Transformée de Fourier quantiqueEn informatique quantique, la transformée de Fourier quantique (TFQ) est une transformation linéaire sur des bits quantiques, et est l'analogie quantique de la transformée de Fourier discrète. La transformée de Fourier quantique est l'un des nombreux algorithmes quantiques, qui incluent notamment l'algorithme de Shor qui permet de factoriser et de calculer le logarithme discret, l'algorithme d'estimation de phase quantique qui estime les valeurs propres d'un opérateur unitaire et les algorithmes traitant du problème de sous-groupe caché .
Superconducting quantum computingSuperconducting quantum computing is a branch of solid state quantum computing that implements superconducting electronic circuits using superconducting qubits as artificial atoms, or quantum dots. For superconducting qubits, the two logic states are the ground state and the excited state, denoted respectively. Research in superconducting quantum computing is conducted by companies such as Google, IBM, IMEC, BBN Technologies, Rigetti, and Intel. Many recently developed QPUs (quantum processing units, or quantum chips) utilize superconducting architecture.
One-way quantum computerThe one-way or measurement-based quantum computer (MBQC) is a method of quantum computing that first prepares an entangled resource state, usually a cluster state or graph state, then performs single qubit measurements on it. It is "one-way" because the resource state is destroyed by the measurements. The outcome of each individual measurement is random, but they are related in such a way that the computation always succeeds.
Informatique quantiqueL'informatique quantique est le sous-domaine de l'informatique qui traite des calculateurs quantiques et des associés. La notion s'oppose à celle d'informatique dite « classique » n'utilisant que des phénomènes de physique classique, notamment de l'électricité (exemple du transistor) ou de mécanique classique (exemple historique de la machine analytique). En effet, l'informatique quantique utilise également des phénomènes de la mécanique quantique, à savoir l'intrication quantique et la superposition.
Quantum programmingQuantum programming is the process of designing or assembling sequences of instructions, called quantum circuits, using gates, switches, and operators to manipulate a quantum system for a desired outcome or results of a given experiment. Quantum circuit algorithms can be implemented on integrated circuits, conducted with instrumentation, or written in a programming language for use with a quantum computer or a quantum processor. With quantum processor based systems, quantum programming languages help express quantum algorithms using high-level constructs.