Chongqing - Chongqing has introduced the world’s first quantum scientific computing platform, a development that could accelerate complex computation for science and engineering sectors that rely on high-performance computing.
UnitaryLab 1.0, the world's first quantum scientific computing platform, was unveiled at the Chongqing Science Hall on November 29. (Photo/Chongqing Daily)
The platform, UnitaryLab 1.0, debuted on Nov. 29 alongside two other new technologies from the Shanghai Jiao Tong University Chongqing Institute of Artificial Intelligence. According to the institute, the system is built on a set of "Schrödingerization" quantum algorithms proposed by researchers Jin Shi and Nana Liu, as well as a broader suite of quantum algorithms used in linear algebra and numerical optimization.
Developers say these methods enable the platform to overcome the efficiency limits of classical computing architectures and deliver exponential speed improvements. Such capabilities, they noted, could support industries with substantial computational needs, including finance, energy, and healthcare, while reducing the technical barriers that have slowed the adoption of quantum technologies.
In addition to UnitaryLab 1.0, the institute also introduced a medical panoramic AI agent and an upgraded molecular dynamics simulator, the NanoTitan Pro all-in-one machine.
The medical AI agent is designed as a digital support system for healthcare institutions. Built on a specialized medical knowledge base and multimodal large-model technology, it can be deployed across pre-diagnosis, clinical assistance, and post-treatment scenarios. The system enables auxiliary consultations, screening, and automated content generation to support both medical practice and training programs.
According to the institute, the technology has already been deployed in a county-level regional healthcare project and will continue to expand its capabilities to serve clinical, educational, and research needs.
The new NanoTitan Pro simulator represents a full system-level upgrade in algorithms, architecture, functionality, and user interaction compared with its predecessor. The tool is designed to support molecular dynamics modeling, which is an essential method for studying material properties at the atomic scale, and aims to accelerate breakthroughs in disruptive technologies and their real-world applications.
"We will continue strengthening collaboration with universities, research institutions, and industry partners," a representative of the Chongqing AI institute said. "We aim to build cross-disciplinary innovation platforms, accelerate the application of scientific advances, and support regional technological development and the digital economy."