Altair Embed®

Visual Environment for Embedded System Development

Embed is a powerful tool for nonlinear simulation and model-based firmware development. With Embed, you design, analyze, and simulate using block diagrams and state charts. You can then automatically generate compact and optimized firmware to run on an extensive selection of microcontrollers.

Offering deep support for the most popular on-chip peripherals and libraries for electric motor control, digital power design, analog/digital communications, and image and video processing, Embed lowers development costs by removing the need for manual coding which reduces errors and speeds the edit debug cycle with easy to use Hardware-in-the-Loop (HIL) capability.

Why Embed?

Prebuilt e-Drive Diagrams

Field-oriented Control (FOC) motor drive diagrams let you quickly spin your motor PMSM, ACI or Synchronous Reluctance motor on your inverter.

Highly Efficient Code

The auto-generated code runs rapidly and produces high-quality results with no need to hand-code in order to speed up the execution of your code.

Test and Verify Embedded Systems

Simulate controller and plant to easily tune your control off-line, then use integrated Hardware-in-the-Loop (HIL) to debug and tune your control on the embedded target.

Key Features

Tailored for Embedded System Development

Generate efficient and compact ANSI C code for dynamic systems involving scaled, fixed-point operations. Tune parameters and monitor real-time data.

Block Diagrams and State Diagrams

Simulate dynamic systems including continuous or discrete-time behaviors as well as event-based behaviors.

Diagram-to-code

No manual coding required. Automatically convert your block diagrams and state diagrams to microcontroller unit (MCU) hardware-ready code.

Support for Popular Target MCU Hardware

Includes support for a broad range of microcontrollers and processors suited for most industrial and academic applications.

Interactive HIL Testing

Run a plant model in Embed on the host computer while controlling algorithm runs in real-time on the target MCU, communicating via a HOTLink.

Add-ons for Digital Power and Communications

Simulate and generate code for power supply and digital power components and controls. Model end-to-end analog, digital, and mixed-mode communication systems.

Key Capabilities

Rapid Diagram-to-Code

 

Connecting to Controller Hardware (Arduino, etc.)

 

Construct State Diagrams

 

Drone DC Motor Control HIL

 

PMSM Sensorless Field Oriented Control HIL