… Quantumcomputational complexity has already been used to show why various modifications (or fant asy versions) of quantum mechanics are much too powerful and this way we can …
E Rieffel, W Polak - ACM Computing Surveys (CSUR), 2000 - dl.acm.org
… is to guide computer scientists through … quantumcomputing from conventional computing. We introduce basic principles of quantum mechanics to explain where the power of quantum …
… high dimensionality of quantum systems; … quantumcomputers now appear to be a counterexample. In the following section, I describe the quantum circuit model for quantum …
… could solve this problem exponentially faster than a classical computer. While this result … element of a quantumcomputer, a quantum bit, or “qubit,” let alone a full quantumcomputer. But …
… quantumcomputation to these nonstandard audiences. As a result the level of the book is a bit lower than that found in the standard quantumcomputation … level quantumcomputation …
… a quadratic speedup in quantumcomputation (with respect to … quantumcomputation in a restricted quantum circuit model. … in computer science and is interested in quantumcomputation. …
A Steane - Reports on Progress in Physics, 1998 - iopscience.iop.org
… (quantum error correction), and the use of controlled quantum evolution for efficient computation (quantumcomputation… is the use of quantum entanglement as a computational resource. …
… quantumcomputer hardware. Yet I find that a discussion of applications of quantumcomputers … ’s algorithm for quantum search. As more and more books have been written on quantum …
… on quantumcomputation. One of the critical differences between quantum and classical computation is that in quantum … to quantumcomputation in our treatment of complexity classes. …