Industry Background
Innovative Pathways to Overcome Complex Molecular Simulation Bottlenecks
As traditional computing technologies face limitations in handling complex molecular structures, protein folding, and large-scale molecular simulations, quantum computing offers a transformative perspective. Its unique capabilities in optimization and simulation provide new solutions for critical challenges such as drug screening, molecular docking, and biomolecular interactions.
From Theoretical Validation to Industrial Application
Globally, research institutions and enterprises are actively exploring quantum computing applications in drug discovery, precision medicine, and bioinformatics. These efforts are accelerating the transition of quantum technology from theoretical research to practical use, unlocking new opportunities for the biomedical industry.
Industry Pain Points
Data Complexity & Quantum Mapping Challenges
Biological and medical data often exhibit high dimensionality and complex structures. Efficiently mapping this data into quantum computing frameworks remains a critical technical bottleneck.
Shortage of Specialized Algorithms & Software Platforms
Efficient quantum algorithms for solving core biomedical problems are still in exploratory stages. The lack of mature solutions and integrated software ecosystems hinders practical adoption.
Talent Gap & Interdisciplinary Integration Barriers
Both quantum computing and biomedicine are highly specialized fields. The shortage of cross-disciplinary experts and difficulties in merging distinct knowledge systems slow down industry progress.
Advantages
Advanced Data Preprocessing & Mapping Technologies
Advanced data preprocessing and mapping techniques efficiently transform high-dimensional, complex biomedicine data into quantum computational frameworks, addressing data input bottlenecks while significantly enhancing computational accuracy and operational efficiency.
End-to-End Service Infrastructures
The solution integrates domain-specific quantum algorithms for biomedicine applications, building a comprehensive software ecosystem that provides end-to-end services, effectively bridging gaps in mature industry applications.
Solution Architecture
Core Products
QDock
Leveraging cutting-edge quantum computing technology, Origin Quantum's QDock revolutionizes traditional conformational search algorithms by quantizing small molecule states. It significantly enhances computational efficiency and shortens the path to identifying ideal conformations, accelerating drug discovery into an era of high efficiency and precision
Quantum Drug Screening Platform
Relying on advanced quantum computing technology, this platform offers transformative drug screening solutions. It encompasses core functions such as drug molecule toxicity prediction, molecular docking, and drug molecule interaction prediction. It not only provides beginners with valuable hands-on opportunities but also offers drug design experts novel perspectives and methods, thereby boosting drug efficiency and inspiring infinite innovation potential
More Quantum Biomedical Apps & APIs
Origin Quantum is dedicated to the deep integration of quantum computing and biomedicine, delivering numerous cutting-edge demonstration applications for the industry. Research outcomes include: cardiovascular disease prediction apps, drug similarity comparison apps, drug molecule target prediction models, and molecular docking applications, among others
Application scenarios
Drug Screening and Molecular Docking
Convert high-dimensional biomedical data into a quantum computing framework, and use corresponding quantum algorithms to perform accurate molecular docking and interaction prediction between target drug molecules and target proteins. This enables efficient screening and optimization of drug candidate molecules, shortening the research and development cycle and reducing costs.
Precision Medicine and Personalized Treatment
Map patients' multi-dimensional data such as imaging data and omics data to a quantum computing environment, and use quantum algorithms to conduct accurate analysis of disease risks and treatment responses. This assists in formulating personalized treatment plans and improves the accuracy and efficacy of diagnosis and treatment.
Interdisciplinary Collaboration and Transformation of Innovative Applications
Build an integrated collaborative environment to support in-depth communication and cooperation between researchers in the biomedical field and quantum computing experts. Jointly explore cutting-edge topics such as protein folding and molecular dynamics simulation, and accelerate the transformation of basic research results into clinical applications.