Author: | Dale Herman | ISBN: | 9781488533198 |
Publisher: | Emereo Publishing | Publication: | January 6, 2014 |
Imprint: | Emereo Publishing | Language: | English |
Author: | Dale Herman |
ISBN: | 9781488533198 |
Publisher: | Emereo Publishing |
Publication: | January 6, 2014 |
Imprint: | Emereo Publishing |
Language: | English |
It contains 218 answers, much more than you can imagine; comprehensive answers and extensive details and references, with insights that have never before been offered in print. Get the information you need--fast! This all-embracing guide offers a thorough view of key knowledge and detailed insight. This Guide introduces what you want to know about Quantum Computing.
A quick look inside of some of the subjects covered: Amplitude amplification, Theoretical computer science - History, Quantum circuit - Reversible circuits, Ion trap, Quantum entanglement - Applications, Church–Turing thesis - Variations, Quantum computer - Quantum decoherence, Cryptography - Computer era, Qubit - Entanglement, Integer factorization - Other notable algorithms, Qubit - Qubit storage, Quantum dot, QMA, Alexander R. Hamilton - Career, Quantum algorithm - Estimating Gauss sums, BQP - Relationship to other complexity classes, Quantum dot - Computing, Grover's algorithm - Optimality, D-Wave Systems - D-Wave One computer system, Phthalocyanine - Niche applications, Quantum bus, Quantum algorithm - Deutsch–Jozsa algorithm, Simon's algorithm, Ars Technica - Content, Daniel Lidar - Honors, Informatics (academic field) - History, Linear optical quantum computing, Grover's algorithm - Applications, BQP - Quantum computation, Quantum convolutional code, Quantum superposition - Experiments and applications, Scott Aaronson, Citizen science - Activities, Quantum Fourier transform - Unitarity, Quantum annealing - Implementations, Post-quantum cryptography, Mature technology - Immature technologies, Photon, Nitrogen-vacancy center - Energy level structure and its manipulation by external fields, Deutsch–Jozsa algorithm - Problem statement, Loss-DiVincenzo quantum computer, and much more...
It contains 218 answers, much more than you can imagine; comprehensive answers and extensive details and references, with insights that have never before been offered in print. Get the information you need--fast! This all-embracing guide offers a thorough view of key knowledge and detailed insight. This Guide introduces what you want to know about Quantum Computing.
A quick look inside of some of the subjects covered: Amplitude amplification, Theoretical computer science - History, Quantum circuit - Reversible circuits, Ion trap, Quantum entanglement - Applications, Church–Turing thesis - Variations, Quantum computer - Quantum decoherence, Cryptography - Computer era, Qubit - Entanglement, Integer factorization - Other notable algorithms, Qubit - Qubit storage, Quantum dot, QMA, Alexander R. Hamilton - Career, Quantum algorithm - Estimating Gauss sums, BQP - Relationship to other complexity classes, Quantum dot - Computing, Grover's algorithm - Optimality, D-Wave Systems - D-Wave One computer system, Phthalocyanine - Niche applications, Quantum bus, Quantum algorithm - Deutsch–Jozsa algorithm, Simon's algorithm, Ars Technica - Content, Daniel Lidar - Honors, Informatics (academic field) - History, Linear optical quantum computing, Grover's algorithm - Applications, BQP - Quantum computation, Quantum convolutional code, Quantum superposition - Experiments and applications, Scott Aaronson, Citizen science - Activities, Quantum Fourier transform - Unitarity, Quantum annealing - Implementations, Post-quantum cryptography, Mature technology - Immature technologies, Photon, Nitrogen-vacancy center - Energy level structure and its manipulation by external fields, Deutsch–Jozsa algorithm - Problem statement, Loss-DiVincenzo quantum computer, and much more...