• Design and simulate fixed-point systems using Fixed-Point Designer™.
    Using Fixed-Point Designer, you can convert your ideal double-precision floating-point design to an embedded efficient fixed-point design for your target microprocessor or FPGA hardware.
    This video highlights the workflow and some of the key features in the Fixed-Point Designer that can help you iterate over different fixed point data type word length proposals in order to analyze,...
    Learn best practices for converting your designs to single precision or fixed point and see a demonstration of a design and implementation workflow using a simple laser detection example.
    Discover the key features in the Fixed-Point Tool that can help you explore and visualize the effect of certain data type proposal on the behavior of the signals in your model.
  • The Fixed-Point Tool in Fixed-Point Designer™ can collect range data either by performing simulation and logging range information or by derived range analysis.
  • Propose data types for bus objects, enabling fixed-point analysis of large-scale models using Fixed-Point Designer™. Enable automatic data type override (DTO) for models that contain bus objects...
  • Explore fixed-point models and use automated logging and scaling tools to refine the fixed-point data types for more optimized results.
  • Convert a floating-point model into a fixed-point model and obtain an initial scaling for the fixed-point data types.
  • Collect and display simulation ranges for variables inside a MATLAB ® Function block using the Fixed-Point Tool. Use this simulation range analysis to propose data types for the variables based on...
  • Use Simulink Coder ® to generate C code from fixed-point models.
  • Use division to perform parameter optimization for fixed-point net slope computation with Fixed-Point Designer™.