Going to learn from this. Thank you so much!!
That's it! All 12 lectures* for my course on “Randomised and Advanced Algorithms” are up. Lectures, along with slides**, tutorials (recitations) and their solutions. 🔗 ccanonne.github.io/teaching/COMPx… x.com/ccanonne_/stat…
Gilbert Strang's "A Vision of Linear Algebra" Presents Professor Strang’s updated vision of how linear algebra could be taught. Youtube Playlist: youtube.com/playlist?list=… Course Website: ocw.mit.edu/courses/res-18…
Great book! Material available from.the Authors' home page: www2.isye.gatech.edu/~nemirovs/ Check it out!
MIT's "Foundations of Reinforcement Learning & Interactive Decision Making" PDF: arxiv.org/pdf/2312.16730
Hi new followers! I’m a mathematician at Harvard. I have a YouTube channel, where I discuss math the way I think about it, with now two playlists on differential geometry and complex geometry (in progress). Comments welcome! DG: youtube.com/watch?v=rVTN7V… CG: youtube.com/watch?v=N5FQHg…
ACM-SIAM Symposium on Discrete Algorithms (SODA26) hotel information is posted. Reserve now! siam.org/conferences-ev… #SIAMDA26
Yes. Given a Hamiltonian cycle C of the n-hypercube, we can construct one for the (n+1)-hypercube inductively by listing the elements of C in order and concatenating it with a 0, followed by the elements of C in reverse order concatenated with a 1.
It is possible to walk a loop through all two-digit sequences of 0s and 1s, changing one digit at a time: 00->10->11->10->00. Can do the same for all three-digit sequences of 0s and 1s. All four-digit sequences? All n-digit sequences?
"Mathematics of Neural Networks" by Bart M. N. Smets PDF: arxiv.org/pdf/2403.04807
Princeton's Linear Algebra by Adrian Banner Videos: youtube.com/watch?v=Ncu9Pk…
Carnegie Mellon University's "Advanced Algorithms" course notes PDF: cs.cmu.edu/~15850/notes/c…
Algorithm Engineering by Prof. Charles Leiserson and Prof. Julian Shun Coure material: jshun.csail.mit.edu/6506-s23/
This question was asked in their internship written test for the Quant role in their R&D team.
Fundamentals of Probability by Prof. Yury Polyanskiy Lecture notes: ocw.mit.edu/courses/6-436j…
A free MIT course breaking down fundamental math concepts in computer science: bit.ly/4kXuqQ6 Here, MIT prof. Erik Demaine breaks down state machines (Lecture 4). v/@MITOCW
Mathematics for Computer Science by Dr. Marten van Dijk and Prof. Tom Leighton Lecture videos: ocw.mit.edu/courses/6-042j…
MIT's Advanced Data Structures by Prof. Erik Demaine Lecture notes: courses.csail.mit.edu/6.897/spring03…
Iga Swiatek’s reaction after becoming the first Polish player in the Open Era to win Wimbledon. She falls flat on her back. She looks at her box and lets out a huge roar. She did it… she conquered the grass. Pure joy. Nothing else. 🇵🇱🥹
#Math This thread is my list of X/Twitter accounts where I have found excellent math. Many of these accounts may include non-math content you may or may not like. Some accounts may not have recent posts. And some accounts include math posts mostly as replies to other posts. 1/4
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