About Optimal
Optimal is building AI agents to control the world’s most critical infrastructure - from factories, to datacenters, and starting with high-tech greenhouses.
We are backed by the Director of AI Research at Google DeepMind as well as early VCs in SpaceX, Anduril, and Palantir.
We have built the world’s most advanced AI control for high-tech greenhouses and have proven breakthrough performance in our own large-scale facility.
High-tech greenhouses are key to our agricultural future - for improving human nutrition and securing our food system against climate change and geopolitical instability. But the shortage of skilled human operators causes existing greenhouses to underperform and prevents new greenhouses being built.
Our AI increases the profits of individual greenhouses by >$1M/year, increases yields, reduces energy and water usage, and unlocks global greenhouse expansion. There are 8,000 high-tech greenhouses in the world today giving Optimal an opportunity to create >$8B/year of productivity gains. And by overcoming the shortage of skilled operators, we enable the rapid deployment of new greenhouses outside cities across the world.
Your role
As an AI Simulation and Control Engineer, you will have direct responsibility for the development and deployment of Optimal's AI at the most advanced greenhouses in the world.
We have just signed our first customers in North America and Europe. And we have signed integration partnerships allowing us to access 75% of the world’s greenhouses.
You will play a critical role in delivering AI to these greenhouses.
This role is aimed at an ambitious engineer who is looking to play a fundamental role in delivering AI product at a fast growing startup.
Your first 90 days:
1. Visit a high-tech greenhouse to understand crops, hardware, and the underlying physical/biological processes.
2. Adapt Optimal’s state-of-the-art simulation models to the greenhouse of a new customer and train the models on proprietary data from that greenhouse.
3. Integrate the simulation models into Optimal’s AI control framework, taking real time control of all of the greenhouse actuators.
4. Monitor, review and continuously improve the performance of Optimal’s AI to maximise crop yields and minimise resource consumption, working closely with our agronomy experts.
Technical skills
* Modelling & Simulation: ML-based and/or differential equation-based.
* Control: Optimal control, Model Predictive Control, Reinforcement learning.
* Software engineering: Python (Julia is a bonus).
* AI coding tools: Familiarity with Copilot, Cursor, etc.