Atomic Industries
About Atomic Industries
Atomic Industries is reinventing how the world makes things. From cars and aerospace systems to medical devices and packaging, most physical goods begin life in a mold or are shaped by a manufacturing tool. Producing these tools has always been slow, manual, and dependent on scarce expertise, taking weeks or months. We’re changing that.
At our Detroit headquarters, we combine the industrial DNA of America’s manufacturing heartland with the speed, intelligence, and precision of Silicon Valley. Our AI-driven platform tackles the hardest problems in geometry, process planning, and fabrication, collapsing production timelines from months to days and soon, minutes. We don’t just build software; we run a fully operational factory where our technology produces production-grade tooling every week, enabling tight feedback loops and rapid iteration.
Backed by top-tier investors, we’re restoring speed, flexibility, and capability to the American industrial base. Our mission is to make manufacturing as agile and scalable as the digital world, and in doing so, rebuild the infrastructure of the physical economy.
About The Role As a Simulation Engineer at Atomic, you will develop high-fidelity models that capture the physics and constraints of real-world manufacturing processes. From thermomechanical behavior to material flow and force distribution, your work will power the tools that reduce tooling lead times from months to days — and eventually, minutes.
You’ll collaborate with software engineers, generalists, and manufacturing experts to deploy simulation pipelines used every day in production. This role is ideal for someone who blends theoretical rigor with a strong intuition for how things behave in the real world.
What You’ll Do
Develop and implement simulations for thermal, structural, and material processes
Validate models against physical test data and real production outcomes
Work with mesh and CAD data to define simulation-ready geometry representations
Integrate solvers and workflows into cloud/on-prem hybrid infrastructure
Collaborate with geometry and software teams to inform design and automation logic
Optimize simulation runtimes for performance and fidelity
What We’re Looking For
5+ years of experience with physics-based simulation (FEA, CFD, or related)
Deep understanding of mechanical behavior, contact mechanics, heat transfer, or fluid flow
Experience with commercial or custom solvers (Ansys, Abaqus, COMSOL, in-house)
Proficiency in Python and/or C++
Familiarity with geometry formats like B-rep, STL, and volumetric meshes
Strong ability to reason from first principles and validate models against the real world
Bonus Points
Experience in manufacturing or product design contexts
Familiarity with GPU acceleration or distributed compute
Background in simulation automation or surrogate modeling
Integration of simulation results into design or optimization systems
How We Work
Fast iteration: We deploy code daily and validate it in the factory every week
Factory-first mindset: Engineers spend time on the shop floor to understand the real-world impact of their work
Low ceremony, high ownership: We value well-written design docs, tested code, and real results — not meetings
Collaborative culture: Geometry, AI, and robotics teams are tightly integrated and co-develop the product together
Benefits
Competitive salary and generous equity package
Full medical, dental, and vision coverage for employees and dependents
401(k)
PTO with a 15-day minimum
Quarterly team travel to Detroit
Visa support for TN, E‑3, and O‑1 candidates
Hardware stipend and on-site prototype lab access
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At our Detroit headquarters, we combine the industrial DNA of America’s manufacturing heartland with the speed, intelligence, and precision of Silicon Valley. Our AI-driven platform tackles the hardest problems in geometry, process planning, and fabrication, collapsing production timelines from months to days and soon, minutes. We don’t just build software; we run a fully operational factory where our technology produces production-grade tooling every week, enabling tight feedback loops and rapid iteration.
Backed by top-tier investors, we’re restoring speed, flexibility, and capability to the American industrial base. Our mission is to make manufacturing as agile and scalable as the digital world, and in doing so, rebuild the infrastructure of the physical economy.
About The Role As a Simulation Engineer at Atomic, you will develop high-fidelity models that capture the physics and constraints of real-world manufacturing processes. From thermomechanical behavior to material flow and force distribution, your work will power the tools that reduce tooling lead times from months to days — and eventually, minutes.
You’ll collaborate with software engineers, generalists, and manufacturing experts to deploy simulation pipelines used every day in production. This role is ideal for someone who blends theoretical rigor with a strong intuition for how things behave in the real world.
What You’ll Do
Develop and implement simulations for thermal, structural, and material processes
Validate models against physical test data and real production outcomes
Work with mesh and CAD data to define simulation-ready geometry representations
Integrate solvers and workflows into cloud/on-prem hybrid infrastructure
Collaborate with geometry and software teams to inform design and automation logic
Optimize simulation runtimes for performance and fidelity
What We’re Looking For
5+ years of experience with physics-based simulation (FEA, CFD, or related)
Deep understanding of mechanical behavior, contact mechanics, heat transfer, or fluid flow
Experience with commercial or custom solvers (Ansys, Abaqus, COMSOL, in-house)
Proficiency in Python and/or C++
Familiarity with geometry formats like B-rep, STL, and volumetric meshes
Strong ability to reason from first principles and validate models against the real world
Bonus Points
Experience in manufacturing or product design contexts
Familiarity with GPU acceleration or distributed compute
Background in simulation automation or surrogate modeling
Integration of simulation results into design or optimization systems
How We Work
Fast iteration: We deploy code daily and validate it in the factory every week
Factory-first mindset: Engineers spend time on the shop floor to understand the real-world impact of their work
Low ceremony, high ownership: We value well-written design docs, tested code, and real results — not meetings
Collaborative culture: Geometry, AI, and robotics teams are tightly integrated and co-develop the product together
Benefits
Competitive salary and generous equity package
Full medical, dental, and vision coverage for employees and dependents
401(k)
PTO with a 15-day minimum
Quarterly team travel to Detroit
Visa support for TN, E‑3, and O‑1 candidates
Hardware stipend and on-site prototype lab access
#J-18808-Ljbffr