In 1981, Richard Feynman, probably the most famous physicist of his time asked the question: “Can we simulate physics on a computer?” At the time the answer was “theoretically yes,” but practically not at that time. Today, we may be on the verge of answering “yes” in practice to Feynman’s original question. Quantum computers operate in such a strange way and are so radically different from today’s computers that it requires some understanding of quantum mechanics and bizarre properties like “quantum entanglement.” Quantum computers are in a realm orders of magnitude beyond today’s supercomputers and their application in specific computational problems like cryptography, Big Data analysis, computational fluid dynamics (CFD), and sub-atomic physics will change our World. Canadian quantum computing company, D-Wave Systems has been at the center of Google’s efforts to pioneer this technology.
I previously posted WRT the fact that we are approaching the limits of our ability to achieve physical proof of quantum physics. Why should we care? Where do we go after the CERN Hadron Super Collider confirmed the existence of the Higgs-boson particle, proving the role of dark matter? That said, two separate teams at CERN are debating the results of further experiments that suggest the possible existence of a new sub-atomic particle. This particle, if it exists, and can be confirmed, may support the existence of additional dimensions of space and time. The MIT Technology Review has also suggested that the CERN Hadron Super Collider could potentially prove the validity of the Star Trek hyperdrive technology. We should care because it is the future of the technology that will continue to change our lives.