Tire behavior assessment and modeling solution


  • Provides accurate modeling of tire-road interaction forces and moments
  • Aims for robustness, speed, and wide availability
  • Supports parameter assessment by both software and test facilities
  • Bases model development upon realistic tire testing
  • Supports real-time applications
  • Provides a wide range of DELFT-TYRE datasets


MF-Tyre 6.2 is the latest Delft-Tyre standard implementation of the Pacejka Magic Formula for describing tires. Using Delft-Tyre products, engineers have access to accurate and fast tire modeling tools that do not require high-level experience and knowledge about tire-road behavior.With MF-Tyre, engineers can simulate validated steady-state and transient behavior up to 8 Hz and analyze handling and control prototyping. The model describes pure cornering and braking as well as combined conditions. The extrapolation properties of MF-Tyre 6.2 make the model suitable for simulating conditions that go beyond the measurement conditions. 

MF-Swift is the high-frequency (100 Hz) extension to MF-Tyre. MF-Swift adds generic 3D obstacle enveloping and tire belt dynamics to MF-Tyre's tire-road contact force and moment simulation. Typical application areas for MF-Swift are vehicle ride comfort analysis; suspension vibration analysis; development of vehicle control systems, such as ABS or ESP; and handling and stability analysis, such as braking and power-off in a turn on an uneven road.

Delft-Tyre can help you obtain the right tire data sets for your simulations and can also create custom solutions to meet special requests (e.g., real-time application, integration with in-house simulation software, or porting to special platforms).

Download MF-Tyre 6.2 from the TASS International web site.

TASS International B.V.

Automotive Campus 10
Helmond, 5708 JZ
Tel: +31-888-277-100

Required Products


  • UNIX
  • Windows


  • Consulting
  • E-mail
  • Fax
  • On-site assistance
  • Telephone
  • Training

Product Type

  • Modeling and Simulation Tools


  • Control Systems
  • Data Analysis and Statistics
  • Real-Time Systems
  • System Modeling and Simulation
  • Vibration Analysis and Control


  • Automotive