Quantum art A developer of Phil Stack Quantum Computers, Nvidia’s CUDA-Q Hybrid Quantum Classical Platform has integrated into its “cobat”.
The integration of the Nvidia’s open source platform will advance the performance of the Scale Quantum Computing Real World Applications for logical cobs in its modern circuit compiler.
The integration couples are the Israeli-based quantum art logical quote compilers who use their unique multi-coat gates and multi-core architecture with NVIDIA CUDA-Q, an open source hybrid quantum classic computing platform, which enables developers to operate developers.
By combining quantum art compiler, which has been improved for low -circuit depth and expanding performance, which has the skill of NVIDIA in multi -core orchestration and developer’s ability, this collection has a key basis for the development of real -world quantum use issues.
How does it work
The quantum algorithm needs to be practically and commercially useful, they need to maintain the excellent performance of trapped ion cobs and all the contacts of all trapped ion cobs, while promoting the number of cubits.
Today’s most common approaches for scaling are very slow and have been compromised, and large feet marks and complexity of engineering. The quantum art solution benefits from the physical system by understanding the doors of modern multi -quantity logic, working on multi -core quantum processing units (QPUS), a dynamically capable, to create a dynamic.
This enables widespread distribution and communication to achieve computation power above competitive solutions. The trapped ion cobs are the leading technical platform in quantum computing.
- Natural cobs, without a fabrication between cobs.
- The longest harmony time.
- Best loyalty to logical operations.
Eincuts are electrically trapped in ultra -high vacuum. They are cooled at ionized, micro -cane temperature, and manipulates using lasers.
Integration
It is expected that the integration of quantum art and the integration of NVIDIA CUDA-Q will include a significant reduction due to its favorable multi-coat and multi-core operation in its favorable multi-core operation. The initial results of the physical layer show already improved scaling (N vs N2 code lines), and effective improvement of the quantum volume circuits login up to 25 %, which includes very few circuits with significant performance.
Its importance is the ability to dramatically enhance quantum volume, using this composition on such a quantum hardware system.
One of the main objectives is to realize the synthesis and correction of quantum circuits at the level of ~ 200 logical regulations, a scale associated with emerging commercial use issues. Circuit depth, T -gate counting, and the number of regeneration of the required basic regeneration will be analyzed to improve the measurement performance. The quantum volume will serve as a system level standard to evaluate the overall effectiveness and scale of the joint platform.
“We are excited to work with the next generation computing infrastructure leader, NVIDIA, to combine our complementary powers and accelerate the future of expanding quantum computing,” said Tal David, CEO of Quantum Art. “Our trapped ion cobits and proprietary multi-core architecture offer an unprecedented scaling opportunity that is solving the #1 challenge of quantum computers as industry moves towards commercialization. The integration of our compilers in CUDA-Q will enable the developers to develop meaningful quantum applications.”
“The CUDA-Q platform is designed to accelerate the successes of quantum computing by increasing the success of the CUDA-Q platform AI Supercompoting,” said Sam Stein Week, a group product manager of quantum computing in Nvidia. “The integration of CUDA-Q with their composition of quantum art is a good example of how quantum and classic hardware improve performance improvement in quantum research.”
In this work, quantum art is widely identified by another milestone to achieve quantum computing through its trapped ion systems, multi -coat gates, and dynamically recruited multi -core architecture. These innovations indicate the basic challenge of scaling to thousands, and eventually to provide millions of quartes to a considerable commercial price. This integration pursues quantum vision to achieve commercial quantum advantage and opens new capabilities in sectors such as the discovery, logistics and energy systems of material.
Quantum Art Limited specializes in the development of scale quantum computers based on trapped ion cobs, located in Israel’s Nes Ziona, Israel.