Systems Modeling, Analysis, Simulation and Validation
Modeling and simulating complete virtual prototypes
Perfecting the science of systems simulation
As product complexity grows, so does the challenge of integrating individual components within a system to ensure they work together as expected. Systems modeling, simulation and validation allow you to create a complete digital prototype to understand and optimize the critical interactions between physics, controls and the environment throughout the product development process. And, by combining systems modeling with sensors and big data, you can develop a digital twin to manage your product’s performance and maintenance after it has been deployed.
3D physics, embedded software and systems simulation
With Ansys solutions for systems, you can build complete systems and digital twins. We offer the most advanced technologies for 3D physics simulation, embedded systems and software design. You can also assemble these different components into complete digital twins of software-controlled, multidomain systems that can be used throughout the whole product lifecycle — from the initial concept to product operation.
Assess software, electronics and hardware designs together
For intelligent devices, the combination of software, electronics and hardware design challenges significantly increases the complexity of the product architecture and expands the scope of the engineering design. Intelligent, interconnected products have thousands of unique requirements that are served by a multiplicity of components, each with thousands of design parameters and interfaces that must be engineered, verified and validated.
Validate and optimize product design, operations and service
Systems simulation informs design choices, provides insight and validates systems-level characteristics, function, behavior and performance. It goes beyond the design of individual parts and accurately captures the effects of interactions between these parts. Systems simulation also extends through testing and into the product operation phase to allow for predictive maintenance and optimal management of complex and expensive assets.
Virtual Systems Prototyping
ANSYS delivers a comprehensive design methodology for simulating complex products with electrical, electronic, thermo-fluid, mechanical and embedded software components. From the Internet of Things to automotive and avionic systems, ANSYS software enables you to assemble and simulate complete system models. The methodology offers 3-D precision and reduced-order modeling for verifying multidomain system performance.
A digital twin is a real-time, virtual copy of an actual operating machine that provides insight into individual product performance and maintenance. Sensors on the machine relay data — temperature, pressure, flow rate, voltage, loading, etc. — to the digital twin, and the twin evolves in step with the machines working environment. The digital twin can predict conditions long before they happen, so you can take corrective actions during scheduled downtime, rather than making an untimely shutdown. You can also use the collected data to improve the design of next-generation products.
Autonomous Vehicles and ADAS
ADAS and autonomous vehicle are technologies without precedent in the automotive industry. Companies need to solve a multitude of new, complex engineering challenges to develop these systems. Moreover, the electronics and embedded system and software in these technologies drastically increase the complexity of a vehicle, and vehicle makers struggle to manage the resulting safety and reliability issues. Vehicle makers and suppliers must deal with five challenges in developing these systems, and ANSYS provides solutions to all.
Optimizing complex mechatronic systems such as electric drives requires in-depth analysis, expertise and rigorous methodology. ANSYS gives you powerful tools such as ANSYS Simplorer for simulating components individually and as part of a complex, integrated system.
Power Electronic Systems
Power electronic systems are complex applications that present a variety of development challenges in the design of industrial drives, power supplies, energy production equipment, consumer goods and more.
Battery Management Systems
In addition to performance, safety and cost considerations associated with the electrification of automobiles, aircraft and industrial equipment, battery capacity (mileage, charge time and operational lifespan) must be factored into all design equations.
Functional Safety Analysis
The analysis and verification of functional safety for electronic control systems in industries like automotive, aerospace and defense, rail, nuclear, etc., are critical to system design and implementation.
Safety of The Intended Functionality
The analysis and verification of safety of the intended functionality (SOTIF) are critical for modeling the limitations and weaknesses of system components and environmental conditions that could trigger unwanted behaviors.
Systems Simulation Platform
Ansys Twin Builder is a powerful platform for modeling, simulating and analyzing virtual systems prototypes. It enables product development teams to verify and optimize performance of their software-controlled, multidomain systems designs.
Ansys medini analyze implements key safety analysis methods (HAZOP, FTA, FMEA, FMEDA, CMA) in one integrated tool. It supports the efficient and consistent execution of the safety-related activities that are required by applicable safety standards.
medini analyze for Cybersecurity
Ansys medini analyze for Cybersecurity implements key security analysis methods (TOE modelling, TARA, attack trees, etc.) in one integrated tool. It supports the efficient and consistent execution of security-related activities that are described in applicable standards and security guidelines.
VRXPERIENCE is a real-time and interactive platform to create, test and experience your product or system in real-world conditions, virtually.