Introduction
Simple – Powerful – User friendly
Our system architecture is designed and built from the ground up to support user-friendly access to the advanced functionality in our products.
At the heart of this system is our GUI, which collects all aspects of a simulation workflow in a user friendly interface. This provides access to the essentials, including the job and license managers, editor, pre- and post-processors, reports, user manuals and templates.
We have an advanced Lagrangian Finite Element solver. Coupled to our CFD, Surface SPH, Discrete Particle, VAA and Fragmentation tools, it is a powerful combination for any situation. Access to support is also directly available through the GUI, as well as access to our Impetus MARKET library of data assets. Our own bespoke QA system allows for verification and detailed documentation of all new releases.
Finally, thanks to GPU acceleration, the Impetus suite can be run efficiently on a regular stand-alone desktop computer.
Graphical User Interface
IMPETUS Solver includes a user-friendly graphical user interface (GUI) that streamlines the entire simulation workflow. From pre-processing to post-processing, job and project management to direct access to Impetus MARKET resources, the GUI provides a centralised hub for managing and executing simulations with ease.
License manager
Job manager
Editor
Templates
Reports
Manuals
Pre-processor
Post-processor
Computational modules
At its core, IMPETUS Solver utilises an explicit Lagrangian Finite Element solver. This powerful foundation is further enhanced by seamless integration with discrete particle (DP), smoothed particle hydrodynamics (SPH), and computational fluid dynamics (CFD) modules.
Additionally, IMPETUS Solver incorporates a comprehensive vulnerable area assessment tool, empowering users to pinpoint critical areas in their armour system. There is also an interactive fragmentation analysis tool.
FE Engine
Surface SPH
CFD Engine
Particles Engine
VAA Engine
Fragmentation tool
Verifier System
Our verifier system is a version control and validation tool. Models of all complexities, from unit tests to engineering structures undergo continuous evaluation against target results. Open reports accompany each new release, fostering transparency and accessibility.
Version control
HTML documentation
QA model database
Support and knowledge base
Our Help Portal serves as the central hub for all our support documentation. It contains a comprehensive knowledge base, with resources like installation guides, how-tos, video tutorials, FAQs, and demo models which assist our users in getting the most out of our products.
Support
Knowledge-base
Native cloud computing
Shielded by multiple firewalls and built upon a Remote Desktop Services (RDS) framework of Virtual Machines (VM), the Impetus CLOUD service provides access to scalable GPU resources from anywhere in the world. This enables our customers to access optimised high performance computing without the necessary hardware and maintenance investments.
GPU node based
Cloud collaboration
Optimised for Solver
Green energy
On-premises computing
Local installation allows for utilisation of existing in-house GPU resources. Integrate with in-house IT services and security policies.
Let an unlimited number of users within your organisation access compute servers both via Linux and Windows systems.
On-site hardware
GPU optimised
In-house security
MARKET Assets Library
Impetus MARKET is our online sharing platform and library of data assets. It hosts ‘objects’ which can consist of meshes, templates, commands, meta-data or calibrated materials which can be deployed in simulation projects.
Materials
Meshes
Explosives
Projectiles
Pre-license trial
Evaluate before you buy
Our engineers will help you select and calibrate appropriate project simulations to best determine whether Impetus Solver is the best fit for your needs.
Secure & scalable GPU resources
Our secure CLOUD service offers flexible access to scalable GPU processing from anywhere in the world. We are ISO 27001 certified.
Our solution provides high performance computing without the need for localised investment in hardware and maintenance.
