Engee

Technical computing and dynamic modeling platform for engineers

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Integrated engineering platform for research, simulation, verification, and testing of technical systems using math and model-based design

A cloud-based client–server architecture enables rapid deployment within critical enterprise IT environments, provides a unified data repository, and supports efficient project and collaboration management.

Used for mathematics, machine learning, AI, control design, digital signal processing, physical modeling, embedded systems development.

Detailed documentation and professional support. Ready-made examples and training courses.

Integrated environment for technical computing and dynamic modeling using block diagrams.

About the product

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Applications

Engineering research

Control systems

Digital signal processing systems

Aerospace

Wireless communications

Energy production

Artificial intelligence

Navigation systems

Embedded code generator

Aerospace Systems

Custom C\Julia\Fortan code import

State machines

Digital Control Systems

Physical models

Live Scripts for Engineering

Dynamic modeling

IDE for Technical Computing

Interactive computing and development environment

Technical computing

Engee technical computing features

Multi-language IDE for engineering scripts, code and applications — designed for fast and efficient technical problem-solving. Engee runs instantly in your browser: no installation, no setup — it is fully ready out of the box.

Unique system objects and proprietary function libraries for specialized tasks

Low-code apps for engineers

High computational performance

Dozens of preinstalled
libraries

Multi-language support: Julia, Python, MATLAB, Fortran, C/C++

Visualization and scientific graphics

Live interactive scripts

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Dynamic modeling

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The environment combines a modern model editor, powerful debugging capabilities, and a rich set of engineering-focused blocks to support a wide range of technical applications. Continuous testing and verification ensure system reliability at every stage of development.

Engee is a platform for model-based design of complex technical systems. It allows engineers to design, simulate, and validate systems using intuitive graphical block diagrams — reducing risk early, before hardware is built.
From concept to deployment, Engee streamlines the entire development process. Engineers can verify system behavior, iterate quickly, and generate production-ready code automatically — eliminating manual implementation steps.

Engee is powered by a proprietary mathematical core that enables hybrid dynamics, multirate behavior, algorithms, physical models, and user-defined components to coexist within a single model. It eliminates fragmentation while providing a consistent and extensible framework through custom blocks and reusable libraries.

CONTINUOUS MODELS

STATE MACHINES

DISCRETE MODELS

PHYSICAL MODELS

MODELS

Tools for designing and debugging control systems of any complexity in continuous time, using intuitive system-level modeling.

Includes:

Block libraries for aerospace and automatic control systems
System dynamics modeling
Environmental and plant models
Conversion of existing Simulink® models

Core capabilities for developing digital systems, including vectorized modeling, mixed-signal design, and support for multiple sampling rates within a single model.

Includes libraries for:

Digital control and DSP
Communications systems
Radar and RF components
LTE and 5G applications

A powerful tool for designing control logic using intuitive state diagrams. It provides a clear graphical representation of system states and transition logic, making complex behavior easy to design, understand, and maintain.

Ideal for:

Control logic implementation
Failure detection and handling
System mode management

Motors and Drives

Magnetism

Gas

Hydraulics

Mechanics

Power Systems

Electrics

Thermal Engineering

Engee offers a comprehensive set of acausal, physics-based libraries for rapid development of high-fidelity system models. It reduces the complexity of equation-based modeling while enabling faster and more reliable design.

A dedicated physical modeling language allows creation of custom components, extending the platform beyond standard libraries to meet specific engineering needs.

Physical models

Connect your familiar tools, libraries, environments, and hardware. Engee fits seamlessly into your engineering ecosystem — allowing you to develop, model, test, and deploy without leaving the tools you already use.

Engee. Integrations

The Engee code generator produces fast, compact, human-readable, and portable C code that is fully independent of Engee. The generated code is traceable back to the model and suitable for industrial-grade deployment.

Apply the generated code in any external IDE to build executable object files for embedded processors, whether floating-point or fixed-point.

Integrate the generated code with manually written modules — existing codebases or processor-specific implementations — to develop user applications or to interface with other engineering tools.

Development boards support

Microprocessors support

Embedded code generation

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Seamless integration with RITM target computers allows you to create, control, and instrument real-time applications from Engee models and run them on RITM.

RITM systems support connection of external devices via various digital and analog interfaces, multi-channel data capture and are ideal for rapidly prototyping control designs and thoroughly testing embedded controllers with digital twins.

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Real-time simulation and testing