Variance Dynamical is a research and development company with two patents, a prototype chip, and applications of new technology in process. An intriguing problem in modern scientific research is how the biological nervous system works. Billions of interconnected neurons continuously monitor external stimuli and process stored information, in what we know is the most versatile calculating machine in nature. Some approach this question out of medical interest or philosophical intrigue. The scientists at Variance Dynamical chose to explore the mathematical consequences of an electronic device with the capability of simulating neural behavior. After 15 years of research, Dr. Paul Goodwin, renown Professor of Physics and Alaskan, discovered that the behavior of human nervous system can be simulated by cortical neural loops. The idea became the model from which two cornerstone US Patents were issued, for Variances Electronic Neural Loop (ENL) technology. The ENL can operate on any analog transmission containing its fundamental frequency (eg. wireless transmissions or interfaced with sensors). In short, the ENL performs automatic Fourier frequency decompositions, passively and near instantaneously (3-4 cycles). Varaince has built a fully functioning prototype ENL, which validates the approach of using proprietary waveguide designs, which emulate the role of neurons. The analog nature of the device means that Variance technology does not require sampling, framing or any form of numberical DSP computations to produce spectra. Looking towards future implementations of this technology, Dr. Andreas Tziolas, a cosmologist and NASA research fellow, believes the analog wave nature of the device permits the construction of a brand new type of signal processing logic, which is unconstrained by traditional digital signal analysis. Variance scientists are spearheading the development of the new programming language which the ENL will use, for deployment of a metacognitive computing platform a decision making computer.
