Sunday, October 5, 2014

Technological Evolution - Quantum Computing, Memristors, and Nanotechnology

It is amazing how evolution of technology changes perspectives so quickly on the future. With holographic interactive screens currently in use, memristors and atomic-level transistor technologies at our fingertips, and new developments in using light as a means to interact with systems or store system data, the reality of AI and systems like Jarvis are finally able to go from drawing board concept to real life prototype. For as long as I can remember, I have been talking about quantum computing and nanotechnology and how that is the future of systems and human interactions. As a younger teen, when I first started learning about quantum mechanics and ultra microscopic hardware theories, I saw then that the future of computer systems and computer-human interactions were going to be largely logic based and function faster than the speed of human thought. By marrying the concepts of quantum mechanics and advanced computer system theory, intelligent systems and true AI are highly viable and will be here within the current generation. As advances in nanotechnology take transistors to the subatomic level, and theories in quantum computing become a reality, we are quickly going to see the industry change as the traditional system paradigm is shattered, and a new evolution in technology is ushered in - I would call it the quantum age - where Schroedinger's cat can exist in both physical states without the concern of observation tainting the true reality of the objects existence. The potential gains with quantum processors and quantum computing methods that scientists around the world are currently developing into physical models are, at the moment, limited only to manufactured hardware capacities. As physical hardware capacities become perceived as unimportant to system planning schemes - due to advances like the memristor and photonics, including the newest nano-laser (see reference) - the focus can be given to writing programs that can take advantage of this new systems paradigm. What is going to take time is the change in mindset to understand how to use a quantum system because it requires a completely new approach to hardware and software design. Modern systems process data in a linear manner, processing one bit after another based on the time slice protocol programming in to the operating systems and CPU itself. Regardless of how many processors you throw at a system, it still only processes one bit of data at any given time slice. The fastest super computer, China's Tianhe-2, can process more than 6.8 quadrillion bits per second (3.12 million processors x 2.2GHz each = 6,864x10^12 processes per second), but it still only processes one bit at a time. Quantum systems do not function in this manner, they function in a far different reality where a bit can be both a 1 and a 0 simultaneously within a single time slice, though quantum processors would not use a time slice function, it would require something else yet to be defined. As scientists gain a better understanding of how to create a truly quantum computer systems, and quantum capable operating system, we will see technology advance to arenas yet to be discovered. What we once called science fiction, is quickly becoming scientific fact.

~Geek


References:http://www.sciencealert.com.au/news/20143009-26256.html (nano-laser)

http://www.top500.org/system/177999 (Tianhe-2 details)

No comments:

Post a Comment