ANSYS Startup Program
The ANSYS Startup Program gives you full access to simulation software bundles that are built and priced to help entrepreneurs grow their business quickly and cost-effectively. We realize that in the early stages of starting a business there is often limited funding and little to no revenue. We created this program to help you grow your business to its full potential using the best tools possible — ANSYS simulation solutions — with a minimal initial investment. Many of the world’s greatest companies began as startups and ANSYS is committed to partnering with today’s startups to help them grow into tomorrow’s industry leaders.
As a partner in the Startup Program, you will gain instant access to ANSYS solutions so you can start building virtual prototypes of your new products. These virtual prototypes can be modified and tested with simulation hundreds of times in the same time it would take to build and test one physical prototype –saving you time and money as you work to perfect your product design. The partnership gives you access to our full portfolio of multiphysics simulation bundles, including the Structural and Fluids bundle, the Electromagnetics bundle and the Embedded Software bundle. Additional benefits include marketing opportunities with ANSYS and access to our Customer Portal for self-guided support, technical requests and more.
Regardless of whether you are an individual startup, an incubator working with a variety of startups, or another key participant in the ecosystem, find out below how ANSYS can benefit you.
Startup Program Spotlight
- Aerospace & Defense
- Additive Manufacturing
- Industrial & Machinery
- Materials & Chemical
- Consumer Goods
Zunum Aero manufactures commercial hybrid-to-electric aircraft that are powered by quiet range-optimized powertrain and propulsion technologies. It uses ANSYS simulation software to analyze propulsion components for structural integrity, fluid flow analysis, cooling system design and overall design optimization.View Case Study
Vector, a business startup, is addressing the small spacecraft market for launch vehicles. Because everything must shrink down when you are creating a nanosatellite launcher, engineers were challenged to scale everything while optimizing for a smaller class of payload. They leveraged ANSYS for all of the various fluid flows of the rocket engine including analysis of hot combustion gases in the engine as well as the various cold cryogenic liquids flowing into the engine to understand how they interact with the materials around them.Watch Video
Engineers at the Additive Rocket Corporation (ARC) are using ANSYS Mechanical and ANSYS CFD simulation solutions to reinvent rocket engines using 3D printing based on bioinspired geometries. ARC engineers use ANSYS simulation solutions to innovate complex designs quickly and cost-effectively to revolutionize and democratize spaceflight.Watch Video
Isotropic Systems has achieved a major technological breakthrough in the design of low-profile antennas. Using the Distributed Solve Option added to ANSYS HFSS, plus high-performance computing, the company can analyze larger and larger portions of its antenna system, run many more design simulations in parallel and reduce the individual node requirements and simulation time by more than two orders of magnitude.View Case Study
Autorient targets solutions for positioning and control of autonomous machines, robots and vehicles. Reducing the size and improving the performance of the measurement system are necessary to compete in this market. Read this case study to learn how modeling and simulation can provide a full understanding of the behavior and the mechanical, thermal and electrical properties of these systems.View Case Study
Wireless power applications are unique in terms of power budget, distance, form factor and environment. To create custom, high-performance antennas to serve these applications, Nikola Labs relies on ANSYS HFSS for full-wave simulation and automatic geometry meshing.View Case Study
Edisun, a business startup, leveraged software accessible through the ANSYS Startup Program to design and test their first product, PV Booster. PV Booster is the only dual-axis rooftop tracker for the commercial and industrial market providing 20% better economics on your installation by making more efficient use of solar panels. ANSYS software allowed Edisun to speed through design cycles, shorten their time to marked, and work very efficiently.Watch Video
Tessolar designs and builds molded structural mounting systems for solar arrays that are subject to variable loads from wind to snow. Read this case study to learn how they are leveraging ANSYS’ finite element analysis capabilities to rapidly and accurately assess more cost-effective design options.View Case Study
Rotor blades are causing big problems for wind power industry. They are expensive, heavy and made in one piece. Read this case study to learn how Winfoor used ANSYS simulation solutions to analyze a precise, optimized design to drive the wind industry and make it more competitive as an energy source.View Case Study
Bioana is dedicated to the design and development of medical technology. Before a medical device can be implanted in a patient, testing must be done to discover its life span of the device, the best choice of material for fabrication, the stresses it must withstand, etc. With simulation, several devices can be tested simultaneously and refined to create an optimized solution.View Case Study
HuMoTech engineers used ANSYS Mechanical to achieve a 25 percent weight reduction of the prosthesis end-effector, which allows their device to more accurately emulate a wider range of prosthetic devices. This reduces the design and testing time of prosthetic devices and results in a better fit, which improves the patient’s quality of life, while helping clinicians and researchers to be more effective.View Case Study
Read this case study to learn how CerebroScope® used ANSYS Electronics Desktop to develop a prototype of their CerebroPatch™, which can be used to detect these CSDs through the scalp so preventive measures can be taken to minimize the damage done by CSDs. Simulation reduced their design time by 75 percent compared to experimental methods, so they could start clinical trials sooner.View Case Study
Learn how VOLABO used multiphysics simulation software to develop the first 48 V high power traction drive, which is 25 percent more efficient than conventional electrical drives and does not need rare earth magnets for production. What makes the ISCAD drive unique is the virtual gearbox that enables the motor to continuously adapt to the load profile and thus make better use of the battery capacity.View Case Study
Auto Drive Solutions
Auto Drive Solutions is a startup company in Madrid, Spain, focused on disruptive radar positioning systems that are accurate to within 1 cm for railroad and automobile applications. They are using ANSYS SCADE to develop secure and accurate software that meets safety integrity level 4 (SIL 4) certification. SCADE is being used to handle software certification so they can focus on developing the best product with a high return on investment.Watch Video
Millimeter-wave (mm-wave) radar systems for automotive applications will be crucial to the success of autonomous vehicles by aiding in the detection and localization of pedestrians, vehicles changing lanes, and parking and braking events in complex traffic scenarios. Learn how Andar used ANSYS HFSS and other ANSYS solutions for electromagnetic full-wave simulation and circuit design analysis to design a mm-wave radar while saving money and getting to market faster.View Case Study
XTPL is developing and implementing tailor-made solutions in terms of nanoprinting and ultraprecise deposition for several sectors, mainly in the field of printed electronics. Using ANSYS Mechanical and ANSYS Fluent simulation solutions, they developed a model that helped them optimize the printing and material parameters, as well as the geometry of the printing nozzle, saving them time and money while improving their ultraprecise printing process.View Case Study
Safespill Systems produces a modular hollow aluminum floor system, with a perforated top surface, that contains spilled liquids and pumps them into designated containment. Using ANSYS Mechanical simulations enabled Safespill engineers to test multiple iterations computationally and ultimately develop a product capable of generating compression forces 75 percent greater than the initial design.
Thermoforming is an important polymer production process; the heating of the initial polymer sheet is essential for the quality, quantity and efficiency of the process. Read this case study to learn how watttron developed an innovative heating technology that allows inhomogeneous, precisely defined heating of surfaces on a very small scale. This innovation depends on a powerful algorithm that iteratively updates the temperature profile depending on the results of the thermoforming simulation using ANSYS solutions.
FDX produces OsciJet nozzles that emit a sweeping or pulsating jet stream of fluid without any moving parts to save resources by optimizing flow processes. Building and testing prototypes was a bottleneck in their design process, so they used ANSYS CFX and ANSYS Workbench to accelerate the process by a factor of 360, greatly improving their time-to-market.
American Boronite Corporation
American Boronite Corporation manufactures boron nitride nanotubes using a proprietary chemical vapor deposition (CVD) system. To understand the heat and mass transfer occurring during production within its CVD reactors, Boronite uses ANSYS computational fluid dynamics (CFD) simulation software to optimize the efficiency of its continuous production system.View Case Study
IRSI designs, operates and manufactures pyrolysis equipment that produces biochar from residual biomass. To optimize the pyrolysis system, the company uses ANSYS Fluent to simulate the thermal decomposition of the biomass under variable operating conditions.View Case Study
First Water is developing an innovative line of kayaks and canoes that convert to catamarans. Through the ANSYS Startup Program, they use engineering simulation software to optimize each boat model design within an acceptable timeframe and budget. Additionally, ANSYS tools are used to ensure that the boats meet key safety parameters and regulations.
The garment industry has typically lacked design innovation because there is no scientific basis for the design of most functional garments like cycling shorts and brassieres. Engineers at Veil Intimates used ANSYS Mechanical simulations to establish such a scientific basis by quantifying the stress concentration created by the underwire and regionally defining where support within a bra most substantially reduces stress and strain. ANSYS physics-based simulation design helps to ensure the comfort and support of functional garments.