Intel Quantum Simulator
The Intel Quantum Simulator (Intel-QS), also known as qHiPSTER, provides a high-performance environment for simulating quantum circuits. It optimally leverages multi-core and multi-node architectures, representing qubit states without relying on explicit matrix operations. Using the MPI protocol, it efficiently manages resources for storing and manipulating quantum states across various systems, from laptops to HPC servers.
Top Intel Quantum Simulator Alternatives
LIQUi|>
LIQUi|> is an innovative software architecture designed for quantum computing, providing a suite of tools including a high-level programming language and advanced optimization algorithms.
Amazon Braket
Amazon Braket empowers researchers to advance quantum computing by providing seamless access to diverse quantum hardware, including superconducting, trapped ion, and neutral atom devices.
Azure Quantum
Azure Quantum accelerates scientific discovery by leveraging Microsoft’s Majorana 1 chip, the first quantum processor powered by a topoconductor.
IBM Quantum
IBM Quantum® provides unparalleled access to the world's largest quantum computing fleet through Qiskit, offering essential tools for developing robust quantum applications.
Superstaq
Superstaq empowers users to maximize performance from diverse quantum hardware through tailored device-specific optimizations.
BQSKit
The Berkeley Quantum Synthesis Toolkit (BQSKit) is an advanced quantum compiler framework designed for seamless optimization and execution of quantum circuits.
Rigetti Quantum Cloud Services (QCS)
This advanced system utilizes a dilution refrigerator to maintain ultra-cold temperatures, ensuring optimal performance...
Qiskit
With AI-enhanced transpilation, it executes workloads across diverse hardware platforms, including cloud-based quantum processors...
Google Cirq
It offers essential abstractions tailored for current noisy intermediate-scale quantum (NISQ) hardware, facilitating effective experimentation...
QX Simulator
It uniquely allows for the simulation of both ideal and realistic noisy quantum circuits, incorporating...
D-Wave
With its Leap Quantum LaunchPad™ program, users can swiftly develop and deploy quantum applications, harnessing...
QuEST
Utilizing multithreading, GPU acceleration, and distribution, it runs seamlessly on various platforms...
Q-CTRL
By transforming bare-metal hardware into powerful computational tools, it significantly improves algorithmic accuracy, reduces errors...
Quantum Programming Studio
Users can design circuits using an intuitive drag-and-drop interface, which automatically translates to code...
Quantum Inspire
Users can extend their application library with a versatile SDK, connect with Qiskit and Pennylane...
Top Intel Quantum Simulator Features
- High-performance quantum circuit simulation
- Multi-core architecture optimization
- MPI for distributed resources
- Backward compatibility assurance
- Shared library for integration
- Customizable installation options
- Supports various system architectures
- CMake-based build system
- Docker image for easy setup
- Python bindings via PyBind11
- Comprehensive tutorials for beginners
- Step-by-step code examples
- GitHub issues for bug tracking
- Contributing policy for developers
- Jupyter notebook integration
- Noisy gates simulation option
- High-performance computing support
- Code of conduct for contributors
- Detailed installation guide
- User feedback-driven development.
