A new space race has begun. True Anomaly seeks those with the talent and ambition to build innovative technology that solves the next generation of engineering, manufacturing, and operational challenges for space security and sustainability.OUR MISSIONThe peaceful use of space is essential for continued prosperity on Earth—from communications and finance to navigation and logistics. True Anomaly builds innovative technology at the intersection of spacecraft, software, and AI to enhance the capabilities of the U.S., its allies, and commercial partners. We safeguard global security by ensuring space access and sustainability for all.OUR VALUES_Be the offset._We create asymmetric advantages with creativity and ingenuityWhat would it take?We challenge assumptions to deliver ambitious resultsIt's the people. Our team is our competitive advantage and we are better togetherYOUR MISSIONSoftware is the central nervous system for True Anomaly's engineering and product thesis. Software bridges the gap between military objectives, theoretical physics, and the human and autonomous control of spacecraft and ground systems. True Anomaly is seeking a Principal Spacecraft Simulation Software Engineer to define the long-term technical vision and architecture for a simulation platform that spans some of the hardest problems in modern aerospace — from high-fidelity multi-physics modeling of spacecraft and constellations to simulation of complex, dynamic environments that don't yet have established playbooks.At this level, your impact extends well beyond individual features. The platform you help shape will underpin mission planning, autonomy development, GNC validation, and operational decision-making across a range of scenarios that are technically novel by design. You will set technical direction across the simulation organization, serve as the internal authority on simulation methodology and best practices, and drive the technical culture of the team.RESPONSIBILITIESTechnical Vision & ArchitectureOwn the long-term technical strategy and architectural roadmap for True Anomaly's simulation infrastructure, spanning multi-physics modeling, real-time, faster-than-real-time execution, and hardware/software-in-the-loop environmentsMake high-consequence architectural decisions — technology selection, inter-system interface design, performance targets, and long-term maintainability tradeoffs — with full awareness of downstream impact across engineering, GNC, mission planning, and operationsIdentify and resolve fundamental technical risks before they become program-level blockers; anticipate capability gaps 12–24 months out and drive proactive investmentEstablish and steward engineering standards, simulation best practices, and V&V frameworks adopted across the organizationSimulation DevelopmentLead the design and implementation of production-quality multi-physics simulation software spanning spacecraft subsystems: 6DOF rigid body dynamics (gravity gradient, solar radiation pressure, atmospheric drag, magnetic torques, third-body effects), thermal modeling, attitude dynamics and control, propulsion (chemical/electric), power generation and storage, and high-fidelity sensor/actuator models (reaction wheels, CMGs, star trackers, gyros, magnetometers)Architect and implement tightly coupled physics algorithms capturing complex subsystem interactions (thermal-structural, power-thermal, propulsion-dynamics) with rigorous attention to numerical stability, accuracy, and performanceDesign advanced time-stepping algorithms, solver architectures, and integration schemes that support scalable, real-time, and batch simulation use casesWrite production-quality C++ with emphasis on performance, correctness, maintainability, and testability; establish the quality bar others rise to meetAPI Design & IntegrationDefine the simulation platform's external-facing API strategy across C++ and Python, ensuring interfaces are intuitive, performant, versioned, and backward-compatible as the platform evolvesPartner with mission planning, GNC, systems engineering, and autonomy teams to understand capability needs and translate them into durable, well-documented platform investmentsDrive creation of comprehensive documentation, developer guides, and reference examples that enable self-service across the organizationLeadership & CollaborationServe as a technical anchor across the simulation team; provide architectural guidance, unblock decisions, and ensure coherent execution toward shared goalsDrive a culture of engineering excellence through rigorous code reviews, mentorship, pair programming, and knowledge transferMentor engineers at all levels; contribute directly to career development conversations and growth planningPartner with engineering leadership to shape simulation capability roadmaps, surface tradeoffs, and contribute to proposals and technical white papersRepresent simulation engineering in cross-functional forums, program reviews, and customer-facing discussionsQUALIFICATIONSEducation: Bachelor's in aerospace engineering, mechanical engineering, computer science, physics, applied mathematics, or equivalent experience; advanced degree preferredExperience: 10+ years of professional software development with deep focus on simulation, scientific computing, or aerospace applications; demonstrated progression into technical leadership rolesC++: Expert-level proficiency in modern C++ (C++17 or newer), including STL, templates, performance optimization, and large-scale system designPython: Proficiency in API design, scripting, automation, and data analysisTechnical leadership: Proven track record of setting technical direction for large, complex software systems and driving multi-team efforts to delivered capabilityDomain knowledge: Deep expertise in two or more of: ADCS, GNC, thermal control, electric power systems, chemical/electric propulsion, orbital mechanics, or HIL/SIL systemsV&V: Demonstrated experience defining and executing verification and validation frameworks for physics-based models at scale, including uncertainty quantification and validation against test or flight dataSystems thinking: Ability to make sound architectural decisions within complex, distributed systemsCommunication: Exceptional written and verbal communication; able to articulate complex technical concepts to both engineering peers and non-technical leadership stakeholdersPREFERRED SKILLS AND EXPERIENCEHypersonic modeling: Experience developing high-fidelity aerothermal, aerodynamic, and flight dynamics models for hypersonic vehicles, including coupled aero-thermal-structural effects, shock layer physics, and boundary layer modelingAdvanced physics-based M&S: Extensive experience delivering validated, production-grade simulation capabilities for aerospace or defense programs at scaleNumerical methods: Expert-level knowledge of ODE/DAE solvers, numerical linear algebra, sparse matrix techniques, and automatic differentiation; experience tuning solvers for stiff, multi-rate, or real-time-constrained problemsAstrodynamics & kinematics: Deep familiarity with the core concepts of space domain dynamics modelingSoftware engineering excellence: Expert proficiency with Git, CI/CD, CMake or Bazel, and testing frameworks; experience establishing engineering standards at the team or org levelScalable simulation infrastructure: Experience with parallel/distributed computing, Docker, and cloud platforms for large-scale simulation executionHIL/SIL systems: Extensive experience designing and operating HIL/SIL environments, including real-time simulation interfaces to flight software or embedded hardwareTechnical thought leadership: Published work, conference presentations (AIAA, AAS, IEEE, etc.), or patents in simulation, astrodynamics, GNC, or related domainsCOMPENSATIONColorado Base Salary: $180,000 - $295,000California Base Salary: $185,000 - $310,000Equity + Benefits including Health, Dental, Vision, HRA/HSA options, PTO and paid holidays, 401K, Parental LeaveYour actual level and base salary will bedetermined on a case-by-case basis and may vary based on the following considerations: job-related knowledge and skills, education, location, and experience.ADDITIONAL REQUIREMENTSWork Location —Successful candidates will be located near Denver or Long Beach facility.Work environment —the work environment; temperature, noise level, inside or outside, or other factors that will affect the person's working conditions while performing the job.Physical demands —the physical demands of the job, including bending, sitting, lifting and driving.True Anomaly is committed to equal employment opportunity on any basis protected by applicable state and federal laws. If you have a disability or additional need that requires accommodation, please do not hesitate to let us.To conform to U.S. Government space technology export regulations, including the International Traffic in Arms Regulations (ITAR) you must be a U.S. citizen, lawful permanent resident of the U.S., protected individual as defined by 8 U.S.C. 1324b(a)(3), or eligible to obtain the required authorizations from the U.S. Department of State.#J-18808-Ljbffr