April 25, 2019 -
April 26, 2019
Physics ∩ ML
Location: Microsoft Research Redmond
Day 1 | Thursday, April 25
| Time (PDT) | Session | Speaker | |
| Session 1 | Plenary talks | ||
| 8:00 AM–9:00 AM | Breakfast | ||
| 9:00 AM–9:45 AM | Gauge equivariant convolutional networks | Taco Cohen | |
| 9:45 AM–10:30 AM | Understanding overparameterized neural networks | Jascha Sohl-Dickstein | |
| 10:30 AM–11:00 AM | Break | ||
| 11:00 AM–11:45 AM | Mathematical landscapes and string theory | Mike Douglas | |
| 11:45 AM–12:30 PM | Holography, matter and deep learning | Koji Hashimoto | |
| 12:30 PM–2:00 PM | Lunch | ||
| 2:00 PM–4:05 PM | Session 2 | Applying physical insights to ML | |
| 2:00 PM–2:45 PM | Plenary: A picture of the energy landscape of deep neural networks | Pratik Chaudhari | |
| 2:45 PM–4:05 PM | Short talks | ||
| Neural tangent kernel and the dynamics of large neural nets | Clement Hongler | ||
| On the global convergence of gradient descent for over-parameterized models using optimal transport | Lénaïc Chizat | ||
| Pathological spectrum of the Fisher information matrix in deep neural networks | Ryo Karakida | ||
| Q&A | |||
| Fluctuation-dissipation relation for stochastic gradient descent | Sho Yaida | ||
| From optimization algorithms to continuous dynamical systems and back | Rene Vidal | ||
| The effect of network width on stochastic gradient descent and generalization | Daniel Park | ||
| Q&A | |||
| Short certificates for symmetric graph density inequalities | Rekha Thomas | ||
| Geometric representation learning in hyperbolic space | Maximilian Nickel | ||
| The fundamental equations of MNIST | Cedric Beny | ||
| Q&A | |||
| Quantum states and Lyapunov functions reshape universal grammar | Paul Smolensky | ||
| Multi-scale deep generative networks for Bayesian inverse problems | Pengchuan Zhang | ||
| Variational quantum classifiers in the context of quantum machine learning | Alex Bocharov | ||
| Q&A | |||
| 4:05 PM–4:30 PM | Break | ||
| 4:30 PM–5:30 PM | The intersect ∩ |
Day 2 | Friday, April 26
| Time (PDT) | Session | Speaker | |
| Session 3 | Applying ML to physics | ||
| 8:00 AM–9:00 AM | Breakfast | ||
| 9:00 AM–9:45 AM | Plenary: Combinatorial Cosmology | Liam McAllister | |
| 9:45 AM–10:15 AM | Break | ||
| 10:15 AM–11:35 AM | Short talks | ||
| Bypassing expensive steps in computational geometry | Yang-Hui He | ||
| Learning string theory at Large N | Cody Long | ||
| Training machines to extrapolate reliably over astronomical scales | Brent Nelson | ||
| Q&A | |||
| Breaking the tunnel vision with ML | Sergei Gukov | ||
| Can machine learning give us new theoretical insights in physics and math? | Washington Taylor | ||
| Brief overview of machine learning holography | Yi-Zhuang You | ||
| Q&A | |||
| Applications of persistent homology to physics | Alex Cole | ||
| Seeking a connection between the string landscape and particle physics | Patrick Vaudrevange | ||
| PBs^-1 to science: novel approaches on real-time processing from LHCb at CERN | Themis Bowcock | ||
| Q&A | |||
| From non-parametric to parametric: manifold coordinates with physical meaning | Marina Meila | ||
| Machine learning in quantum many-body physics: A blitz | Yichen Huang | ||
| Knot Machine Learning | Vishnu Jejjala | ||
| 11:35 AM–12:30 PM | Panel discussion with panelists Michael Freedman, Clement Hongler, Gary Shiu, Paul Smolensky, Washington Taylor | ||
| 12:30 PM–1:30 PM | Lunch | ||
| Session 4 | Breakout groups | ||
| 1:30 PM–3:00 PM | Physics breakout groups | ||
| Symmetries and their realisations in string theory | Sergei Gukov, Yang-Hui He | ||
| String landscape | Michael Douglas, Liam McAllister | ||
| Connections of holography and ML | Koji Hashimoto, Yi-Zhuang You | ||
| 3:00 PM–4:30 PM | ML breakout groups | ||
| Geometric representations in deep learning | Maximilian Nickel | ||
| Understanding deep learning | Yasaman Bahri, Boris Hanin, Jaehoon Lee | ||
| Physics and optimization | Rene Vidal |