Solving the unsolvable
Explore how Quantum Art’s fault-tolerant quantum computing solutions are helping solve phenomenally complex problems, for commercial applications at scale, and a better humanity for all.
Chemistry & Materials
Quantum Art’s multi-cores capability allows complex 3D materials simulations expediting and enhancing Chemistry modelling by orders of magnitude, allowing researchers to understand molecular and atomic interactions at an unprecedented level. This enables the discovery of new materials, the optimization of their properties, and the pursuit of novel applications.
Key use cases include:
Accelerated Drug Discovery: Simulating molecular dynamics to identify promising compounds faster.
Protein Folding: Solving complex problems related to protein structures that are critical for biomedical research.
Reduced Costs: Complex simulations minimize the need for costly trial-and-error experiments in labs.
Machine-Learning
Quantum-Art’s All-to-All connectivity allows super-fast processing of large databases that are required in Quantum Machine Learning tasks. This significantly enhances machine learning by improving data loading, processing, and
algorithm efficiency.
Key use cases include:
Data Clustering and Classification: Faster and more accurate analyses of large datasets.
Recommendation Systems: Optimizing personalization for users in e-commerce or streaming platforms.
Anomaly Detection: In image processing and classification in automotive or medical applications, or in unstructured data sets.
Process Optimization
Quantum-Art’s MQ-gates capability offers a computational power increase 1000X greater than other quantum computers. This enables shorter circuit times for deeper and more complex process and logistics optimizations by processing multiple possibilities simultaneously. Moving forward, these can be mapped into other types of optimization problems.
Key use cases include:
Logistics and Supply Chain Management: Optimizing delivery routes, warehouse placement, and resource allocation.
Scheduling: Efficiently assigning resources in industries like airlines, manufacturing, or public services.
Energy Systems: Balancing energy grids and optimizing renewable energy integration.
Banking & Finance
Quantum Art’s modular architecture enables phenomenally complex problems, such as financial tasks, with high qubit and operations numbers, to be solved quickly and simply. From analyzing and optimizing large datasets to optimizing complex financial systems.
Key use cases include:
Portfolio Optimization: Balancing risk and return in investment portfolios with high precision.
Risk Analysis: Improving models for forecasting and managing financial risks.
Fraud Detection: Enhancing real-time detection of anomalies and fraudulent activities in transactions.
