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Models, Inference and Algorithms Meeting
- 1738 videos
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1
MIA: Fabian Theis, Reconstructing trajectories and branching lineages in single cell genomics
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Scaling Genetic Data Analysis with Apache Spark - Jonathan Bloom and Timothy Poterba
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3
MIA: Tamara Broderick, Edge-exchangeable graphs, clustering, and sparsity (2017)
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4
Lectures on Causality: Jonas Peters, Part 1
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5
Lectures on Causality: Jonas Peters, Part 2
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Lectures on Causality: Jonas Peters, Part 3
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Lectures on Causality: Jonas Peters, Part 4
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8
MIA: Ahmed Badran, Continuous directed evolution: advances, applications, and opportunities
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9
MIA: Peter Kharchenko, Computational challenges in single-cell analysis; Jean Fan
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10
MIA: Jerome Kelleher, Simulating, storing & processing genetic variation data w/millions of samples
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11
MIA: Matt Johnson, Composing graphical models with neural networks; Scott Linderman
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12
MIA: Julien de Wit, Nicolas Wieder, A pseudo-random walk from new worlds to diabetes
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13
MIA: Jesse Engreitz, Grand Challenge: Mapping the regulatory wiring of the genome
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14
MIA: Stefanie Jegelka, Probabilistic models of diversity: DPP; Chengtao Li
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15
MIA: Mertash Babadi, A scalable, Bayesian model for copy number variation; Samuel Lee, Bayesian PCA
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16
MIA: Carl de Boer, Learning the rules of gene regulation with millions of synthetic promoters
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MIA: Rafa Gómez-Bombarelli, Deep learning chemical space
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18
MIA: Casey Greene, Unsupervised methods for discovery from public data; Daniel Himmelstein
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19
MIA: Debora Marks, Structure & fitness from genomics sequences; John Ingraham & Adam Riesselman
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20
Scaling Genetic Data Analysis with Apache Spark: Spark Summit East talk by Cotton Seed
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21
MIA: Ryan Peckner, Unmixing next-gen mass spec proteomics; Karsten Krug, Mass spec-based proteomics
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22
MIA: Daniel Huang, Compiling probabilistic programs; Daniel King, What is a compiler?
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23
MIA: Andrew Beck, Dayong Wang, Deep learning for computational pathology; Babak Bejnordi, ConvNets
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24
MIA: Quaid Morris, Algorithms for reconstructing tumor evolution; David Benjamin, Dirichlet process
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25
MIA: Anshul Kundaje, Integrative deep learning frameworks for regulatory genomics & epigenomics
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26
MIA: Umut Eser, Fiddle: integrative deep learning framework for genomics; Alex Wiltschko, Auto diff
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27
MIA: Chad Giusti, What can persistent homology see?; Ann Sizemore, Topological data analysis
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28
MIA: Alp Kucukelbir, Automated inference & probabilistic programming; Rajesh Ranganath, PGMs
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29
MIA: Rafael Irizarry, Overcoming bias in high-throughput data; Adrian Veres, RNA-seq
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30
MIA: Brian Cleary, Composite measurements & molecular compressed sensing for transcriptomics
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31
MIA: Yaniv Erlich, Compressed experiments; Ryan Peckner, Noisy channels and linear codes
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32
MIA: David Blei, Scaling & generalizing variational inference; David Benjamin, Variational inference
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33
MIA: David Tse, Case studies in DNA and RNA assembly
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34
MIA: Matei Zaharia, Scaling analysis with Apache Spark; Tim Poterba, Jon Bloom, Distributed compute
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35
MIA: Barbara Engelhardt, Bayesian structured sparsity; Yakir Reshef, Gaussian processes
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36
MIA: Jeremy Freeman, Open source tools for large-scale neuroscience
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37
MIA: Caroline Uhler, Geometry and Gene Regulation
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38
Ryan Adams, Machine Learning & the Life Sciences: Beyond Data Analyisis
MIA: Rafa Gómez-Bombarelli, Deep learning chemical space
Transcript
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