Your Quantum Algorithms
On Vector Processors GPU Processors FPGA Quantum Hardware
Enhance the speed of simulating quantum algorithms using classical accelerators and also carry out executions on actual quantum hardware.
Our Complete
Quantum Ecosystem
Powerful Circuit Builder
Visually design circuits by dragging and dropping quantum gates. A rich library provides the building blocks, while real-time error checking and simulation ensure your circuits function as intended. Seamless integration with other Qniverse features streamlines development, making complex quantum problems a solvable reality.
Simulate on Accelerators
Simulate complex quantum circuits on accelerators like Vectors, FPGAs and GPUs. These specialized processors offer a significant speed boost allowing the researchers to explore more intricate quantum problems and accelerate the development of quantum algorithms and applications.
Run on Quantum Hardware
Execute your quantum circuit now on a real quantum computer. Running on quantum hardware allows you to harness the true power of quantum mechanics and explore solutions in areas like drug discovery, materials science and financial modeling that are beyond the reach of classical computers.
Algorithm Implementations
Translate the theoretical power of quantum algorithms into practical circuits executable on quantum hardware. Qniverse bridges the gap between theoretical quantum algorithms and practical implementations, bringing the potential of quantum computing closer to reality.
Integrated Transpiler
An automated transpiler has been developed and integrated in to the Qniverse Ecosystem. It takes high-level quantum algorithms, written in languages like QASM, Qiskit, and transforms them into optimized sequences of instructions to Quantum hardware architectures.
Modular Libraries
Qniverse offers a comprehensive suite of modular quantum libraries, streamlining the development of complex quantum algorithms with efficiency and flexibility.
Unlock Quantum Experience
Join the quantum revolution! and be a pioneer in the new era of computing. This experience empowers you to explore the vast potential of quantum technologies and contribute to a future shaped by groundbreaking scientific discoveries.
“Superconducting qubits are a leading contender and a promising approach in the race to build a practical quantum computer. Their scalability, coherence time, and controllability make them a frontrunner in this rapidly evolving field.”
Superconducting Qubits
“A photonics quantum computer leverages the unique properties of light to encode and manipulate quantum information. photonic hardware is a promising avenue for constructing scalable and powerful quantum computers. “
Photonics hardware
“Quantum simulators are powerful tools that mimic the behavior of complex quantum systems using readily available classical computers. Quantum simulators act as a bridge between theoretical models and real-world experiments, accelerating scientific discoveries. “
Quantum Simulators
FAQ
About Qniverse
Qniverse is a cutting edge, Unified Quantum Computing Platform, redefining the way developers, researchers, and enterprises engage with quantum technology. This platform, developed by the Quantum Technology Group, CDAC Bangalore, is designed to make quantum computing accessible by providing an integrated environment for designing, simulating, and executing quantum algorithms on multiple quantum hardware platforms including the superconducting, photonic and neutral atom qubits. Integrated with High-Performance Computing (HPC) Systems, the platform also enables users to accelerate quantum simulations using accelerators such as GPUs, FPGAs, and Vector processors.
What are Quantum Accelerators?
Quantum accelerators refer to hardware devices or software frameworks designed to enhance and optimize the performance of quantum computers. Quantum computing is a rapidly evolving field that holds the potential to solve certain types of problems much more efficiently than classical computers. However, current quantum computers are still in the nascent stages of development and face significant challenges such as error rates, limited qubit coherence times, and scalability issues.
What Quantum Simulators are supported?
Several quantum simulators are supported by Qniverse platform. Some of the commonly used quantum simulators include:
- Qiskit
- CirQ
- CudaQ
Integration with Quantum hardware
Qniverse platform has been integrated with IBMs Quantum Hardware. A transpiler has been developed and built into Qniverse platform for translating high-level quantum code into sequence of operations understood by the IBM quantum hardware. This allows developers to seamlessly submit their code to actual hardware for execution.
Quantum Algorithm Implementations
Qniverse platform provide a powerful platform for implementing quantum algorithms. They don’t offer a one-stop shop for pre-built solutions, but rather equip you with the tools and knowledge to bridge the gap between theoretical and practical applications of quantum computing. As the field of quantum computing evolves, we shall develop more standardized libraries and development tools for further simplifying the process of implementing complex quantum algorithms.
How to Cite Qniverse?
Qniverse [Version Number] [Year]. Quantum Technology Group, C-DAC Bengaluru.