tag:blogger.com,1999:blog-5822805028291837738.post3947559845158199449..comments2020-01-16T11:19:18.557-05:00Comments on Various Consequences: Deep Learning to Accelerate Topology OptimizationJoshua Stultshttp://www.blogger.com/profile/03506970399027046387noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-5822805028291837738.post-84853551653450429142017-11-14T06:00:12.627-05:002017-11-14T06:00:12.627-05:00Here's an approach to speeding up a lattice-Bo...Here's an approach to speeding up a lattice-Boltzmann solver: <a href="http://www.variousconsequences.com/2017/11/deep-learning-to-accelerate-computational-fluid-dynamics.html" rel="nofollow">Deep Learning to Accelerate Computational Fluid Dynamics</a> Joshua Stultshttps://www.blogger.com/profile/03506970399027046387noreply@blogger.comtag:blogger.com,1999:blog-5822805028291837738.post-552648649134589252017-11-10T07:38:32.357-05:002017-11-10T07:38:32.357-05:00Machine learning for supper fast simulations has a...<a href="https://www.reddit.com/r/CFD/comments/5n91uz/cfd_machine_learning_for_super_fast_simulations/" rel="nofollow">Machine learning for supper fast simulations</a> has an interesting comment: "...While I find this an interesting approach, it seems to me to be really confusing to talk about 'acceleration' and 'speed-up' in the way you are, because you're doing a COMPLETELY different thing from what a standard solver is doing. "<br /><br />That's why it's surprising! <a href="http://www.shipulski.com/2017/11/08/the-power-of-surprise/" rel="nofollow">Surprise is powerful</a>... Joshua Stultshttps://www.blogger.com/profile/03506970399027046387noreply@blogger.com