FrameworX embodies the principle of Unified by Design - a single platform architecture that eliminates the traditional boundaries between development, deployment, and runtime environments. This unified approach natively includes all required modules for real-time applications: industrial process modules (alarms, historian, devices with 100+ connectors) and core application modules (scripts, reports, datasets).
Vision: Aim high, start simple, scale without limits.
The architecture enables you to design once and deploy everywhere - desktop (.NET), web (WebAssembly), and mobile - from a single solution configuration.
On this page:
Real-Time In-Memory Database
When a solution executes, variables like Tags, Templates, and Assets are loaded into memory, acting as a central point of reference for all functional modules. The TServer.exe process maintains this real-time database, running as either a Windows Service or deployed to Linux and other supported operating systems.
All modules interact with the real-time database through a publish/subscribe model, ensuring consistent data access and efficient performance across the entire system.
Deployment Models
FrameworX provides versatile deployment architectures tailored to your operational requirements, from standalone configurations to sophisticated distributed systems.
| Deployment Options | |
|---|---|
Standalone Configuration
| Distributed Architecture
|
Redundant Systems
| Cloud and Hybrid
|
Typical Deployment Scenarios
Single Server
- Server handles all runtime functions
Stand-Alone System
- Local client via Rich Client or remote SmartClient or Web
- Suitable for machine operation and Edge systems.
Server and Clients System
- Local or remote clients via Rich Client, Web Browser, or Mobile
- Suitable for single-site or line operations
Distributed Architecture
- Multiple servers across locations
- DataHub Station - Field-level I/O acquisition, alarm processing, historian
- Displays Portal - User interface serving for distributed operator groups
- Enterprise-wide solutions with optimized network usage
Distributed Data Acquisition System
A server machine hosts device modules communicating with remote PLCs or historians. The SCADA client can be on the same server or a separate computer. This setup is ideal for plants with devices on slow or limited networks, optimized with I/O servers for better performance.
Distributed Control System
Multiple servers are set up across different plants or projects, enabling access to control rooms for each. Users select the specific plant they wish to monitor. This setup features discrete locations with local operators and redundant servers for each site.
Redundant Server Configuration
- Primary and backup servers with heartbeat monitoring
- Automatic client reconnection on failover
Local Database with Alarm/Historian Synchronization
Remote Database Cluster
Key Architectural Benefits
| Benefit | Description | Impact |
|---|---|---|
| Unified Development | Single Designer for all modules | Reduced learning curve |
| Modular Design | Independent module operation | Easier troubleshooting |
| Open Standards | OPC UA, MQTT, REST APIs | Enterprise integration |
| Scalability | From embedded to enterprise | Investment protection |
| Platform Agnostic | Windows, Linux, Docker | Deployment flexibility |
Next Steps
- Review Technology Foundation for development platform details
- Explore Product Editions to select appropriate licensing
- Continue to The Four Pillars for module architecture