|Published on:||December 2nd, 2019|
|With:||Eric Miller, Prith Banerjee, & Mark Hindsbo|
In this episode, your host and Co-Founder of PADT, Eric Miller is joined by ANSYS CTO Prith Banerjee and VP/General Manager of the Design Business Unit Mark Hindsbo, for a discussion of their roles at the company, what trends they see coming from various industries working with simulation, and how ANSYS continues to help their customers by providing valuable solutions in response to those trends.
If you have any questions, comments, or would like to suggest a topic for the next episode, shoot us an email at email@example.com we would love to hear from you!
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Below you can find some of the most frequently asked questions from this webinar, along with our answers.
Q: What computer and license type are you actually using for running the simulation? Ram, cores, CPU, etc.
A: 16 GB RAM Intel i7, NVIDIA Quadro K1100M
Q: Is the solver running a transient solution in the background while you are post processing and haven’t paused it, or is it marching towards better convergence of a steady state solution?
A: The solver is running a transient solution the entire time. The only time it is not doing this is if I pause the simulation.
Q: Does this require 3D models to be built within Discovery Live, or it can import outside 3D models (Solidworks etc) and still allows the user to add/modify geometry objects on the fly within Discovery Live?
Q: It looks like when you change the “speed – fidelity” setting, the solver resets; while when you change other settings (like domain geometry), the solution continues from last step. What’s being changed when you change the “speed-fidelity” setting?
A: When you change the Speed-Fidelity setting, the computational grid of the domain is coarsened or refined. It is also re-partitioned/parallelized on the GPU cores.
Q: Are there predictive features of simulation, obtaining design suggestions from the end results? Are there inputs for end results to accomplish reverse engineering?
A: Yes, in a sense. Because Discovery Live provides literally “real-time” feedback on design changes, you have design suggestions based on the end results. For reverse engineering in Discovery Live: there are not inputs for end results, but the part you’d like to reverse engineer can be imported (or created) in Discovery Live, and then analyzed in the range of operating conditions to understand it’s performance.
Q: Do you have any control of the mesh? How boundary/layer effects can be checked?
A: Control of the mesh available via the Speed-Fidelity slider bar. Boundary layer effects could be checked using surface integrals of force, but again recall that if you’re trying to finely resolve details such as boundary layer physics, you may need to consider the next level of accuracy which would be Discovery AIM or Fluent.
|Published on:||February 26, 2018|
|With:||Joe Woodword, Tom Chadwick, Ted Harris, Clinton Smith, Eric Miller|
|Description:||In this episode your host and Co-Founder of PADT, Eric Miller is joined by PADT’s Joe Woodword, Tom Chadwick, Clinton Smith, and Ted Harris, for a discussion on the internal and external fluid flow capabilities available in ANSYS Discovery Live. This episode also features a very special interview with ANSYS’ own Paul Lethbridge, Senior Manager of the Academic and Startup Programs, recorded live at Phoenix Startup Week.|
PADT is excited to introduce the latest innovation in ANSYS simulation tools, The ANSYS Discovery Marketplace.
Thanks to developments made by ANSYS Inc, world class simulation software is now available right at your fingertips. This platform drastically speeds up and simplifies the purchasing process while providing you with all of the information you need to ensure that you make the right choice and select the software that works best for you.
The offerings are divided into three bundles: Essentials, Standard, and Ultimate.
Each of these includes a different group of tools and capabilities, taken from the new ANSYS Discovery family of products, which includes Discovery Live, Discovery Space Claim, and Discovery AIM.
Interested in purchasing today or just learning more about these great offerings?
Click the link below to visit our marketplace:
Yesterday ANSYS, Inc. did a webinar about a technology that was going to “Change the way simulation is done.” If you have been around the world of FEA and CFD for the 30+ years I have you have heard that statement before. And rarely does the actual product change match the hype. Not true for ANSYS Discovery Live. If anything, I think they are holding back. This is disruptive, this is a tool that will change how people do simulation. In this post I’ll share my thoughts on what it is and why I think it is so transformative, and then in the second half (go ahead, if you don’t want to listen to me go on and on about how much I like this tool, skip ahead) there are some tips on how to get your hands on it to see for yourself.
ANSYS Discovery Live is a new multiple physics simulation platform that combines several key ingredients to produce a software tool that engineers can use to do almost instantaneous virtual prototypes of the behavior of their designs directly from their solid models. The developers at ANSYS, Inc. have combined their knowledge of advanced solver technology, making solvers parallel for Graphical Processor Units (GPUs, high-end graphics cards), direct solid modeling (SpaceClaim), and some advanced stuff on the discretization side I don’t think I can talk about. All of those things embedded inside SpaceClaim make ANSYS Discovery Live.
Once you have a solid model in the tool, you simply define what physics you want to solve and some boundary conditions, then it solves. In almost real time. Right there in front of you. The equivalent steps of meshing, building the model, solving it, extracting results, and displaying the results are done automatically. It may iterate a few times to converge on a solution, but in a few seconds, you will have a good enough answer to give you insight into your design.
And that is the key point. This is not a replacement for ANSYS Mechanical, FLUENT, or HFSS. It is a tool for exploring your designs and gaining insight into their behavior. It allows the design engineer, with very little training or expertise, to exercise their design and see what happens.
The product lives inside ANSYS Spaceclaim and can be installed on its own. It runs on Windows and requires a NVidia graphics card with a newer GPU (see below for more on that). Right now the product is in pre-release mode and anyone, yes anyone, can go to www.ansys.com/discovery and download it and try it out. And please, share your feedback. Expect the product to be released in the first quarter of 2018. Pricing and bundling have not been firmed up yet, but from what we have seen the plans are reasonable and make sense.
Some of the first comments I saw on social media about ANSYS Discovery Live after the webinar were that it is not a unique tool. There are other GPU based solvers out there. That is true. But even though those tools are super fast at solving, they have not been widely adopted. The ANSYS product is unique because it: 1) combines GPU based solvers for multiple physics and 2) is built into a fully functioning solid modeling tools. A third might be that it is also an ANSYS product, which means it will be backed technically and supported well.
During an interview for a magazine article about innovation in product development this week I was asked what is keeping innovation from happening more often. My answer was that most companies with the resources, both money and people, to innovate are choosing to acquire rather than innovate internally. They let others raise money, take all the risk, work out all the problems, deal with all the issues of trying to make something new. And then when they succeed, they buy them. There is nothing morally wrong with that approach, it is just inefficient and inaccurate. Every innovation has to not only survive its technical challenges, it has to survive being a startup.
What ANSYS, Inc. has done is the opposite. They could have purchased a GPU based solver startup and checked the box. But instead, they took people from different business units, several that were acquired, and put them together and said: “innovate… but make it something very useful.” And they did. The fact that they executed on the logistics of a new product that used new and old technology across physics and across software development realms, is fantastic. It makes me feel good about ANSYS, Inc’s true dedication to improving their products.
In my career, I have had the same conversation dozens of times “Let me go out to the lab and tinker with it, I’ll figure out what is going on.” That is the way you had to explore your product to get a “feel” for what is going on. Simulation took too long and you became so wrapped up in the process of building and running a model that you could not really explore the behavior of your product. Now we can.
ANSYS Discovery Live is called Discovery Live not because anyone at ANSYS is a marketing genius (sorry guys…) but because that is what it lets you do. Discover the behavior of your product live. You simply play with it and see what happens. And this will change simulation because we know can move from verification or optimization to simply experimenting and gaining a deeper understanding, early in the design process. We will still do what is now I guess called traditional simulation. We will need more accuracy, more complex physics, loads, and behavior. But early on we can learn so much by virtually experimenting.
This is not a perfect-does-everything tool. First off, it is a pre-release. The basic functionality to make it useful is there. More than I thought would be available in a first release. But there are limitations because it is new, or because of the approach. It is not as accurate as more traditional approaches. The way it works takes some shortcuts on geometry and can’t include some behaviors. This should improve over time but it will never be accurate as more time-consuming approaches that simply have more functionality.
Over the next two to three years we will see it mature and add functionality and accuracy. The GPU’s the tool depends on will offer more performance for less money as well. This is a journey, but right now everyone I have talked to who has actually played with the pre-release is very happy with the functionality and accuracy that is there now. Because it is sufficient to do the experimentation and exploration it was designed to allow.
ANSYS, Inc. realized that this type of tool demos so well, and is so different, that a skeptical group of engineers will not accept what they see in a webinar as accurate. So they have made the pre-release available for use. You can download it and install it, or explore with it in the cloud through your browser.
The only sticky bit about this whole thing is that it run a subset of Nvidia graphics cards. So you have to have one of those cards. According to the information in the forum:
ANSYS Discovery Live relies on the latest GPU technology to provide its computation and visual experience. To run the software, you will require:
– A dedicated NVIDIA GPU card based on the Kepler, Maxwell or Pascal architecture. Most dedicated NVIDIA GPU cards produced in 2013 or later will be based on one of these architectures.
– At least 4GB of video RAM (8GB preferred) on the GPU.
Also, please ensure you have the latest driver for your graphics card, available from NVIDIA Driver Downloads. You can also refer to the post on Graphics Performance Benchmarks. Performance of Discovery Live is less dependent on machine CPU and RAM. A recent generation 64-bit CPU running Windows, and at least 4GB of RAM will be sufficient. If you do not have a graphics card that meets these specifications, the software will not run. However, you can try ANSYS Discovery Live through an online cloud-based trial, which requires only an internet browser and a reasonably fast internet connection.
I didn’t know if my GPU on my laptop would work, so I went to https://www.techpowerup.com and put in my card model (nvidia m500m) and it told me it was Maxwell technology.
Don’t hesitate, download this and try it out. Even if you are a high-end combustion simulation expert that will never need it, if you are interested in Simulation you should still try it out. Use the forum to share your thoughts and questions. The gallery is already filling up with some fantastic real world examples.