Quantum Computing and Semiconductor Research

Single Molecule Magnets (SMMs) are General Physics' plan for developing qubit architecture and quantum substrates for algorithms. Don't be fooled by theoretical designs, Q# science, and pseudo quantum. General Physics develops robust, coherent, and classically integrated quantum systems that maintain qubit states indefinitely. SMMs promise memory device and algorithmic gate function in addition to the superposition of quantum magnetic spin.

Chip architecture and logic gates utilizing smaller transistors at the nanoscale and Ångstrom level will be the future of integrated circuits. General Physics plans to create chips specifically for CAD, CATIA, Blender, and three dimensional matrix rotation systems and unitary transformations in position space (really any n-dimensional space) with limits set by the rank and Wronskian of the logical gate parallel connected diagrams.

Although ASML, TI, TSMC and Intel are chip manufactures that dominate the market, there is room for new developments in lithography. Bringing this technology to the US is critical for consumer electronics and defense. As such, General Physics plans to build a fab in California with sufficient facilities and resolution to make sub-nanometer chips from better EUV technology. Our new Sn cluster beamline combined with novel quantum SMMs will be key to develop hybrid and affordable robust quantum classical computing systems for the b2b client.