Quantum + Digital Twins
The fusion of Quantum Computing and Digital Twins marks a transformative step toward redefining real-time simulation, optimization, and predictive modeling in industries ranging from aerospace and healthcare to energy and….
Tag: NISQ devices
Benchmarking NISQ Devices
NISQ (Noisy Intermediate-Scale Quantum) devices represent the current generation of quantum processors, typically containing 50 to a few hundred qubits, but without full error correction. While they hold great promise….
Quantum Gate Speed
Quantum gate speed refers to how fast a quantum gate operation can be executed on a quantum computer. It is a crucial parameter for evaluating the performance, efficiency, and feasibility….
Circuit Depth and Width
In quantum computing, quantum circuits are used to represent algorithms as sequences of quantum gates applied to qubits. Two fundamental parameters used to evaluate the complexity and feasibility of these….
Quantum Interactive Proof Systems
Quantum Interactive Proof Systems (QIP) are a fascinating part of quantum computational complexity theory, exploring the limits of what can be proven (or verified) using quantum mechanics. To understand QIP,….
Quantum Space Complexity
Just as classical computing has space complexity—the measure of how much memory a computer uses—quantum computing has its own notion of space complexity. This concept is crucial to understanding how….
Error Correction in NISQ Devices
NISQ stands for Noisy Intermediate-Scale Quantum. These are the quantum computers we have today: In this context, error correction means finding ways to reduce, avoid, or compensate for errors in….