A Hungarian robotics startup, Allonic, has announced the securing of $7.2 million in pre-seed funding, marking what it claims to be the highest-ever pre-seed round in Hungary’s history. The investment, led by Visionaries Club and supported by Day One Capital and angel investors from notable technology companies like Hugging Face and OpenAI, aims to revolutionize the traditional methods of creating robot bodies. By leveraging advanced production techniques, Allonic is reshaping how robotics manufacturing is approached.
What Does Allonic Aim to Achieve?
Allonic is set on accelerating the process of robot production, traditionally characterized by meticulous assembly involving numerous intricate components. This approach, deemed outdated by the company, is being replaced by an innovative method called 3D Tissue Braiding, which automates the manufacturing of robotic pieces through a scalable system. The method focuses on creating robotic components with interconnected structures, aiming to enhance both strength and flexibility.
How Is 3D Tissue Braiding Different?
The technique eliminates the need for manually assembling multiple parts by crafting components in a continuous process. Inspired by the inherent strength of woven threads as seen in ropes, this method allows the integration of tendons, joints, and load-bearing tissues. Allonic’s founder highlights the unique advantages of this approach, targeting the industry’s physical building layer.
Previously, assembly of robotic bodies involved the time-consuming and costly procedure of piecing together hundreds of rigid parts. Allonic’s model not only simplifies manufacturing but also results in robust and adaptable robotic designs. Since the introduction of its technology in 2025, the startup has completed its initial pilot in electronics manufacturing and has drawn interest from several major technology sector players.
An assessment of the prior situation in robotics manufacturing underscores a longstanding dependency on labor-intensive processes. The shift towards automated, scalable methods signifies potential shifts in industry dynamics, facilitating more rapid production cycles. Such advancements offer expanded possibilities for various sectors, making robotics design more agile and cost-effective.
In a statement, Allonic’s CEO emphasizes hardware’s critical role despite the prevailing focus on robotics software.
“A lot of attention is on intelligence and software, but hardware still holds many of the hardest problems,”
said Benedek Tasi, CEO of Allonic. He further notes the transformational potential the technology holds for design freedom and iteration.
“We are removing those constraints and building a platform that allows robotics teams to design, build and iterate freely,”
Tasi stressed, envisioning a shift from lengthy development timelines to swift material realization.
The efforts underway at Allonic underscore the possibilities when traditional methods align with innovative thinking. With backing from seasoned investors and keen interest from tech giants, the startup sits at a pivotal point. The industry could witness a reevaluation of its manufacturing fundamentals, leading to broader applications beyond the scope of today’s vision. Accurate predictions of resulting impacts remain challenging, yet the strategic direction appears promising amidst emerging opportunities.
