About LEAP 71

We are a team of pioneers in the new field of Computational Engineering. We work with you to design novel physical products ready for production using the latest digital manufacturing processes, such as industrial 3D printing. More

Computational Engineering

We create computer code that generates the design for physical parts. The result is an algorithmic model for an entire class of objects. Computational Engineering allows you to iterate faster and customize your product to specific use cases. More

Let’s collaborate

We provide services at the forefront of engineering, working with customers all over the world in a broad variety of fields, from aerospace, electric mobility, heat exchangers, general engineering, to bioprinting. More

Explore

News

LEAP 71 is open sourcing its foundational Computational Engineering technology at GITEX Global in Dubai

18 Oct 2023

The Exploration Company and LEAP 71 announce cooperation in the field of space engine engineering

12 Sep 2023

Exploring the boundaries of manufacturability through Computational Engineering

08 May 2023

Happy #52 birthday #UAE - let’s build an inspiring and #sustainable future - #madeindubai @miiteuae @dubai #nationalday @cop28uaeofficial

Coaxial swirl injector head created by RP/CEM, our #ComputationalEngineering Model for space propulsion systems.

CT scan of a #heatexchanger designed through #ComputationalEngineering #3dprinted by @aconity3d and scanned by @visiconsult

An impeller created through one of our #ComputationalEngineering models in @picogk

We just released PicoGK v1.1 our open-source framework for #ComputationalEngineering - it includes installers for macOS and Windows.

#copper #heatexchanger #3dprinted by our partner @aconity3d #ComputationalEngineering

Advanced spline-based #lattices created in @picogk

Behind the scenes: the copper and steel part of the #multimaterial metal #aerospike we #3dprinted with the @fraunhofer.igcv

#mutimaterial #metal #3dprinted #aerospike #rocket engine designed through our #ComputationalEngineering Model for space propulsion RP/CEM.

#3dprinted #multimaterial #metal #electricmotor demonstrator created by our #ComputationalEngineering Model for e machines. Thank you @fraunhofer.igcv and @dubaifuture Labs for the fantastic collaboration.

#wip visuals from our #ComputationalEngineering model for #heatexchangers - directly from the @picogk open-source viewer.

#electricmotors are great application for #ComputationalEngineering @picogk

With #cop28 coming up in @dubai - who wants to advance the engineering of cooling systems with us using #ComputationalEngineering?

Great to see all the large format metal 3D Printers coming to the market right now. We have a few interesting use cases. #ComputationalEngineering @picogk #additivemanufacturing

Parameter sweeping a #ComputationalEngineering Model for impellers

Built on #PicoGK

We released our entire foundational technology stack as open source today. PicoGK is a compact and robust geometry kernel for #ConputationalEngineering released under true permissive Apache 2.0 open-source license. Check out the LEAP 71 GitHub to download.

Made with #PicoGK.

Multi-axis robotic metal extrusion systems are an interesting option for producing large metal parts for aerospace.

Pumping #copper - impellers designed through our #ComputationalEngineering Models

Working on #cooling the planet? 🌎 let’s talk #ComputationalEngineering Models for #heatexchangers

Let’s generate some rockets using RP/CEM our #ComputationalEngineering Model for space propulsion

Congratulations to @tiiuae for releasing #AMALLOY the first metal 3D Printing alloy developed in the #uae. Here is one of our rocket injector heads, printed from the material. Designed using our #ComputationalEngineering model for space propulsion systems, RP/CEM. #adastra #3dprinting

How long does it take you to design an #impeller manually? It takes a few seconds using a #ComputationalEngineering model.