Biocomputation: Moving Beyond Turing with Living Cellular Computers
Á Goñi-Moreno - Communications of the ACM, 2024 - dl.acm.org
ACM: Digital Library: Communications of the ACM ACM Digital Library Communications of the
ACM Volume 67, Number 6 (2024), Pages 70-77 Biocomputation: Moving Beyond Turing with …
ACM Volume 67, Number 6 (2024), Pages 70-77 Biocomputation: Moving Beyond Turing with …
[HTML][HTML] Synthetic biological neural networks: From current implementations to future perspectives
AH Vasle, M Moškon - Biosystems, 2024 - Elsevier
Artificial neural networks, inspired by the biological networks of the human brain, have
become game-changing computing models in modern computer science. Inspired by their …
become game-changing computing models in modern computer science. Inspired by their …
Lego-like Mixing and Matching of Engineered Bacteria Configure Full Subtractor and Adder Through an Artificial Neural Network Type Architecture
D Bonnerjee, S Chakraborty, S Bagh - bioRxiv, 2023 - biorxiv.org
One of the long-term goals of synthetic bioengineering is to create configurable and
programmable biological systems by just mixing and matching “LEGO”-like bio-modules …
programmable biological systems by just mixing and matching “LEGO”-like bio-modules …
Configurable Full Subtractor and Adder by Lego-like Mixing and Matching of Engineered Bacteria in an Artificial Neural Network Type Architecture
S Bagh, D Bonnerjee, S Chakraborty - 2023 - researchsquare.com
One of the long-term goals of synthetic bioengineering is to create configurable and
programmable biological systems by just mixing and matching" LEGO"-like bio-modules …
programmable biological systems by just mixing and matching" LEGO"-like bio-modules …