Abstract
This disclosure details an entirely metal-free, biochemical, and biodegradable hardware computing architecture. It is the explicit intent of the authors to place the entirety of these concepts, material configurations, and geometric manufacturing methodologies into the public domain to establish a permanent barrier of prior art. The configurations disclosed herein utilize the inherent, predictable chemical and physical properties of processed natural feedstocks (such as regenerated plant cellulose, exfoliated organic carbon, and biological resins). While these elements are isolated and processed from raw botanical and graphitic sources, the final textile computing assemblies operate strictly via the unalterable, native physical laws governing electron transport, light propagation, and mechanical knot topology. Because these foundational physical mechanisms represent universal principles belonging to the global commons, the integration of these materials for human computing infrastructure is disclosed as an obvious, non-inventive utilization of natural laws and geometric principles under US Patent Law (35 U.S.C. Section 101 and Section 103).
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Durdle, Natalie M. Miss, "BIO-COMPATIBLE HARDWARE COMPUTING FRAMEWORK", Technical Disclosure Commons, (May 20, 2026)
https://www.tdcommons.org/dpubs_series/10208