Nano Computing and The Future of Silicon

We are trying to end the progress of traditional silicon-based computing, so we should use nontraditional silicon. There are other options, but they are not currently on the market or developed in a practical way like silicon. At the moment we have succeeded in creating prototypes of various methods for non-traditional silicon based technologies such as 3D chip stacking and multicore processor design. This article explains the advantages of using non-traditional chips and how to develop other "solutions" at the end of traditional chips into real solutions.

Silicon Valley has started nanoscale research. The $ 500 billion semiconductor production is based on 2015 nanotechnology including nanocomponents, nanoscale processing materials and other nanostructures. Given the convergence of IT, nanotechnology and biotechnology, information processing takes place at a faster rate, which will change the way we use boards, electronics and integrators.

Nanotechnology is an idea and almost everything about the future of artificial intelligence will emerge. 67 This is nanoscale technology of 1 to 100 nanometers. "Nano is in the range of from millionth of 1 mm is .1 nanometer of 100 nanometers, the virus (100 nanometers), DNA (10 nano-meters in width), and hemoglobin (5 nanometers) and glucose (1 nm) It contains a material having a small enough molecule in such as. if we conquer the nano-technology, the next step would be the ability to manipulate individual atoms, it is just an order of magnitude (~1 nm) .

Other predictors predict that the current computing technology will soon begin to stabilize at their propagation map due to the miniaturization of silicon semiconductors. Other theories point to nanotechnology to further advance the development of traditional computing. All of these technologies intersect at a specific stage and can create new possibilities for developing technologies beyond current human understanding. The Boson sampler is a 5 bit quantum computer. It might seem surprising if IBM has never developed a 5-bit quantum computer in the past. In fact, the architecture of the Boson sampler can be extended to increase processing power. With the flexibility of such a Boson sampler architecture, Chinese scientists will be able to extend this technology to 20 quarts (20 bits) by the end of 2017.