Dr. Ewelina Kurtys is a neuroscientist and strategic advisor at FinalSpark, a Swiss biocomputing startup building computers from living human neurons. She holds a PhD in neuroscience from the University of Groningen and completed postdoctoral research in brain imaging in London before moving into AI commercialization and deep-tech strategy. At FinalSpark, she works on the commercial side of the Neuroplatform, the world's first remotely accessible bioprocessor, bridging laboratory research with paying clients, university collaborators, and investors. The episode explores FinalSpark's audacious goal of replacing silicon with biology, reducing AI energy consumption by a factor of one million, and cracking the still-unsolved language of neuronal communication.

Expect to learn how neurons process and store information differently from digital computers, what a brain organoid is and how FinalSpark grows them from human skin stem cells, why living neurons are estimated to be one million times more energy efficient than silicon processors, how the Neuroplatform works as a remotely accessible biocomputing lab, what the fundamental unsolved challenge of encoding and decoding neuronal signals means for the field, how AI and generative tools are being used to accelerate biocomputing research, why FinalSpark believes a bio-cloud server is more practical than a portable biocomputer, what the biggest misconception people have about wetware computing actually is, whether organoids could ever be considered conscious and how philosophers are being brought into that conversation, how university researchers and commercial clients are already running experiments on living neurons from anywhere in the world, what it would take to call the project a success, and how biocomputing compares to quantum computing as a next-generation computing paradigm.

Dr. Ewelina Kurtys online:

Website: finalspark.com

LinkedIn: linkedin.com/in/ewelina-kurtys