acslX is a modeling, execution, and analysis environment for continuous dynamic systems and processes. Simple to learn and easy to use, acslX provides an intuitive environment for users at all levels and is versatile and powerful enough to address the most challenging simulation problems.
Ready-to-use code blocks enable quick model assembly, while powerful analysis capabilities provide quick and accurate results. Industry-specific toolkits are tailored to the needs of each customer.
acslX improves your modeling and simulation productivity through efficient development, easy integration with existing applications and systems, and robust analysis features.
acslX is used by scientists and engineers in fields including drug discovery and development, toxicology, aerospace engineering, automotive design, and industrial process engineering to solve complex mathematical problems.
acslX continues the tradition of its predecessor, ACSL, which was one of the first commercially available modeling and simulation tools designed for simulating continuous systems. ACSL has been validated through more than 30 years of continuous use by the world’s most demanding simulation professionals.
The award-winning acslX environment provides integrated, end-to-end capabilities for model development, simulation execution, and results analysis. Models are specified using either familiar block diagram notation, or code-based descriptions using the CSL modeling language. By default, all model representations are translated into C or FORTRAN language source code for compilation and execution, ensuring the fastest possible performance and support for extremely large or complex models. Open application programming interfaces (APIs) are provided throughout the system to extend acslX functionality, allow the integration of custom or legacy code within acslX models, or to embed the generated simulation into end-user applications. Model code reuse is supported through easily creatable user-defined libraries of simulation blocks. acslX provides a powerful simulation control scripting language and mathematical analysis environment based on the popular M language for mathematical computing.