Lead Engineer, Front-end

About Atomic Tessellator

Atomic Tessellator is the computational infrastructure for advanced materials, enabling defence and aerospace organisations to rapidly model, test, and optimise materials under extreme constraints.

Our mission is to remove the materials bottleneck so civilisation can advance at the speed of compute.

We’re a seed-stage company with a headcount of five, and have been around for a little over a year. In this time, we have:

• Built a distributed worker architecture to modularise computational materials science operations.
• Scaled machine-learned interatomic potential (MLIP) models to enable multi-GPU inference, letting us model up to 700,000 atoms
• Completed pilot projects across aerospace, defence, nuclear fusion, and advanced polymers.
• Discovered (and are in the process of patenting) two materials, one of which is a high-temperature rare earth magnet substitute.

Everything modern depends on advanced materials, but materials development remains slow, expensive, and heavily constrained by physical trial and error.

Atomic Tessellator is building a CAD-style simulation engine for materials discovery: computational infrastructure that lets organisations design, model, test, and optimise materials before committing to costly real-world experimentation.

We're building a validated predictive engine and deploying it as secure infrastructure for teams that need reliable answers under real operational constraints.

Materials resilience underpins industrial sovereignty and defence readiness. The organisations that can model and deploy advanced materials fastest will shape the next generation of strategic capability.

About the role

The Atomic Tessellator platform is a virtual lab that lets us simulate almost anything there is to know about an engineering material's properties; i.e. we can predict its performance prior to any physical testing done in a lab. This is typically a field dominated by academia, who often aren't strong software engineers. We're challenging the field of computational materials science, which is usually synonymous with fortran, text on a terminal, and 500-page pdf documentation.

We're seeking a senior front-end developer to take full ownership and responsibility of our platform application's front-end. You'll have autonomy, the opportunity to grow and build something great with us.

Here's an example of what our platform does. You're seeing a PKA (primary knock-on atom effect) simulation on 50Å of tungsten inside a nuclear fusion reactor.

The application is built with Vue.js, Vite, Typescript, Pinia, Cytoscape.js, Chart.js, D3.js, Three.js, and WebGL.

• We're seeking someone with exceptional taste, and the ability to champion this taste internally to hold everyone to a high standard. We'll engage with a design agency in the future to build a cohesive brand and design language.
• Advanced in Vue.js an laterally relevant technologies - you should be fluent with reactivity, components, directives, lifecycle hooks etc. Advanced state management in Pinia, etc.
• Advanced in Three.js/WebGL and able to build out our simulation visualisations in a performant way. We're after fluency in writing compute shaders and high-performance GPU programming. We've built custom data formats to support performance of rendering large point-cloud-like atomic renders.
  • WebGPU is a huge plus.
• Have experience building out automated unit/integration/end-to-end testing.
• You should have an appetite to learn/not shy away from quantum chemistry concepts. We can teach, but a core part of your responsibility is digesting and communicating these scientific concepts in a clear, concise, and beautiful manner.
• You should feel at-home with LLMs. They're a core part of our dev workflow, we use cursor/amp/claude code internally. We can teach the advanced agentic programming stuff.
• You'll also be helping with ad-hoc work on the marketing site.

Given you'll be taking ownership, we want to trust your judgment and do what you think is best. It'll be your codebase, and to your tastes and liking. We're not scared to tear things down and build them again. We compete on velocity.