SIAM Student Chapter Seminar: Difference between revisions

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| 9th floor lounge
| 9th floor lounge
| [https://www.linkedin.com/in/shi-chen-98b7431a0/?originalSubdomain=cn/ Shi Chen] (UW-Madison)
| [https://www.linkedin.com/in/shi-chen-98b7431a0/?originalSubdomain=cn/ Shi Chen] (UW-Madison)
|''[[#Feb 28, Shi Chen| TBA]]''
|''[[#Feb 28, Shi Chen| Classical limits of direct and inverse wave type problems -- a Wigner transform approach]]''
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|-
|-
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| Mar 7, 3:30-4 PM
| Mar 7, 3:30-4 PM
| Virtual [https://uwmadison.zoom.us/j/91217562664?pwd=SGZOS3JGaFVGa250NXhDZlkrbWU3dz09/ (link)] Passcode: 400453
| Virtual [https://uwmadison.zoom.us/j/91217562664?pwd=SGZOS3JGaFVGa250NXhDZlkrbWU3dz09/ (link)] Passcode: 400453
| Tom Edwards
| Tom Edwards [https://www.google.com/ (Google)]
|''[[#Mar 7, Tom Edwards| Industry talk]]''
|''[[#Mar 7, Tom Edwards| Industry talk]]''
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=== Feb 21,Brandon Boggess ===
=== Feb 21,Brandon Boggess ===
I will be talking about software development and the transition from academic research to enterprise engineering.
I will be talking about software development and the transition from academic research to enterprise engineering.
=== Feb 28, Shi Chen ===
The underlying physics of the same system is different when the system is described at different scales. In classical mechanics, the motion of a particle is governed by the Newton's second law, while in quantum mechanics the status of a particle follows the Schrödinger equation. The classical mechanics and the quantum mechanics are two sides of the same coin, but how can we formally connect the two disparate systems? In this talk, I will introduce the Wigner transform, which is the only known method that seamlessly connects the classical and quantum systems as the Planck constant vanishes. I will keep everything basic and briefly introduce some applications of the Wigner transform to direct and inverse wave type problems.
=== Mar 7, Tom Edwards ===
I will talk about comparisons between small and big companies.


== Past Semesters ==
== Past Semesters ==

Revision as of 20:25, 1 March 2022



Spring 2022

date and time location speaker title
Feb 7, 3:30-4 PM Virtual (link) Keith Rush (Senior Software Engineer at Google) Industry talk
Feb 14, 3:30-4 PM Virtual (link) Passcode: 400453 Shawn Mittal (Senior Deliver Data Scientist at Microsoft) Who, What, Why of Data Science in Industry
Feb 21, 3:30-4 PM 9th floor lounge Brandon Boggess (Epic) Industry talk
Feb 28, 3:30-4 PM 9th floor lounge Shi Chen (UW-Madison) Classical limits of direct and inverse wave type problems -- a Wigner transform approach
Mar 7, 3:30-4 PM Virtual (link) Passcode: 400453 Tom Edwards (Google) Industry talk
Mar 21, 3:30-4 PM 9th floor lounge Aidan Howells (UW-Madison) TBA
Apr 4, 3:30-4 PM 9th floor lounge Eza Enkhtaivan (UW-Madison) TBA


Abstracts

Feb 7, Keith Rush

I'll talk about the kind of work I do today, the way I got here, and any insight I can give for someone hoping to pursue a similar path. I'll also discuss some of the things I've learned, and some of the advantages and disadvantages a mathematician has in the machine learning and computer science world. We'll be sure to have a freewheeling discussion and a good time :).

Feb 14, Shawn Mittal

A short snapshot of what the data science industry looks like followed by some lessons learned on what makes an effective data scientist.

Feb 21,Brandon Boggess

I will be talking about software development and the transition from academic research to enterprise engineering.

Feb 28, Shi Chen

The underlying physics of the same system is different when the system is described at different scales. In classical mechanics, the motion of a particle is governed by the Newton's second law, while in quantum mechanics the status of a particle follows the Schrödinger equation. The classical mechanics and the quantum mechanics are two sides of the same coin, but how can we formally connect the two disparate systems? In this talk, I will introduce the Wigner transform, which is the only known method that seamlessly connects the classical and quantum systems as the Planck constant vanishes. I will keep everything basic and briefly introduce some applications of the Wigner transform to direct and inverse wave type problems.

Mar 7, Tom Edwards

I will talk about comparisons between small and big companies.


Past Semesters