Use Products and Blocks Supported for Code Generation
As you construct a model, to prevent issues later in the development process and potential rework, determine whether the code generator supports products and blocks that you want to use.
Related Products
The following table summarizes MathWorks® products that extend and complement Simulink®
Coder™
software. For information about these products and how they support
code generation, see the product-specific documentation at www.mathworks.com
.
Product | Examples of Code Generation Applications |
---|---|
Aerospace Blockset™ | Aircraft, spacecraft, rocket, propulsion systems, and unmanned airborne vehicles |
Audio Toolbox™ | Audio processing systems |
Automated Driving Toolbox™ | Designing, simulating, and testing ADAS and autonomous driving systems |
AUTOSAR Blockset | Modeling and simulation of AUTOSAR Classic and Adaptive ECU software |
Communications Toolbox™ | Physical layer of communication systems |
Computer Vision Toolbox™ | Video processing, image processing, and computer vision systems |
Control System Toolbox™ | Linear control systems |
DSP System Toolbox™ | Signal processing systems |
Embedded Coder® | Embedded systems, rapid prototyping boards, and microprocessors in mass production |
Fixed-Point Designer™ | Fixed-point systems |
Fuzzy Logic Toolbox™ | System designs based on fuzzy logic |
HDL Verifier™ | Direct programming interface (DPI) component and transaction-level model (TLM) generation from Simulink |
IEC Certification Kit | ISO 26262 and IEC 61508 certification |
Model-Based Calibration Toolbox™ | Developing processes for systematically identifying optimal balance of engine performance, emissions, and fuel economy, and reusing statistical models for control design, hardware-in-the-loop (HIL) testing, or powertrain simulation |
Model Predictive Control Toolbox™ | Model predictive controllers |
Deep Learning Toolbox™ | Neural networks |
Parallel Computing Toolbox™ | Parallel builds for large Simulink models |
Phased Array System Toolbox™ | Sensor array systems in radar, sonar, wireless communications, and medical imaging applications |
Polyspace® Bug Finder™ | MISRA-C compliance and static analysis of generated code |
Polyspace Code Prover™ | Formal analysis of generated code |
Powertrain Blockset™ | Real-time testing of powertrain applications |
RF Blockset™ | Design, simulate, and analyze radio frequency (RF) systems |
Robotics System Toolbox™ | Design, simulate, and test robotics applications |
ROS Toolbox | Design, simulate, and deploy ROS-based applications |
Simscape™ | Systems spanning mechanical, electrical, hydraulic, and other physical domains as physical networks |
Simscape Driveline™ | Driveline (drivetrain) systems |
Simscape Electrical™ | Electronic, electromechanical, and electrical power systems |
Simscape Fluids™ | Hydraulic power and control systems |
Simscape Multibody™ | Three-dimensional mechanical systems |
Simulink 3D Animation™ | Systems with 3D visualizations |
Simulink Check™ | Model standards compliance checking and metrics |
Simulink Code Inspector™ | Automated reviews of generated code |
Simulink Control Design™ | Autotuning of PID controllers and online frequency response estimation |
Simulink Coverage™ | Model and code structural coverage analysis |
Simulink Design Optimization™ | Tuning adaptive lookup tables and checking signal characteristics |
Simulink Desktop Real-Time™ | Rapid prototyping or hardware-in-the-loop (HIL) simulation of control system and signal processing algorithms |
Simulink Real-Time™ | Rapid control prototyping, hardware-in-the-loop (HIL) simulation, and other real-time testing applications |
Simulink Report Generator™ | Automatically generating project documentation in a standard format |
Requirements Toolbox™ | Authoring and tracing requirements to design and code |
Simulink Test™ | Software-in-the-loop (SIL), processor-in-the-loop (PIL), and real-time hardware-in-the-loop (HIL) testing of generated code |
SoC Blockset™ | Designing, evaluating, and implementing SoC hardware and software architectures |
Stateflow® | State machines and flow charts |
System Identification Toolbox™ | Systems identified from measured input-output data |
Vehicle Dynamics Blockset™ | Modeling and simulation of vehicle dynamics in 3D environment |
Vehicle Network Toolbox™ | CAN blocks for Accelerator and Rapid Accelerator simulations and code deployment on Windows® |
Blocks Supported for Code Generation
You can generate efficient code for a subset of Simulink built-in blocks and product-specific blockset blocks. The following tables list these blocks. In the tables, an information icon before the name of a block indicates that specific usage notes or limitations apply to code generation for that block. To view the usage notes and limitations, in the corresponding reference page, scroll down to the Extended Capabilities section at the bottom of the page and expand the C/C++ Code Generation section.
Simulink also provides a web page that summarizes characteristics of Simulink built-in blocks. The content, which is sourced from the Simulink block library, identifies blocks that are not recommended for production code
generation and gives other usage guidelines. To view the page, in the MATLAB® Command Window, type showblockdatatypetable
.
For detailed information about a block, see the block reference page.
For modeling guidelines regarding blocks, see Modeling Guidelines for Blocks.
Block Set Support for Code Generation
Several products that include blocks are available for you to consider for code generation. However, before using the blocks for one of these products, consult the documentation for that product to confirm which blocks support code generation.