A Cologne-based robotics startup developing autonomous harvesting robots and AI-driven automation systems for greenhouses, starting with tomato harvesting.
Investment Rounds
Capital activity and funding progression
| Amount | Date | Round |
|---|---|---|
| €8 M | Mar, 2026 | unspecified |
Industries
Frequently Asked Questions
Where is Eternal.ag located?
Eternal.ag is located in Cologne, Germany.
What industries does Eternal.ag operate in?
Eternal.ag operates in the following industries: AgTech, Robotics, Artificial Intelligence, Greenhouse Automation.
How much total funding has Eternal.ag raised?
Eternal.ag has raised a total of $8,000,000.
Who are the investors in Eternal.ag?
The investors in Eternal.ag are: Simon Capital, Oyster Bay Venture Capital, EquityPitcher Ventures, Backbone Ventures.
Who are the founders of Eternal.ag?
The founders of Eternal.ag are: Renji John, Sherry Kunjachan.
What is the core solution provided by Eternal.ag?
Eternal.ag provides fully autonomous robots designed to handle repetitive crop work in greenhouses, addressing the industry's critical labor shortages and ensuring stable food production.
How does the Harvester robot from Eternal.ag improve greenhouse operations?
The Harvester robot operates continuously for up to 22 hours daily with AI-driven precision, maintaining consistent crop quality and allowing growers to scale their operations without being limited by labor availability.
What makes the Eternal.ag development methodology unique?
The company uses a simulation-first development methodology, which involves training and testing its AI models in virtual greenhouses before physical deployment to ensure safety and faster iteration cycles.
Which crops can be managed using Eternal.ag technology?
The technology is initially focused on harvesting tomatoes in greenhouses, with planned expansions to include other high-value crops like cucumbers and additional greenhouse tasks.
Does implementing Eternal.ag technology require a greenhouse to be rebuilt?
No, the systems are designed to be modular and compatible with existing infrastructure, allowing for seamless integration into standard greenhouse layouts without expensive structural changes.