CORE by UNITED GRINDING Group awarded a “Special Mention” at the UX Design Awards 2022

The medical world has seen many technological advances in the last decades. They constantly pushed the boundaries of learning and improvement.

Generative design software is one such advancement. It has been a revolutionary boon in various fields such as engineering, design, architecture, etc.

It has also been widely used in the medical field – with outstanding results. If you are considering including generative design software in your medical practice, this position is for you.

Read on to learn about the many benefits of generative design software and how it can help you transform medical procedures and devices.

Generative Design Software: The Tool that Eases the Medical Device Design Process

Generative design software can be defined as engineering software that allows you to partner with artificial intelligence to create better designs. In this process, you and the AI ​​algorithms create and evaluate many designs so that a single product idea lands on the one that suits it best.

The idea is to create better designs in less time. These designs are prepared for maximum optimization after considering every eventuality. You can achieve this with a host of tools that drive operations, optimization, and workflows.

nTopology’s generative design software is one of the leading software when it comes to designing medical devices and equipment. Here’s everything you need to know about how you can transform your medical practice with generative design software.

1. Generative design software versus other tools
Perhaps the first thing to do when choosing a method is to determine that it should be preferred over others. The world of treatment and medical practice is nothing if not constantly changing.

New breakthroughs are made that completely change the way we do things, better benefiting patients and healing them more holistically. Generative design is in the league of those developments that completely change the way we do things.

Creating medical devices using this software is simply a better approach than traditional tools in terms of the money, time and effort you put into it. You can explore hundreds of potential designs, evaluating them extensively before landing on this one. which suits you best.

This saves you hours of testing different formulations to decide which is best. You don’t even need to upgrade the devices because you can already choose the best design for the current technology, i.e. the most optimized design.

2. Ease of operations
When we talk about the ease of use that comes with generative design, we mean both the ease of use of said software and the overall ease of process it brings to your medical practice. First, let’s talk about using the software – it can be well integrated with your existing system to be used in tandem with it.

You don’t have to model your existing system on software. In fact, menus can be configured according to context – manually or automatically. In addition, the software will synchronize with your system.

You can also integrate its results into your workflow. Ultimately, it allows you to work faster and more efficiently. Since you don’t have to adapt to anything new, you can simply move your work to the software and continue working there, this time with a much better approach.

It offers you an optimized working structure with increased testing speed. You can potentially test hundreds of designs for a single product without wasting resources to see its functionality.

3. Innovation
With this software, you don’t just design parts for your medical equipment, you design complete processes. This is where the innovation lies because you can take full control of your workflows and oversee the entire process.

Generative design software coupled with AI empowers your capabilities as a medical device engineer. It allows you to design better, test more options, and eventually innovate in your field. With accelerated development cycles, you’ll take advantage of manufacturing technologies.

The output you receive this way can be represented as an aid to additive manufacturing or integrated into downstream processes. Both offer distinctive benefits, depending on the path you want to take with your process.

Once you have set your goals and objectives, you can just let the software take over. Designs will be created and optimized for your needs. You don’t need to do the manual labor like you did in the established practices.

4. Data-driven optimization
If we were to break down the approach of generative design software, we would see that the software relies on the traditional design approach. It applies computing power and optimization techniques to concoct a sustainable design.

It then tests it thoroughly to optimize it to ensure that you have nothing but the best wording for your reading. This approach builds much more solid and infallible medical devices.

As a manufacturer of medical equipment, you should strive to create tools that are safe and robust while providing ease of use. The software allows you to create such devices with maximum optimization.

It is backed by data and results, leaving no room for error. Additionally, the software can work in tandem with additive technology if you use it. Otherwise, the software will work just as well with traditional technology.

In other words, you don’t have to upgrade the way you manufacture your devices to match cutting-edge software technology. The software itself will adapt to the way you operate. As mentioned earlier, it can also be seen in the results and operations menu.

5. Tools for every action plan
Generative design software offers a wealth of tools that facilitate and enable every type of operation you perform. You get a plethora of calculation tools. They analyze and generate requirements and constraints that match the requirement you defined in advance.

Likewise, you get optimal design workflows for lattice operations and best-in-class optimization. They plot the best route to follow based on historical and current data, leaving the hard work to you.

This is better because previously you had to manually calculate all possible routes for the most suitable design patterns. Such work would prevent you from analyzing all possible solutions. You could only test the calculations of a handful of alternatives.

With this software, not only can you calculate a number of options, but you can also create your own algorithms. This helps you automate and optimize the best process for your designs. You can collaborate your own formulations with external designs to truly innovate.

6. Serves Multiple Purposes
One of the most unique features of such software is its ability to fulfill multiple purposes at the same time. It takes into account the specifications you put in each aspect. This includes stress, weight, temperature and frequency specifications.

It also takes into account the overall objective that needs to be achieved. Not only that, it ensures that you are meeting the guidelines and not exceeding them. In other words, it takes into consideration what you want to accomplish against regulatory restrictions.

Therefore, it concocts formulations that serve the purpose you have set for yourself while also adhering to industry standards. This gives you true optimization without spending a lot of time and effort on various tests.

Your goals can be as specific or as vague as you want. Suppose you don’t have a weight spec and are willing to experiment. In such a case, you can simply set all other goals and the weight will be calculated based on the best optimization.

7. Integrates other tools and creates a seamless workflow
If you’re wondering about the software’s compatibility with other tools you’re using, don’t worry. Generative design software works seamlessly with leading software such as CAE, PLM, and CAD. You don’t have to worry about integrating it with them, no data will be lost there.

Moreover, it works perfectly with engineering formats such as STEP, Parasolid, 3MF, STL and FE meshes. The list also includes 3D scan data. No data will be lost while you import and export files from one platform to another.

You can also import experiment engineering data for testing in the software. Don’t worry, it won’t corrupt the software in any way.

Experimental engineering data is fully supported in the software. This data is immediately transformed into geometry, making it available for use in operations at the earliest.

Conclusion
The generative design methodology is already making waves in engineering, art, and design. It is also making its way into the medical field. If you are looking to rethink the way you manufacture and design medical devices, generative design software will be the perfect ally for you. Start today.

About Jessica J. Bass

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