Resilient & Secure

Built for Speed, Reliability, and Scale

Accelerate Development

Reduce mission software timelines by up to 70% with reusable frameworks and standardized APIs.

Accelerate Development

Reduce mission software timelines by up to 70% with reusable frameworks and standardized APIs.

Accelerate Development

Reduce mission software timelines by up to 70% with reusable frameworks and standardized APIs.

Reduce Risk

Flight-tested architecture validated through multiple hardware-in-the-loop campaigns and flight heritage missions.

Reduce Risk

Flight-tested architecture validated through multiple hardware-in-the-loop campaigns and flight heritage missions.

Reduce Risk

Flight-tested architecture validated through multiple hardware-in-the-loop campaigns and flight heritage missions.

Scale Seamlessly

Use the same platform for CubeSats, smallsats, or multi-vehicle constellations — WarpOS scales with your mission.

Scale Seamlessly

Use the same platform for CubeSats, smallsats, or multi-vehicle constellations — WarpOS scales with your mission.

Scale Seamlessly

Use the same platform for CubeSats, smallsats, or multi-vehicle constellations — WarpOS scales with your mission.

Why use WarpOS?

Building flight software from scratch is time-consuming, expensive, and risky. WarpOS eliminates redundant effort by providing a flight-proven, modular operating system that’s already designed for spacecraft. Designed so you can focus on your mission, not on rebuilding tools that have been developed hundreds of times before.

Building your software in-house

12–24 months to design, integrate, and test a custom flight software stack.

High labor and integration costs; every mission starts from zero.

Custom code paths increase validation complexity and mission failure risk.

Each new spacecraft requires major rework or re-certification.

Separate environments for simulation, SIL, and flight — prone to mismatch.

Requires custom drivers and middleware for every peripheral.

Engineers spend time maintaining infrastructure.

Integrating with WarpOS

Deploy flight-ready architecture in weeks with modular, reusable components.

Up to 70% cost reduction through standardized frameworks and pre-integrated drivers.

Flight-proven kernel validated across multiple missions and HIL campaigns.

Reuse the same OS across rideshare payloads, buses, and constellations with minor configuration.

Unified simulation-to-flight parity ensures consistent behavior in every phase.

Comes with pre-built hardware abstraction for sensors, buses, and power systems.

Engineers can focus on mission-specific innovation

WARP OS

Deterministic Performance

Modular Architecture

Simulation-to-Flight Compatibility

Hardware Abstraction

Hardware Abstraction

Resilient & Secure

Resilient & Secure

Resilient & Secure

Built for Speed, Reliability, and Scale

Why use WarpOS?

Ready to go fast?

Ready to go fast?

Get started with a free trial to WarpWare today.

Get started with a free trial to WarpWare today.