Alternatives to Tronis

Multiple sensors, including radar, cameras, LiDAR, and cameras, collect environmental data around the vehicle. Sensor fusion technology perception algorithms can detect in real-time the type, location and velocity of objects on the road using sensor fusion technology. This autonomous perception system is supported by both Baidu's deep learning and big data technologies. It also has access to a large collection of real-world labeled driving data. The large-scale deep-learning platform, GPU clusters. Simulating allows you to drive millions of kilometers every day using a variety of real-world traffic and autonomous driving data. Partner can access a large number autonomous driving scenes through the simulation service to quickly test, validate and optimize models in a safe and efficient manner.

From ADAS to self-driving systems for autonomous public transportation or goods delivery to consumer AVs, we have it all. We can achieve AV at scale by developing everything in-house - from the silicon to the self-driving systems. Mobileye developed its hardware and software in house from the start, paving the path for highly efficient hardware, algorithms, and software at a superior price-performance ratio. Mobileye's products are safe by design and have a distinct strategy to reach the mass market.

RTMaps is a component-based middleware for development and execution that is highly optimized. RTMaps allows developers to design complex real-time algorithms and systems for their autonomous applications, such as mobile robots and railways. RTMaps offers a variety of benefits to help you develop and execute an application. • Asynchronous data acquisition • Optimised performance • Synchronized recording and playback • Comprehensive component libraries: Over 600 I/O components available • Flexible algorithm development - Share and collaborate Multi-platform processing • Scalable and cross-platform: from PCs, embedded targets, to Cloud. • Rapid prototyping & testing • Integration with dSPACE Tools • Time and Resource Savings • Limiting development risks, errors and effort • Certification ISO26262 ASIL-B: on demand

NVIDIA DRIVE®, Map is a multi-modal map platform that enables the highest level of autonomy and safety. It combines ground truth mapping accuracy with fleet-sourced AI mapping to provide freshness and scale. Four layers of localization--camera lidar radar, radar, and GPS--DRIVEMap provides the flexibility and redundancy required by the most advanced AI drivers. DRIVE Map is engineered to achieve the highest accuracy. The ground truth map engine creates dynamic DRIVE Maps by using rich sensors such as radars, cameras, lidars and differential GNSS/IMU. It can achieve accuracy of 5 cm in select environments such as highways or urban environments. DRIVE Map is designed to operate in near real-time and provide global scalability. It is based on both fleet-sourced and ground truth data. It represents the collective memory for millions of vehicles.

We license AI software across the L2-L4 autonomous stack, including perception, intent modeling and path planning. Perception and intent prediction with the highest accuracy, leading to safer autonomous systems. Unsupervised learning allows for learning from large datasets. Our technologies are capital-efficient by several orders of magnitude, enabling a much lower cost of developing. Helm.ai's full scene vision-based segmentation combined with Ouster's Lidar SLAM output. Helm.ai L2+ autonomous driving across highways 280, 92, 101 and lane-keeping with ACC lane changes. Helm.ai pedestrian segmentation with key-point predictions. Pedestrian segmentation with keypoint detection. Corner cases for rain lane detection and Lidar-vision Fusion. Full scene semantic segmentation. Botts dots and faded lane markings.

The Aurora Driver, which is based on industry-leading hardware, software and firmware, can adapt to a variety vehicle types and use cases. This allows us to deliver the benefits and self-driving technology across many industries, including long-haul trucking and local goods delivery. The Aurora Driver is composed of sensors that see the world, software that plans safe routes through it, and a computer that powers and integrates them all with the vehicle. The Aurora Driver can operate any type of vehicle, from sedans to trucks up to Class 8. The Aurora Computer, which connects our hardware to autonomy software, allows the Aurora Driver seamless integration with all vehicle types. Our custom-designed sensor suite, which includes FirstLight Lidar and long-range imaging radars, creates a 3D representation that gives the Aurora Driver a 360@ view around what's going on around it.

Selenium, our flagship product, is a full-stack autonomous system. It was developed over 500 person years. A suite of software that can be installed on-board a vehicle, with a drive-by wire interface and very minimal compute hardware, gives full autonomy to a land-based car. Selenium can transform any vehicle platform into an autonomous vehicle at both prototype volume and scale. It's a collection interoperable software modules that allows the vehicle to answer three key questions: Where am I? What's happening around me? What should I do next? Selenium covers the entire technological spectrum. It includes low-level device drivers through calibration, 4-modal localization and mapping. It also has remarkable vertical integration that even covers data export and user interface. It doesn't even require GPS or HD-Maps, although this can still be used if they are available.

You will find a modular, open-source virtual driving simulator that allows you to test against a variety objectives and performance requirements. Ansys VRXPERIENCE Driving Simulator powered by SCANeR™ allows you to create scenarios, test software, and consider vehicle dynamics. It allows you to create a virtual driving environment for testing performance and analyzing the results. VRXPERIENCE Driving Simulator allows for an immersive, simulated test-drive experience in a realistic setting. You can conduct thorough safety assessments and drive millions of virtual kilometers in days. This will accelerate development by 1,000x when compared to road-testing. As passenger cars become more digitalized and autonomous, they will require advanced technologies such as sensors like cameras, radars and lidars as well as embedded software that supports automated control systems.

PRODRIVER is Embotech’s solution to the problem motion planning for highly-automated or autonomous vehicles. It is an integral part of the autonomous driving software stack. It is located in the so-called "decision making" layer. PRODRIVER, as a motion planner is responsible for generating drivable trajectories and directly actuator commands like steering, accelerating, and braking. These are calculated based on the environment information. PRODRIVER solves optimization problems in real-time by continuously making predictions. Its most important inputs include information about the drivable area, its obstacles and a goal. This could be a position or an object such as progress along a route. Its outputs can be used to direct control the vehicle, or to set-points for low-level controllers to track the vehicle. This diagram shows how PRODRIVER integrates into a typical autonomous vehicle software platform.

* An application platform for autonomous driving systems that recognizes the external environment through various collective information and autonomously drives based on appropriate judgement * Scalable distributed computing environment that supports many-core processors and other types of processors to support advanced computing power for intelligent information processing * Scalable platform that allows software assets can be run on different hardware resources with real time capability to ensure reliability safety

Software is what transforms a vehicle into a smart machine. Open source software stack NVIDIA DRIVE™, enables developers to quickly build and deploy a variety state-of the-art AV applications. This includes perception, localization, mapping, driver monitoring, planning and control, driver monitoring and natural language processing. DRIVE OS, the foundation of the DRIVE SoftwareStack, is the first secure operating system for accelerated computation. It includes NvMedia to process sensor input, NVIDIACUDA®, libraries for parallel computing implementations that are efficient, NVIDIA TensorRT™ for real time AI inference, as well as other tools and modules for accessing hardware engines. NVIDIA DriveWorks®, a SDK that provides middleware functions over DRIVE OS, is essential for autonomous vehicle development. These include the sensor abstraction layer (SAL), sensor plugins, data recorder and vehicle I/O support.

The world's leading provider of automated platforms. A customizable R&D vehicle platform will help you accelerate your work on advanced driver assist systems (ADAS), advanced algorithm design, and automated driving initiatives. It can also help you take your driverless efforts to a new level. This guide will show you how to create your own R&D vehicle platform. AutonomouStuff is part of your team when you buy a platform. An experienced and knowledgeable project manager will keep in touch with you to keep you informed about platform updates and ensure that we are meeting your needs.

Aptiv is a global technology company which develops safer, more sustainable and more connected solutions that enable the future mobility. Aptiv's mission is to develop and commercialize autonomous vehicles and systems. These systems enable point-to–point mobility through large fleets of autonomous cars in urban driving environments. Aptiv was founded by a group of talented individuals from all over the world, including Singaporeans and Bostonians. It is the first company to launch a commercial autonomous ride-hailing service in Las Vegas. Aptiv has provided more than 100,000 public passenger rides. 98% of Aptiv's self-driving experience was rated 5-out-of-5 stars by passengers. Aptiv believes that mobility solutions can change the world.

Cognata provides full product lifecycle simulations for ADAS developers and autonomous vehicle designers. Automatically-generated 3D environments and realistic AI-driven traffic agents for AV simulation. Automated vehicles available in scenario library and easy authoring to create millions AV edge cases. Closed-loop testing and seamless integration For autonomous simulation, you can create rules and visualize them. Measurable and tracked performance. Digital twin grade 3D environments for roads, buildings, or infrastructure. They are accurate to the last lane marking, traffic light, and surface material. An efficient, global, cost-effective and efficient architecture designed for the cloud. Just a few clicks and you can integrate with your CI/CD environment or close-loop simulation. Engineers can easily combine control, fusion and vehicle models using Cognata's scenario, environment, and sensor modeling capabilities.

It is essential to model light propagation and its effect in order to measure product performance, human comfort, perception, and safety. Ansys Optics simulates a system's optical performance, evaluates its final illumination effect, and predicts and validates the effects of lighting and material variations on appearance. All this is done in real-world conditions. To create the ultimate virtual customer experience, visualize your product before it is actually made. No matter what style of project you have, Ansys Optics and optical simulation software can help you find the best solution. The software solves complex optical problems quickly and improves visual appearance to increase perceived quality. You can significantly improve the quality of your final product by combining engineering and design processes into one, connected workflow. In a live, immersive environment, prepare and evaluate virtual prototypes of a cockpit HMI.

Analyzing your existing automotive or robotic software systems in order to determine a path to commercialization. Transitioning existing software to Apex.OS. Transitioning your current environment to Apex.OS. Software architecture reviews and recommendations. Functional safety training is provided to your team to help them build a safe autonomous system. Apex.OS is an open-source fork of ROS 2 which has been made reliable, deterministic, and real-time so it can be used in safety critical applications. Apex.OS was developed in sync to future ROS 2 releases. APIs remain compatible with ROS 2. Both Eclipse Cyclone DS™, and Eclipse iceoryx™ have been integrated to create Apex.OS. Both are open-source and have been proven in mission-critical and automotive distributed systems.

Forum8's interactive VR Design Studio* software is used by hundreds of research and urban planners as well as transportation authorities, vehicle manufacturers, and vehicle manufacturers on all four continents. It creates fully immersive, realistic models for the built environment. Interactive 3D VR Simulation and Modeling Software VR-Design Studio allows users to dynamically manipulate 3D space and run unlimited simulation scenarios. Users can also import and edit CAD data and build and texture models. Additionally, they can automatically add roads, tunnels, bridges, and other design options in real time, both online and off. The models can be viewed and interacted with by users. This allows them to analyze the potential environmental impacts of the proposed development.

RT-LAB is OPAL's real-time simulation program that combines performance and enhanced user experience. RT-LAB is fully integrated with MATLAB/Simulink® and allows for the most complex model-based design to interact with real-world environments. It allows for complex simulations in real-time, including those in aerospace, power electronics and power systems. RT-LAB was first applied on the Canada Arm of the Canadian Space Agency almost 20 years ago. It has revolutionized systems engineering in space, on ground, and at sea. RT-LAB allows engineers and scientists to quickly develop new prototypes and perform the most rigorous testing required for new technologies.

Momenta is a leader in autonomous driving technology. Momenta is committed to changing the future of mobility and offering solutions that enable multiple levels of autonomous driving. It has pioneered a unique scalable path toward full autonomous driving by combining a data-driven approach with iterating algorithms, referred to as its "flywheel approach", as well as a "two-leg" product strategy focusing on both Mpilot, its mass-production-ready highly autonomous driving solutions, and MSD (Momenta Self-Driving), its driving solution targeting full autonomy. Mpilot is a purpose-built, mass-produced ready highly automated driving software for private vehicles. Mpilot X is our core product. It provides a highly automated end-to-end driving experience, with full scenario coverage and key functions such as Mpilot Highway, Mpilot Urban, and Mpilot Parking.

WaveFarer, a high-fidelity simulator of radars, accounts for multipathing and scattering caused by structures and vehicles within the immediate environment. It also accounts for atmospheric and scattering effects at frequencies up to 100 GHz and beyond. Applications include simulations of automotive drive scenarios and indoor sensors. WaveFarer features allow for fast and accurate analysis in a simulation of scenarios where radars are in close proximity to targets, structures, and other features. WaveFarer supports all applications that are relevant to the analysis and simulation of a radar system. This includes evaluating the placement of radar sensors and target returns in a simulated driving scenario. This includes the analysis of target radar cross-section (RCS) as well as the impact of materials.

DriveMod is Cyngn’s full-stack autonomous driver solution. It can be integrated with existing sensing and computing hardware to allow industrial vehicles to perceive the environment, make decisions and take action. DriveMod is designed to seamlessly integrate into existing workflows, allowing you to program vehicle routes, loops and missions. DriveMod can do anything a human driver can do. Retrofits allow you to safely add autonomous capabilities to any commercially-available vehicle. Drivemod's flexibility allows heterogeneous fleets to operate seamlessly regardless of vehicle manufacturer or type. Our AI software is able to combine leading sensors and computing hardware to provide capabilities far beyond that of human drivers. DriveMod can detect thousands upon thousands of objects and propose thousands of possible paths to navigate the best route. All this in a fraction of a second.

We are working to develop safe and reliable autonomous driving technology worldwide. We have accumulated millions of miles in autonomous road testing in complicated scenarios and have a solid foundation to deliver autonomous driver systems at scale. Pony.ai launched Robotaxi service in December 2018. This allows passengers to hail self-driving vehicles via the PonyPilot+ app to begin a new, safe, and enjoyable journey. The service is currently available for use in Guangzhou and Beijing, Irvine, CA, Fremont, CA. We have piloted autonomous mobility in multiple cities in the US and China. This service is currently available to hundreds of riders every single day. These pilots have allowed us to establish a solid technical and operational foundation that will allow us to expand and improve our service. We have come together to address the most difficult tech issues in mobility. Every day, we make concrete progress towards our vision of autonomous mobility everywhere.

Safety Platform for Drivers and Fleets. Only AI technology that impacts driver behavior in real time. Preventing incidents before they occur will help to avoid accidents, reduce maintenance and repair costs, and reduce claims. AI-enabled real-time detection and incident reporting can help you minimize your risk of injury, liability, as well as processing costs. Driver Behavior Alerts can coach your entire fleet in real time. Nauto Manager-Led Coaching is a program that helps drivers prioritize their safety and guides them through the coaching process. Fleet collisions can be reduced by reducing distracted and drowsy driver behavior. Features that protect driver privacy and allow for transparency between fleet drivers and managers will encourage adoption.

Openpilot is an open-source software that improves upon the driver assistance system in all new cars. Tesla Autopilot functionality for your Toyota, Honda and other top brands. Openpilot is a camera-based driver monitoring system that works day and night to alert drivers when their eyes aren't on the road ahead.

DeepRoute.ai is committed to providing the best Level 4 full-stack, self-driving solution. We are committed innovating the future transportation system through the power and potential of technology. DeepRoute.ai works with OEMs and mobility companies to commercialize self-driving vehicles. DeepRoute.ai uses technological advances and commercialization to work with OEMs, mobility businesses, and other partners to make self driving more accessible to the public. DeepRoute.ai's planning algorithm and real-time positioning system can use semantic mapping to plan the best route under complicated road conditions and provide a safe, enjoyable, and efficient driving experience.

We collaborate to create smart solutions that enable clients to make the transition towards sustainable mobility and allow the automotive industry to move forward. We are rapidly moving towards a new automotive future, driven by the convergence IoT, AI, IoT and connected infrastructure. This is a thrilling time that offers the ultimate freedom with zero accidents and zero emissions, as well as zero ownership. This is a great opportunity for society, economy, and the environment. We allow automakers to innovate in vital areas of advanced mobility and automotive technology. We combine the agility, energy, speed, and speed of a startup with enterprise reach, positioning, and manpower to deliver complex solutions in critical environments. In the age of autonomous driving, we can meet your current and future software requirements. You can differentiate yourself with highly personalized and intelligent in vehicle experiences.

Hardware-in the-loop simulation can be trusted and cost-effective for testing actual equipment. It is ideal for testing complex equipment, such as automobiles, planes, missiles satellites, rockets, locomotives, and airplanes. Instead of testing on the road or with real-devices, testing is done in a virtual environment. The test environment is largely replaced by mathematical models so that components can be inserted in a closed loop. This allows for more reproducible, systematic, and faster tests, which are also more reliable. Simulation Workbench is a real-time modeling environment that runs on RedHawk Linux. It allows simultaneous hardware-in-the loop simulation solutions. SIMulation Workbench is a complete framework that allows you to create and execute hardware-in the-loop simulations in real time.

Computer Generated Forces (CGF), a powerful platform that can fill your synthetic environments with airspace, battlefield, maritime, or urban activity. VR-Engage allows users to play the role of a human character, a ground vehicle driver, gunner or commander, or as a pilot of a fixed-wing plane or helicopter. High-performance image generator with game-like visuals. For training and simulation projects, this product was designed by simulation and modeling experts. The physics of light in any wavelength can be represented by physically accurate sensors. Applications that allow you to model, simulate, visualize, or participate in multi-domain simulations of the whole earth. Multi-domain computer-generated forces. Multi-role virtual simulation. Image generator and battlefield visualization. EO, IR and NVG imaging sensors. Synthetic aperture radar simulation.

Hivemind is our AI pilot. It will allow swarms to operate autonomously, without GPS, communication, or a human pilot. Our mission is to provide intelligent systems that protect service members and civilians. More than preset behaviors and waypoints. Hivemind is a human-like pilot that reads the battlefield and reacts accordingly. It does not rely on GPS, waypoints or prior knowledge in order to make decisions. It is the only fully autonomous AI pilot to be deployed in combat since 2018. Hivemind™, from indoor building clearance using quadcopters, to integrated air defence breach with fixed-winged drones, to F-16 dogfights – it learns and executes missions autonomously. Hivemind will fly a new generation of aircraft to provide persistent aerial control across land, sea, and air.

Creator, which is natively based on OpenFlight 3D simulation models, is the original software to create optimized 3D models for your virtual environment. Creator is the industry standard software for creating optimized 3D models for virtual environments. Content creators are continually challenged to create more detailed models, better performance, and greater realism. Content creators have a wide range of tools to help them create models, modify or import existing models, and enhance objects for use with sensor-capable simulations. Creator gives you complete control over the modeling process and allows you to quickly create highly optimized, physically accurate 3D models. Creator allows you to create models faster and more precisely by allowing you to interact with your models at every level, from the database to the single vertex attribute.

MapleSim can be used to create digital twins for virtual commissioning and system-level models for complex engineering designs projects. It is an advanced modeling tool that allows you to reduce development time, lower costs, diagnose real-world performance issues, and reduce development time. You can eliminate vibrations using better control code and not hardware upgrades. With detailed simulation results, diagnose root-cause performance issues. Validate new designs before they are physically prototyped. MapleSim is an advanced system-level simulation and modeling tool that uses modern techniques to significantly reduce model development time, provide more insight into system behavior and produce high-fidelity simulations.

Machine learning and advanced analytics can be used to reduce operational risks and costs. Digital twins are an integral part of digital transformation. They can create a precise virtual replica of physical assets and objects to increase productivity, streamline operations, and increase profits. Digital Twin is a software representation or a system of physical assets, systems, or processes that can be used to detect, prevent and predict, optimize, and maximize business value through real-time analytics. GE Digital is focused on three core areas: Asset and Network. As a strategy to improve system performance, monitor, simulate, and control assets, processes, or networks. Reduce asset- and process-related incidents to protect employees' health and safety and avoid unplanned downtime.

EchoTech.ai is an autonomous platform leveraging it's novel CVAE Transformer model for controlling indoor and outdoor robots in highly dynamic environments. It fully integrates perception and planning into one AI stack that can be applied to any robotic setup.

Simufact Additive, a powerful and scalable solution for the simulations of metal-based additive manufacturing processes, is available. Simufact Additives can be used to optimize metal 3D printing and rapid prototyping. Simufact additive can help you significantly reduce the number test prints. We want to help you create AM components with repeatable dimensions. Simufact Additive's multiscale approach to simulation combines the best of both mechanical and thermal methods in one unique software solution. You can choose the simulation method that best suits your needs. Simufact Additive, a specialized software solution, is dedicated to the simulation and analysis of additive manufacturing processes. This is reflected in a lean operation concept for the user.

Monitor your vehicles easily Make your driver's commute easier. Optimize your fleet usage. Our team is available to help you. We can help you organize your vehicle fleet. We offer a full range of mobility solutions, including onboard telematics and online supervision platforms. It's never been easier to manage a mobility service. Unlimited mobility for your drivers. Innovative all-inclusive service. For corporate or P2P use.

NODAR has reinvented stereovision using patented algorithms to enable standard cameras deliver unprecedented 3D range and precision. NODAR's 3D vision technology is designed to push the boundaries of what's feasible in automotive and industrial applications. Reliable 3D data is essential for safety and performance, whether it's in passenger vehicles, autonomous trains or monitoring and surveillance. NODAR delivers industry-leading 3D data for autonomous systems in all industries. Autonomy transforms nearly every aspect in society. It boosts output, provides convenience, and enhances safety. Conditions can be difficult and harsh in many outdoor settings. Automated equipment is required to operate 24 hours per day, even in adverse weather conditions, dust, glare and high vibration. NODAR products and technology deliver unmatched data, precision and reliability for safety critical applications that rely on 3D data.

The future connected car experience is thin client applications and cloud frameworks that enable consumer commerce, in-car multimedia applications, mobile apps, enterprise services, and consumer commerce. Multi-media apps, AI-driven contextual recommendations and content delivery are all possible with the Xevo Journeyware platform. This platform is available for cloud, car, mobile devices. It also offers new monetization opportunities for automakers. The components of the Journeyware connected car platform can be found in more than 25,000,000 vehicles around the world. Xevo Context recommendation engine uses Journeyware's automotive AI technology. It provides a dynamic, hyper-contextual experience. These highly-relevant content are delivered as suggestions and offers based upon drivers' preferences, past behaviors, vehicle location, current route and more.

VPS-MICRO simulates the behavior of the materials used to predict the life expectancy of manufactured parts. VPS-MICRO is based on three inescapable truths. Durability is not solely a function applied stress. It is a combination of that stress as well as the material's reaction. Complex components and systems require a variety of materials. Computer cycles are faster and more affordable than prototyping or physical testing. VEXTEC's VPSMICRO®, a computational software, uses these ideas to help it calculate a material's response to stress, its variability, all its damage mechanisms, and its geometry. It also accounts for the conditions of its use over time. The simulation accurately and efficiently simulates the real world physics of damage and how it occurs.

Virtual product development in a unified CAE environment. GMTO's team is using MSC Apex for the giant telescope to withstand earthquakes in Chile and to help humanity understand the universe. Engineers call it addictive because it allows you to have fun and interact with the environment. MSC Apex structures provides a user interface that allows for scenario definition, results post-processing, and integrated solver methods. This solution is unique because it combines computational parts assembly technology with a generative framework. This allows for interactive and incremental analysis. The user can interactively and incrementally verify that FEM models have been solved using the integrated user interface and solver methods. A series of solver checks may be run against individual parts or assemblies. The model diagnostics can then be reported to the Analysis Readiness panel.

Combining visual paradigm and code generation makes it easier than ever to create new models, define bespoke behavior, assign plans to specific entities, and create all kinds of scenarios, from the simplest test-bed to the most complicated distributed trainer. vsTASKER is capable of displaying, animating, and visualizing any size or complexity of scenarios. Simulator creation is simple thanks to the graphical paradigm and automatic C++ codes generation. vsTASKER is not limited to any one field. vsTASKER offers unprecedented tools to customize your synthetic environment. This includes everything from a simple 2D map to the most complicated 3D game-like environment. Once you understand the concepts, it is easy to test a scenario or create a system.

There are increasing numbers of variants, with a tendency to have fewer product life cycles and lower cost. Digital twins are essential in many areas of digitization. ISG Industrielle Steuerungstechnik GmbH is a company that has years of experience in creating simulation solutions that offer significant competitive advantages to customers in the fields of mechanical and plant engineering. The new generation ISG virtuos 3 makes the simulation platform a solution for manufacturing automation as well as intralogistics. ISG-virtuos allows you to simulate complete production systems, including all components (controls and robots, material flow, etc.). It is open to all companies. can be optimized and checked in deterministic real-time. Simulations are made from virtual components that can be reused or exchanged at any moment.

Virtually test drive your business processes. Process simulation allows you to take processes for a spin and identify potential roadblocks. Cutting-edge process mapping and simulation software that is designed to help organizations with process improvement, increase efficiency, and reduce waste. Ability to simulate real-world scenarios and provide insights into the performance and bottlenecks of processes. Powerful analytics and reporting capabilities allow tracking and monitoring the performance of processes over time.

MASTA is a comprehensive suite of CAE software that allows you to design, simulate and analyze driveline systems from conception through to manufacturing. MASTA allows you to quickly and accurately design transmission systems from scratch, or import concepts. Completely understand the life cycle of a mechanical component over the customer's duty cycle. Identify potential failure points early in product development. Rapidly predict key performance characteristics during the design stage. You can easily explore changes in transmission layout, components selection, and/or design, as well as manufacturing processes, in a virtual environment. You can run full system simulations of any transmission or driveline configuration. To reduce development time and cost, incorporate manufacturing simulation into the design phase. MASTA's unique, modern architecture is written in C# and makes it a much more stable alternative to current and future operating system solutions.

Integrated engineering workflows are essential to bring products to market faster and maintain high quality while minimizing changeover and start-up time. SIMIT Simulation Platform allows automation applications to be tested and provides operators with a realistic training environment - even before plant startup. SIMIT allows for process optimization and knowledge retention, which leads to a shorter time-to-market and reduced commissioning times. You will see greater efficiency throughout the life cycle of your manufacturing and process plant. SIMIT allows for comprehensive testing of automation projects and virtual commissioning of machines, systems, and processes from a single platform. Simulator platforms also provide realistic training environments for operating personnel.

ProModel is a discrete event simulation technology that can be used to plan, design, and improve existing manufacturing, logistics, and other operational systems. It allows you to accurately model real-world processes including their inherent variability, interdependencies, and potential changes. Optimize your system to meet your key performance indicators. From CAD files, process or values stream maps or Process Simulator models, create a dynamic, animated computer model that represents your business environment. You can clearly see and understand the current policies and processes in action. Use the model to brainstorm possible changes and to create scenarios to test them. You can run different scenarios and compare the results in the Output Viewer, which is built with the latest Microsoft®, WPF technology.

ProModel is a discrete event simulation technology that can be used to plan, design, and improve existing manufacturing, logistics, and other operational systems. It allows you to accurately model real-world processes including their inherent variability, interdependencies, and potential changes. Optimize your system to meet your key performance indicators. From CAD files, process or values stream maps or Process Simulator models, create a dynamic, animated computer model that represents your business environment. You can clearly see and understand the current policies and processes in action. Use the model to brainstorm possible changes and to create scenarios to test them. You can run different scenarios and compare the results in the Output Viewer, which is built with the latest Microsoft®, WPF technology.

Learn how to scale a simulation across multiple instances without having to manage them. AWS SimSpaceWeaver makes it easy to build and run large spatial simulations on the cloud. AWS will manage the scale and the complexity so that you can focus on what you do best: building. With massive, city-scale simulations, you can visualize immersive environments and understand possible real-world outcomes. SimSpace Weaver allows you to increase the complexity and number of objects within your simulations. Avoid the time-consuming challenges of data management, replication and time synchronization between servers. Integrate seamlessly with popular simulation engines and development tools, such as Unreal and Unity. Create millions of dynamic entities in virtual environments that reflect the real world. Simulate traffic patterns, public transport networks, or supply chains infrastructure for entire cities and countries.

Simcenter STAR -CCM+ is a multiphysics fluid dynamics (CFD), software that simulates products under real-world conditions. Simcenter STAR–CCM+ is a unique CFD simulation toolkit that allows for automated design exploration and optimization. This integrated environment contains everything you need, including CAD, automated meshing and multiphysics CFD. It also includes sophisticated postprocessing and design exploration. Engineers can efficiently explore the entire design space and make better design decisions quicker. Simcenter STAR -CCM+ provides additional insight that can be used to guide your design process, resulting in more innovative products that meet customer expectations.

HAULSIM connects fleet assets, mining operations plans and people to create a 'digital twin of any mining operation - underground or open pit - that accurately represents any mine site haulage operations. HAULSIM, which has a 3-D Discrete Event Simulation engine (DES) at its core, is the only mining simulator software that can quantify changes as the models reflect all aspects of a mine site, including variability, interactions, and dependencies. Real data can be used to make decisions about a mine haulage system. This allows the user to test multiple 'whys' and 'what if' scenarios in order to reduce operating costs, optimise performance, and ensure operational safety and efficiency.

Simcad Pro allows you to visualize, analyze, and optimize process flow systems within an interactive simulation modeling environment. Optimize, plan, optimize, and reorganize processes and procedures, while optimizing layouts, automation, scheduling, and facility improvement. Simcad Pro integrates historical and live data to offer the best simulation tool on the marketplace. Multiple industries can use these applications, including manufacturing, automation and logistics, distribution warehouse, food & beverage, and services. Multi-Threaded – 64 bit Engine Simulator-on-the-fly - You can make real-time modifications to the model as the simulation is running. You can animated the model in 3D, 2D, and VR using Ray Tracing, light effects, and shadows. Singular model building environment. Smart, Spatially Aware Agents. Sub-Flows. Collision Avoidance. Real-Time Connectivity. Spaghetti Diagrams and Congestion Analysis, Heat Maps Efficiency, OEE. Extensive reporting and analysis tools. Scenario Analyzer.