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- Noisy intermediate-scale quantum era - Wikipedia
The current state of quantum computing [1] is referred to as the noisy intermediate-scale quantum (NISQ) era, [2] [3] characterized by quantum processors containing up to 1,000 qubits which are not advanced enough yet for fault-tolerance or large enough to achieve quantum advantage
- [2101. 08448] Noisy intermediate-scale quantum (NISQ) algorithms - arXiv. org
In this review, we provide a thorough summary of NISQ computational paradigms and algorithms We discuss the key structure of these algorithms, their limitations, and advantages We additionally provide a comprehensive overview of various benchmarking and software tools useful for programming and testing NISQ devices
- What is NISQ computing? Pros and cons - TechTarget
Noisy intermediate-scale quantum (NISQ) computing defines the present stage of quantum computing, in which quantum devices have a moderate qubit count, ranging from 50 to 1,000 The term was coined by physicist John Preskill in 2018 to characterize this prefault-tolerant era of quantum computation
- The complexity of NISQ - Nature Communications
In this work, we define and study the complexity class NISQ, which encapsulates problems that can be efficiently solved by a classical computer with access to noisy quantum circuits
- What is NISQ computing? - Q-CTRL
Learn about the current "noisy" era of quantum computing and what it stands to deliver Uncover what quantum computing in the NISQ era looks like today
- NISQ computing: where are we and where do we go?
As opposed to the far future, where quantum computers can be as big as we wish them to be and are capable of performing fully controllable operations (termed as the fault-tolerant era), we are currently working in the Noisy Intermediate-Scale Quantum (NISQ) era, which is an operational definition that implies that the quantum computers
- Noisy Intermediate-Scale Quantum (NISQ) Era: Bridging the Gap
NISQ Technology, or Noisy Intermediate-Scale Quantum technology, is expected to play a key role in the development of quantum computing, particularly in simulating complex systems and optimizing processes
- NISQ - Quantum Computing Explained - quandela. com
NISQ, which stands for Noisy Intermediate-Scale Quantum, refers to the current generation of quantum computers These devices have several tens to a few hundred qubits and are characterized by their ability to perform quantum operations, but with significant noise and errors that limit their capabilities
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