Product overviewDeepUnity PACSonWEB is a cloud-native PACS solution designed to optimize medical imaging workflows and services. Developed for cloud deployment, it enables secure distribution, sharing and visualization of medical images and reports over the internet. The platform supports collaboration among clinicians, patients and healthcare institutions, and is engineered to be scalable, compliant and cost-predictable to help reduce total cost of ownership.
Architecture and purposeBuilt on a centralized cloud architecture, DeepUnity PACSonWEB provides a single imaging system to organize and manage the full value chain of medical imaging. This centralized model streamlines workflows, improves accessibility and enables collaboration across institutions while ensuring continuous operation and simplified management of imaging services.
Key Benefits- Reduces IT burden and upfront capital by removing on-site installations
- Enables workforce flexibility: radiologists can work remotely
- Enhances security with central monitoring, logging and 24/7 support
- Offers predictable costs through payment‑per‑study commercial models
- Minimizes ancillary costs such as maintenance, integration and upgrade expenses
Key Features- Multi-tenant, cloud-native platform
- Secure and designed for regulatory compliance
- Cross-institution collaboration: image exchange, reporting and shared patient timelines
- Viewer optimized for high-latency / low-bandwidth conditions
- Accessible from any device (diagnostic use requires a suitable device)
Product information- Flyer - DeepUnity PACSonWEB (product flyer available)
- Brochure - DeepUnity PACSonWEB (detailed brochure available)
- Use Case Video - DeepUnity PACSonWEB (use case / product video available)
Technical specifications- Deployment: cloud-native, centralized cloud architecture
- Multi-tenancy: supports multiple tenants on the same cloud platform
- Scalability: designed to scale for cross-institution usage and high imaging volumes
- Security & compliance: central monitoring, logging and regulatory-focused design
- Availability: 24/7 support and monitoring for core components
- Viewer: optimized for low-bandwidth/high-latency environments; supports multiple device types (diagnostic use subject to device suitability)
- Business model: payment-per-study option for predictable costs
- Interoperability: image exchange, reporting and shared patient timelines across institutions
- Operational aim: reduce local IT overhead, maintenance and upgrade burden through cloud delivery