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It is also much lighter and has a much lower displacement value than the traditional design. The Experimental Solver brings new possibilities, and you can see the results in the image below. At the top of the image is the design produced by the standard generative design solver. Please note that Experimental Solvers is still a preview feature, which means that some of the new features may not be working with all manufacturing constraints and final outcomes count might be smaller. The full list of supported manufacturing methods is presented later, next to the description of every new constraint.
Cert Prep: Autodesk Fusion 360 User
This allows you to veryquickly model up a shaft for a fastener, and add in a bolt-head and an additional cylinder on top, for ensuring bolts/screws can be accessed with the appropriate tool. The place to begin with generative design is to define the geometry that will provide the basis for your exploration of the technology. Let’s examine how AI improves manufacturing product quality and how Autodesk’s Fusion bolsters this influential technology. Each tutorial shows you how to locate and open the required Fusion model dataset. Now, it seems, we’re seeing a new class of tools that can support that process and give it a huge boost, thanks to the unprecedented levels of computational power that we have at our disposal today. On the other hand, the ability to run optimisation studies across a matrix of inputs and parameters, as you can here, would take days, if not weeks, of work to set up manually.
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Again, you have a set of common loads, including forces, pressures and bearing loads. This automatically restricts geometry to this shape – but it’s a shame to nail things down so firmly during early-stage experimentation. At the same time, it can be a challenge to consider your project in this new way and you may need to iterate your problem definition in order to fine-tune it. If you do have an explicit volume inside which you need to work, there is the option to give the system a starting volume. As always, if you have any questions about generative design in Fusion 360, please reach out to us at With your feedback and our continuous improvement efforts in mind, we’re announcing an updated generative design price structure that gives teams of all sizes and budgets a chance to experience its benefits.
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One of the characteristics of the new Experimental Solvers is increased variety of shapes. AI can predict demand, optimize inventory levels, and identify potential supply chain disruptions. These systems, as a result, can potentially anticipate shifts in consumer demand and assist in adjusting manufacturing output.
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If you add in more materials than are needed or more manufacturing variations, you increase the amount of computation required. Conversely, you’re paying for it, so if you have time, max out your options and see what comes back. The second is that loads and constraints can only be applied to the ‘preserved geometry’ that you have defined; this is absolutely key and might be the cause of some iteration during set-up. In other words, good planning is required upfront before a project begins. When you run the study with the Alternative Outcomes option selected, you will be able to use new features that are described in more detail later, and you may get some additional outcomes on top of the default ones.
Fusion 360: 3D Printed Product Enclosure
Grzegorz Borowski is currently a product owner working mainly on generative design at Autodesk. He graduated with a master’s degree in Mechanical Engineering, specializing in Finite Element Method (FEM) simulations. To do this, first open the Preferences window by choosing the Preferences option (4) inside the menu (3) in the upper right corner of the Fusion 360 window.
In the traditional generative design approach, we can see the maximum displacement of the generated outcome, but we are unable to directly impact it before the post-processing stage. This means every user of the generative design feature will also see new outcomes with new sophisticated shapes, in addition to the existing traditional solutions. This technology brings new functionalities and delivers forms optimized in a new way, opening doors that have been closed previously. In addition to showing how to use the new technology of generative design in Fusion 360, above all, we will present how the new functionalities empower the new applications using real-world examples. Generative design in Fusion 360 gives you the ability to select multiple manufacturing methods to quickly explore numerous solutions for your design and engineering challenges. All in all, what Autodesk has delivered on here, in its first pass, is pretty damned impressive.
Thankfully, the hype train came to the end of the line towards the end of last year, when the Fusion 360 team finally updated the system to include the first variant of this technology as a real-world, commercially available product. After opening the results in the Explore tab, you can identify the outcomes that were generated by Experimental Solvers by the flask icon in the upper right corner of the outcome thumbnail. Inside the Preferences window, find the Preview Features option (5) and then make sure that under the Generative Design tab you have selected Experimental Generative Solvers and Features (6). The green parts are preserve geometries while the yellow part is a starting shape. After opening the results in the Explore tab, you can identify the outcomes that were generated by Experimental Solvers by a flask icon visible in the upper right corner of the outcome thumbnail. Inside the Preferences window find the Preview Features option (5) and then make sure that under the Generative Design tab you have selected Experimental Generative Solvers and Features (6).
And then you would still have an enormous amount of processing to do in order to compute it and sift results. As we discussed at the outset, topology optimisation refines a singular form to an optimised state, typically using a singular material. Generative design in Fusion 360 is, by contrast, a platform for experimentation on a much grander scale. There is a natural instinct to compare this set of tools to the more common topology optimisation tools available in other systems (including Fusion 360) – and, at present, the results appear similar in nature. Compared to the ‘all-you-can-eat’ approach to engineering software, this is where things are heading. You might not like it (and I personally have a few issues with it), but it’s a good indication of the adjustments many users will need to make.
At the top of the image is the design produced by the standard generative design solver. At the bottom, there is an outcome created by a new optimization method used in Experimental Solver. The second design is much closer to the one that is indicated by stresses distribution inside of the model.
In the standard approach of the generative design solver, the material can only be removed from the outer surface of the model. In most cases, this method provides satisfactory results; however, there are some situations where it is insufficient, and the outcomes that it produces are not the optimal ones. In most cases, this method provides satisfactory results; however, there are some situations where it is insufficient, and the outcomes that it produces are not the optimal ones. The most logical and most optimal solution here would be the shape that has its outer edges preserved and is empty inside. However, up until now, the generative design solver was unable to produce such a shape. The Experimental Solver brings new possibilities, and you can see the results in the image below.
Autodesk Fusion Industry Cloud for Manufacturing - Fusion Blog - Autodesk Redshift
Autodesk Fusion Industry Cloud for Manufacturing - Fusion Blog.
Posted: Mon, 13 Nov 2023 08:00:00 GMT [source]
Autodesk development teams have been working on capitalizing on these proven simulation solvers as well as the latest technologies in generative design. As a result, a new tech preview feature named Experimental Solver is enabled in Fusion 360. On the other hand, we have generative design in Fusion 360 software — the technology that revolutionizes the engineering world and the ways we design things. Another interesting feature of Experimental Solvers is its ability to create void shapes.
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