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.

Image Removed

Image Removed

then Follows User Journey: Create → Design → Deploy/Run

Which the main blocks down

the child pages explore tho concepts in 3 child Pages;  SOlutnDenter. Desing & ModulesConfig,   Runtime DIpalys & Utititlies (or Tools)

1. Core Components — servers, services, modules; how they fit together. 

2. Workspaces — Solution Center Overview and Designer Workspace (can be siblings or a combined page). 

3. Runtime & Clients — SmartClient/Web, roles, where logic runs.

Platform UI Tools  Interaction

Image Removed

Platform Components

Our platform relies on the three components described below. It supports distributed architectures, which means that each one of these software components may be running on one computer, exchanging data with the modules on other computers.

Image Removed

All modules interact with the real-time database through a publish/subscribe model, ensuring consistent data access and efficient performance across the entire system.

Image Added

Deployment Models

FrameworX provides versatile deployment architectures tailored to your operational requirements, from standalone configurations to sophisticated distributed systems.

Depoloyment models

Our platform provides versatile deployment choices tailored to your operational requirements. Whether you require a straightforward standalone configuration with both server and client components on a single machine or a sophisticated distributed system optimized for slower networks, our platform seamlessly adjusts.

Our platform is adept at managing client and server systems, whether they are networked computers or accessed remotely via WAN or Cloud. Additionally, it facilitates distributed control systems across various plants for real-time monitoring and management. For mission-critical applications, you have the option to deploy redundant servers with automatic failover and data synchronization, ensuring continuous operation.

Deployment Architectures

Typical Deployment Scenarios

Our platform supports projects ranging from Edge applications on embedded devices to large-scale distributed applications.

This section covers some standard deployment architectures.

Stand-Alone System

In a Stand-Alone System, all components run on one machine, like a Windows desktop or industrial PC, serving as both server and client. It can also act as an Edge data collector for remote platforms.

Image Removed

ingle server with local or remote clients

Image Removed

Distributed Data Acquisition System

Typical Deployment Scenarios

Single Server

• Server handles all runtime functions

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

Redundant Server Configuration

• Primary and backup servers with heartbeat monitoring
• Automatic client reconnection on failover

Key Architectural Benefits

Next Steps

• Review Technology Foundation for development platform details
• Explore Product Editions to select appropriate licensing
• Continue to The Four Pillars for module architecture

In this section...

Image Removed

Redundant Systems

Image Removed

Redundant Server System

The Redundant Server System comprises two separate computers running the platform's servers, with redundancy managed automatically. Simply specify the IP addresses of the primary and secondary stations. Here are some common deployment scenarios:

• The Alarm and/or Historian database is hosted on a third machine dedicated to historical data.
• Both primary and secondary servers store historical data for the Alarm and/or Historian modules, with automatic data synchronization.
• Redundancy is implemented for the device module (PLC communication).

Image Removed

Redundant Server System With Centralized DB

Image Removed

Cloud and Hybrid

Image Removed

Security Zones - L1 to L4 (Concept)

Image Removed

1. Solutions Manager (Solution Management)

Our platform enables you to create industrial applications for any platform - you can run it on Windows, Linux, Mac, Routers and Universal Robots. This is the first interface you'll see when running the software and it showcases all the solution files you have. You can create, edit, manage and run solutions from here.

2. Designer (Solution Configuration)

The Designer Workspace allows you to edit solutions’ displays and tags, as well as modules such as Devices, Alarms, Scripts, Datasets and Historian.

3. Runtime (Solution Execution)

When you run your solution, the first UI you'll be presented with is the TStartup, which is responsible for loading everything the solution needs. This includes the TServer, which enables communications with databases, and the modules that will act behind the scenes to display the information the user sees. It will also open the User Interface, which can be either Windows or Web Clients.

1. one-page orientation + high-level diagram; link to pillars and key runtimes. 

Stand-Alone System

In a Stand-Alone System, all components run on one machine, like a Windows desktop or industrial PC, serving as both server and client. It can also act as an Edge data collector for remote platforms.

Image Removed

-----

Consolidation to do: