When quantum computers become powerful enough, they could theoretically crack the encryption algorithms that keep us safe. The race is on to find new ones.
Learn how Quantum error correction can enable the quantum computing revolution and the vital role it plays in the future of large-scale quantum computers.
Learn about the history of quantum control and how it accelerates the path to useful quantum technologies, such as quantum computers, firmware, and sensing.
Quantum gates form the fundamental building blocks of quantum circuits, acting as the essential logic elements that facilitate the running of quantum algorithms. These algorithms are used in chemistry, optimization, AI, and other areas. These specialized quantum gates manipulate the state of qubits, w...
3. Quantum Algorithms Quantum algorithms are algorithms designed to run on quantum computers, leveraging quantum properties to solve specific problems more efficiently than classical algorithms. Notable examples include: Shor’s Algorithm: Efficiently factors large numbers, which has significant implications ...
Quantum circuits Quantum algorithms are most commonly described by a quantum circuit, of which a simple example is shown in the figure below. A quantum circuit is a model for quantum computation, where the steps to solve the problem are quantum gates performed on one or more qubits. A quantum...
2.Ion Trap Quantum Computers This type of quantum computer uses ions, or charged atoms, as qubits. Ions are held in place by a trap. Quantum simulations and quantum algorithms may be performed using ion trap quantum computers because of their extreme stability and dependability. ...
Qubits can represent any combination of both zero and one simultaneously; this is called superposition, and it is a basic feature of any quantum state. When a qubit’s subatomic particles are in a superposition state, each subatomic particle can interact with and influence others, a phenomenon ...
Only certain applications admit quantum algorithms to efficiently solve meaningful problems. But those that do provide solutions that are otherwise impossible with conventional supercomputing alone. As such, quantum computing is expected to impact a wide range of industries including defense, energy, logi...
What are bits and qubits? A classical computer stores information in a series of bits. A bit is the smallest possible unit of information; its value is either 0 or 1. A quantum computer stores information in qubits rather than bits. A qubit can have a value of 0, 1, or a mix of ...