QUANTUM computingPROTEIN engineeringAMINO acid sequenceQUANTUM computersPROTEIN structurePROTEIN modelsProtein design is a technique to engineer proteins by permuting amino acids in the sequence to obtain novel functionalities. However, exploring all possible combinations of amino acids is general...
D-Wave's quantum annealing processor, however, is only reflective of one particular branch of quantum computing: based on a system that is capable of optimizing itself to reach the lowest energy state, quantum annealing is only suited to specific optimization problems. On the other hand, it is...
Quantum Computing A Comprehensive Beginners Guide 量子计算是全新的体系结构。这个系列视频从数学基础开始,介绍了量子计算的一些基本概念和量子计算的应用 1 - Math prerequisites 2 - Qubit 3 - Quantum gates Single quantum gates 4 - Multiple Qubit 5 - Multiple qubit gates 5.1 CNOT gate 5.2 CNOT gate ...
Gate-based quantum computations represent an essential to realize near-term quantum computer architectures. A gate-model quantum neural network (QNN) is a QNN implemented on a gate-model quantum computer, realized via a set of unitaries with associated gate parameters. Here, we define a training...
While significant progress has been made on the hardware side of quantum computing, support for high-level quantum programmingions remains underdeveloped compared to classical programming languages. In this article, we introduce Qrisp, a framework designed to bridge several gaps between high-level progra...
5.6.3 Cavity Based Quantum Computing A number of cavity quantum electrodynamics (QED) based schemes for implementing quantum information processing and communication have been suggested. In cavity QED one is able to prepare quantum states for the electromagnetic field stored in a resonant cavity. More...
The interaction between Rydberg states of neutral atoms is strong and long-range, making it appealing to put it to use in the context of quantum technologies. Recently, first applications of this idea have been reported in the fields of quantum computati
These results indicate that simple parallel processing procedures borrowed from digital computing methods cannot be simply translated and implemented on today NISQ-based quantum hardware platforms. The data clearly show that the individual circuit computations run on Layout 1 and Layout 2 cannot be direct...
Gate-based quantum computers operate using logic gates but, in contrast with classical computers, they exploit inherent properties of quantum mechanics such as superposition, interference and entanglement. FromScientific American Luo and co-workers2 have produced a NOT logic gate that flips the direction...
Remarkable progress has been achieved in the development of quantum computers, particularly those utilizing superconducting qubits [8]. Among the most promising candidates are programmable processors based on superconducting qubits with Josephson junctions [9–14]. These processors offer the potential for ...