| Designing Ultra-Dense Computers with QCAs: Quantum Cellular Automata, a new technology, can make real computers orders of magnitude denser than the limits of CMOS, from molecule size devices; information flows by Coulomb interactions not electric current. Investigators, references. [Notre Dame Computer Science and Engineering] |
| New Microchips Shun Transistors: Story on magnetic quantum cellular automata research, non-volatile logic, at University of Notre Dame. Works via areas of magnetic orientation instead of transistors and wires. [Wired News] |
| QCADesigner: Quantum dot cellular automata simulator and design layout tool. Can simulate millions of cells. Runs on Linux, Mac OS X, SPARC Solaris. [Free] |
| QUADRANT Project: QUAntum Devices foR Advanced Nano-electronic Technology. Goal: implement the basic blocks of logic circuits with Quantum Cellular Automata: QCA. Participants, project summary, activities, progress reports, publications. |
| Quantum Dot Cells: Wireless quantum dot logic resources, nanotechnology context: tutorial, lecture summary, references. [MITRE Corp.] |
| Quantum-dot Cellular Automata Homeworld: References, Java demonstrations, QCA links. [University of Notre Dame] |
| The Wolfram Machine Project: Effort to make a computer architecture based on the mathematics proposed in Steven Wolfram book: A New Kind of Science. |
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