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Christopher Ré
Email: chrismre at cs.stanford.edu
Department of Computer Science
Stanford University
353 Jane Stanford Way
Stanford, CA 94305-9025
  • I'm an associate professor in the Stanford AI Lab (SAIL) affiliated with DAWN and the Statistical Machine Learning Group (bio). Our lab works on the foundations of the next generation of machine-learned systems.
    • On the machine learning side, I am fascinated by how we can learn from increasingly weak forms of supervision and by the mathematical foundations of such techniques.
    • On the systems side, I am broadly interested in how machine learning is changing how we build software and hardware. I'm particularly excited when we can blend ML and systems, e.g,. Snorkel, Overton (YouTube), or SambaNova.
    Our work is inspired by the observation that data is central to these systems (crudely, "AI is driven by data—not code"), and so data management principles (re-imagined) play a starring role in our work. Maybe this sounds like Silicon valley crazy talk, but crazily enough, you've probably used a system that uses these ideas from our lab in the last few hours due to amazing students and collaborations with Google ads, YouTube, Apple, and more.

    While we're very proud of our research ideas and their impact, the lab's real goal is to help students become professors, entrepreneurs, and researchers. To that end, over a dozen members of our group have started their own professorships. With students and collaborators, I've been fortunate enough to cofound projects including SambaNova, Snorkel, and Factory along with two companies that are now part of Apple, Lattice (DeepDive) and Inductiv (HoloClean). I am fortunate to participate as an advisor or investor in some amazing companies including Agita Labs, AI21, Curie, DataChat, Datometry, Exotanium, MeasureMe, Opaque, OtterTune, Pixie Labs (now part of New Relic), Predibase, Ramp, Sentropy (now part of Discord), Thistle, Voltron Data, and others.

    • Some resources for a budding community in Data-Centric AI and a blog post about it.
    • In ICML21, we describe some results on hyperbolic geometry, model evaluation, and stability.
      • We continue our exploration of hyperbolic geometry showing that Busemann functions and ideal points allow for projections with higher fidelity (lower distortion) in hyperbolic space.
      • In Mandoline, we think about how a user can combat distribution shift by allowing them to finely slice their data.
      • In Catformer, we make transformers a bit more stable using concatenation.
    • In NAACL21, a pair of papers about robustness gym a demonstration and an industry track paper comparing modern named entity linking systems.
    • In ICLR2021, model patching, and self-supervision on medical images:
      • Beidi Chen and friends talk about Mongoose, a learnable LSH framework for Efficient Training. Oral.
      • Karan Goel et al talk about how to patch your models to handle differences among subgroups.
      • Sarah Hooper et al describe techniques to (very) weakly supervise medical image segmentation tasks.
    • Recent Talks
      • Recent Software 2.0 Overview at HAI
      • Thanks, NeurIPS! Our Test-of-time Award talk for Hogwild! is on YouTube
      • A quick overview of video our work on Hidden Stratification.
      • A narrated version of Overton, our high-level framework for machine learning built at Apple. (pptx|YouTube) and the paper.
      • MLSys 20 keynote talk (pdf|pptx) or WWW BIG for an overview of work. More articles on new group website also see github.
      • My DAC Sky Talk slides are here


      A messy, incomplete log of old updates is here.

  • I'm an associate professor in the Stanford AI Lab (SAIL) affiliated with DAWN and the Statistical Machine Learning Group (bio). Our lab works on the foundations of the next generation of machine-learned systems.
    • On the machine learning side, I am fascinated by how we can learn from increasingly weak forms of supervision and by the mathematical foundations of such techniques.
    • On the systems side, I am broadly interested in how machine learning is changing how we build software and hardware. I'm particularly excited when we can blend ML and systems, e.g,. Snorkel, Overton (YouTube), or SambaNova.
    Our work is inspired by the observation that data is central to these systems (crudely, "AI is driven by data—not code"), and so data management principles (re-imagined) play a starring role in our work. Maybe this sounds like Silicon valley crazy talk, but crazily enough, you've probably used a system that uses these ideas from our lab in the last few hours due to amazing students and collaborations with Google ads, YouTube, Apple, and more.

    While we're very proud of our research ideas and their impact, the lab's real goal is to help students become professors, entrepreneurs, and researchers. To that end, over a dozen members of our group have started their own professorships. With students and collaborators, I've been fortunate enough to cofound projects including SambaNova, Snorkel, and Factory along with two companies that are now part of Apple, Lattice (DeepDive) and Inductiv (HoloClean). I am fortunate to participate as an advisor or investor in some amazing companies including Agita Labs, AI21, Curie, DataChat, Datometry, Exotanium, MeasureMe, Opaque, OtterTune, Pixie Labs (now part of New Relic), Predibase, Ramp, Sentropy (now part of Discord), Thistle, Voltron Data, and others.

    • Some resources for a budding community in Data-Centric AI and a blog post about it.
    • In ICML21, we describe some results on hyperbolic geometry, model evaluation, and stability.
      • We continue our exploration of hyperbolic geometry showing that Busemann functions and ideal points allow for projections with higher fidelity (lower distortion) in hyperbolic space.
      • In Mandoline, we think about how a user can combat distribution shift by allowing them to finely slice their data.
      • In Catformer, we make transformers a bit more stable using concatenation.
    • In NAACL21, a pair of papers about robustness gym a demonstration and an industry track paper comparing modern named entity linking systems.
    • In ICLR2021, model patching, and self-supervision on medical images:
      • Beidi Chen and friends talk about Mongoose, a learnable LSH framework for Efficient Training. Oral.
      • Karan Goel et al talk about how to patch your models to handle differences among subgroups.
      • Sarah Hooper et al describe techniques to (very) weakly supervise medical image segmentation tasks.
    • Recent Talks
      • Recent Software 2.0 Overview at HAI
      • Thanks, NeurIPS! Our Test-of-time Award talk for Hogwild! is on YouTube
      • A quick overview of video our work on Hidden Stratification.
      • A narrated version of Overton, our high-level framework for machine learning built at Apple. (pptx|YouTube) and the paper.
      • MLSys 20 keynote talk (pdf|pptx) or WWW BIG for an overview of work. More articles on new group website also see github.
      • My DAC Sky Talk slides are here


      A messy, incomplete log of old updates is here.

Manuscripts
Index by year
2021
  • Catformer: Designing Stable Transformers via Sensitivity Analysis Davis et al. ICML 21.
  • Mandoline: Model Evaluation under Distribution Shift Chen et al. ICML 21
  • HoroPCA: Hyperbolic Dimensionality Reduction via Horospherical Projections Chami et al. ICML 21.
  • Goodwill Hunting: Analyzing and Repurposing Off-the-Shelf Named Entity Linking Systems. Karan Goel et al. NAACL Industry 2021
  • Robustness Gym: Unifying the NLP Evaluation Landscape Karan Goel et al.. NAACL demo, 2021.
  • Comparing the Value of Labeled and Unlabeled Data in Method-of-Moments Latent Variable Estimation. Mayee F. Chen et al. AIStats21.
  • PipeMare: Asynchronous Pipeline Parallel DNN Training Bowen Yang et al. MLSys21.
  • Mongoose: A Learnable LSH Framework for Efficient Neural Network Training. Beidi Chen et al. ICLR21 Oral
  • Model Patching: Closing the Subgroup Performance Gap with Data Augmentation. Karan Goel et al. ICLR21
  • Cut out the annotator, keep the cutout: better segmentation with weak supervision. Sarah Hooper et al. ICLR21
  • Bootleg: Chasing the Tail with Self-Supervised Named Entity Disambiguation. Laurel Orr et al. CIDR21
2020
  • Comparison of segmentation-free and segmentation-dependent computer-aided diagnosis of breast masses on a public mammography dataset Lee et al. Journal of Biomedical Informatics, 2020.
  • HiPPO: Recurrent Memory with Optimal Polynomial Projections Albert Gu et al. NeurIPS 2020. Spotlight
  • No Subclass left Behind: Fine-Grained Robustness in Coarse-Grained Classification Problems Nimit Sohoni. NeurIPS 2020.
  • Hyperbolic Hierarchical Clustering. Ines Chami et al. NeurIPS 2020.
  • Leveraging Organizational Resources to Adapt Models to New Data Modalities Sahaana Suri et al. VLDB 2020
  • On the Generalization Effects of Linear Transformations in Data Augmentation Sen Wu, Hongyang R. Zhang, Greg Valiant, C. Ré. ICML 2020
  • Fast and Three-rious: Speeding Up Weak Supervision with Triplet Methods Dan Fu et al. ICML 2020
  • AMELIE speeds Mendelian diagnosis by matching patient phenotype and genotype to primary literature J. Birgmeier et al. Science Trans. Med 2020
  • Extract Chemical Reactions from Text using Snorkel Emily K. Mallory et al. BMC Bioinformatics 2020.
  • Cross-Modal Data Programming Enables Rapid Medical Machine Learning. J. Dunnmon, AJ Ratner et al. Cell Patterns 2020.
  • Low-Dimensional Hyperbolic Knowledge Graph Embeddings. Ines Chami et al. ACL20
  • Contextual Embeddings: When are they worth it? S. Arora, A. May, J. Zhang, C. Ré. ACL20 (Short Paper)
  • Sparse Recovery for Orthogonal Polynomial Transforms Anna Gilbert, Albert Gu, C. Re, Atri Rudra, Mary Wootters. ICALP 2020.
  • Hidden Stratification Causes Clinically Meaningful Failures in Machine Learning for Medical Imaging Luke Oakden-Rayner*, Jared Dunnmon*, Gustavo Carneiro, and C. Ré ACM CHIL, 2020 (Oral Spotlight).
  • Ivy: Instrumental Variable Synthesis for Causal Inference Z. Kuang et al. AISTATS 2020.
  • Weak supervision as an efficient approach for automated seizure detection in electroencephalography. Khaled Saab et al. NPJ Digital Medicine.
  • Overton: A Data System for Monitoring and Improving Machine-Learned Products. C. Ré, F. Niu, P. Gudipati, and C. Srisuwananukorn. CIDR2020
  • Kaleidoscope: An Efficient, Learnable Representation For All Structured Linear Maps Tri Dao et al. ICLR 2020. Spotlight
  • Understanding and Improving Information Transfer in Multi-Task Learning Sen Wu, H. Zhang, C. Ré. ICLR 2020.
2019
  • Hidden Stratification Causes Clinically Meaningful Failures in Machine Learning for Medical Imaging Luke Oakden-Rayner et al. ML4H19
  • Medical device surveillance with electronic health records Alison Callahan and Jason A Fries et al. NPJ Digital Medicine.
  • On the Downstream Performance of Compressed Word Embeddings Avner May, Jian Zhang, Tri Dao, C. Ré. NeurIPS2019. Spotlight
  • Multi-Resolution Weak Supervision for Sequential Data. Paroma Varma, Fred Sala et al. NeurIPS 2019.
  • Slice-based Learning: A programming model for residual learning on critical slices. Vincent Chen, Sen Wu, Alex Ratner, C. Ré. NeurIPS2019.
  • Hyperbolic Graph Convolutional Neural Networks. Ines Chami, Rex Ying, C. Ré, Jure Leskovec. NeurIPS 2019.
  • Scene Graph Prediction with Limited Labels. Vincent S Chen, Paroma Varma, Ranjay Krishna, Michael Bernstein, C. Ré, Li Fei-Fei. ICCV 2019.
  • Automating the generation of hardware component knowledge bases. Luke Hsiao, Sen Wu, Nicholas Chiang, C.Ré, Philip Levis. LCTES 2019.
  • Snorkel: Rapid Training Data Creation with Weak Supervision Alex Ratner, Stephen Bach, Henry Ehrenberg, Jason Fries, Sen Wu, C. Ré. VLDBJ 2019 (Best Of)
  • Doubly Weak Supervision of Deep Learning Models for Head CT. Khaled Saab et al. MICCAI 2019.
  • Improving Sample Complexity with Observational Supervision. Khaled Saab et al. ICLR Learning with Limited Labeled Data (LLD) Workshop 2019.
  • A Machine-Curated Database of Genome-Wide Association Studies Volodymyr Kuleshov et al. Nature Comms 2019.
  • Weakly supervised classification of rare aortic valve malformations using unlabeled cardiac MRI sequences Jason Fries et al. Nature Comms 2019.
  • Learning Fast Algorithms for Linear Transforms Using Butterfly Factorizations Tri Dao, Albert Gu, Matthew Eichhorn, Atri Rudra, C. Ré. ICML 2019.
  • Learning Dependency Structures for Weak Supervision Models Paroma Varma, Frederic Sala, Ann He, Alexander Ratner, C. Ré. ICML 2019.
  • A Kernel Theory of Modern Data Augmentation Tri Dao, Albert Gu, Alexander J. Ratner, Virginia Smith, Christopher De Sa, C. Ré. ICML 2019.
  • Snorkel DryBell: A Case Study in Deploying Weak Supervision at Industrial Scale Stephen Bach et al. SIGMOD 2019.
  • Learning Mixed-Curvature Representations in Product Spaces. Beliz Gunel, Albert Gu, C. Ré. Fred Sala. ICLR 2019.
  • Low-precision Random Fourier Features for Memory Constrained Kernel Approximation. Tri Dao, Avner May, C. Ré, Jian Zhang. AIStats 2019.
  • Training Complex Models with Multi-Task Weak Supervision. A. Ratner, B. Hancock, J. Dunnmon, F. Sala, S. Pandey, C. Ré. AAAI 2019.
  • The Role of Massively Multi-task and Weak Superivsion in Software 2.0 A. Ratner, B. Hancock, C. Ré. CIDR 2019.
  • Assessment of Deep Learning Models for Automated Triage of Chest Radiographs J. Dunnmon, D. Yi, C. Langlotz, C. Ré, D. Rubin, M. Lungren Radiology, 2019
  • Snuba: Automating Weak Supervision to Label Training Data, Paroma Varma and C. Ré. VLDB 2019.
  • A Formal Framework for Probabilistic Unclean Databases. C. De Sa, Ihab Ilyas, Benny Kimelfeld, C. Ré, and Theodoros Rekatsinas, ICDT 2019.
2018
    Learning Compressed Transforms with Low Displacement Rank. Anna T. Thomas, Albert Gu, Tri Dao, Atri Rudra, C. Ré. NeurIPS, 2018.
  • Software 2.0 and Snorkel: Beyond Hand-Labeled Data. C. Ré. KDD18 (Invited).
  • Representation Tradeoffs for Hyperbolic Embeddings Christopher De Sa, Albert Gu, C. Ré, Frederic Sala. ICML18.
  • Training Classifiers with Natural Language Explanations. Braden Hancock, Paroma Varma, Stephanie Wang, Percy Liang, C. Ré. ACL18.
  • LevelHeaded: A Unified Engine for Business Intelligence and Linear Algebra Querying. Chris Aberger, Andy Lamb, Kunle Olukotun, and C. Ré. ICDE 18.
  • Snorkel: Rapid Training Data Creation with Weak Supervision A.J. Ratner, S. Bach, H. Ehrenberg, J.A. Fries, S. Wu, C. Ré. VLDB 18 Best Of.
  • Fonduer: Knowledge Base Construction from Richly Formatted Data Sen Wu et al. SIGMOD 18.
  • A Two Pronged Progress in Structured Dense Matrix Multiplication C. De Sa, Albert Gu, Rohan Puttagunta, C. Ré, Atri Rudra. SODA 18.
  • Accelerated Power Iteration. AIStats 18.
  • Learning Invariance with Compact Transforms. Anna T. Thomas, Albert Gu, Tri Dao, Atri Rudra, C. Ré. ICLR Workshop 18.
  • Exploring the Utility of Developer Exhaust. Jian Zhang, Max Lam, Stephanie Wang, Paroma Varma, Luigi Nardi, Kunle Olukotun and C. Ré. DEEM 2018
  • Snorkel MeTaL: Weak Supervision for Multi-Task Learning. Alex Ratner, Braden Hancock, Jared Dunnmon, Roger Goldman, C.Ré. DEEM 2018.
  • High-Accuracy Low-Precision Training C. De Sa, M. Leszczynski, J Zhang, A. Marzoev, C. R. Aberger, K. Olukotun, C. Ré
2017
  • Association of Omics Features with Histopathology Patterns in Lung Adenocarcinoma. K. Yu, G. Berry, D. Rubin, et al. Cell Systems 2017.
  • Learning to Compose Domain-Specific Transformations for Data Augmentation A. Ratner, H. Ehrenberg, Z. Hussain, J. Dunnmon, C. Ré, NeurIPS2017.
  • Inferring Generative Model Structure with Static Analysis Paroma Varma, Bryan He, Payal Bajaj, C. Ré, NeurIPS2017.
  • Gaussian Quadrature for Kernel Features Tri Dao, Chris De Sa, C. Ré, NeurIPS2017. spotlight
  • HoloClean: Holistic Data Repairs with Probabilistic Inference Theo Rekatsinas, Xu Chu, Ihab F. Ilyas, C. Ré. VLDB 17.
  • Weighted SGD for lp regression with Randomized Preconditioning. Jiyan Yang, Yin-Lam Chow, C. Ré, and Michael Mahoney. JMLR 17.
  • Learning the Structure of Generative Models without Labeled Data Stephen H. Bach, Bryan He, Alex Ratner, C. Ré. ICML 2017.
  • Understanding and Optimizing Asynchronous Low-Precision Stochastic Gradient Descent. C. De Sa, Matt Feldman, C. Ré, Kunle Olukotun. ISCA 2017.
  • GYM: A Multiround Join Algorithm In MapReduce and Its Analysis Foto Afrati, Manas Joglekar, C. Ré, Semih Salihoglu, Jeffrey D. Ullman. ICDT 2017.
  • SLiMFast: Guaranteed Results for Data Fusion and Source Reliability. Manas Joglekar, Theodoros Rekatsinas, H. Garcia-Molina, et al. SIGMOD 17.
  • A Relational Format for Feature Engineering Benny Kimmelfeld, C. Ré. PODS 2017. Best of PODS.
  • Mind the Gap: Bridging Multi-Domain Query Workloads with EmptyHeaded. Chris Aberger, Andy Lamb, Kunle Olukotun, C. Ré. VLDB17 (demo)
  • Snorkel: Fast Training Set Generation for Information Extraction. Alex Ratner, Stephen Bach, Henry Ehrenberg, C. Ré. SIGMOD 17 (demo).
  • Snorkel: A System for Lightweight Extraction Alex Ratner, Stephen Bach et al. CIDR 2017 (one pager)
  • Flipper: A Systematic Approach to Debugging Training Sets. Paroma Varma, Dan Iter, C. De Sa and C. Ré. HILDA 2017
2016
  • Predicting non-small cell lung cancer prognosis by fully automated microscopic pathology image features Kun-Hsing Yu et al. Nature Comms. 2016. Parasite Award
  • Data Programming: Creating Large Training Sets, Quickly Alex Ratner, Chris De Sa, Sen Wu, Daniel Selsam, and C. Ré. NeurIPS 2016. video.
  • Scan Order in Gibbs Sampling: Models in Which it Matters and Bounds on How Much. Bryan He, C. De Sa, I. Mitliagkas, and C. Ré. NeurIPS 2016. video.
  • Sub-sampled Newton Methods with Non-uniform Sampling Peng Xu, Jiyan Yang, Farbod Roosta-Korasani, C. Ré, and Michael Mahoney. NeurIPS 2016.
  • Cyclades: Conflict-free Asynchronous Machine Learning. Xinghao Pan, Maximilian Lam, Stephen Tu, Dimitris Papailiopoulos, et al. NeurIPS 2016.
  • Ensuring Rapid Mixing and Low Bias for Asynchronous Gibbs Sampling Chris De Sa, Kunle Olukotun, C. Ré. ICML 2016. Best Paper Award.
  • EmptyHeaded: A Relational Engine for Graph Processing Christopher R. Aberger, Susan Tu, Kunle Olukotun, and C. Ré. SIGMOD 2016. Best Of.
  • Aggregations over Generalized Hypertree Decompositions. Manas Joglekar, Rohan Puttagunta, and C. Ré. PODS 2016.
  • Extracting Databases from Dark Data with DeepDive. Ce Zhang, Michael Cafarella, Feng Niu, C. Ré, Jaeho Shin. SIGMOD 2016 (Industrial Track).
  • High Performance Parallel Stochastic Gradient Descent in Shared Memory. S. Sallinen, N. Satish, M. Smelyanskiy, S. Sury, C. Ré. IPDPS16.
  • It’s all a matter of degree: Using degree information to optimize multiway joins. Manas Joglekar and C. Ré. ICDT2016. Best Of.
  • Weighted SGD for lp Regression with Randomized Preconditioning Jiyan Yang, Yin-Lam Chow, C. Ré, and Michael Mahoney. SODA16.
  • Asynchrony begets Momentum, with an Application to Deep Learning. Ioannis Mitliagkas, Ce Zhang, Stefan Hadjis, and C. Ré. Allerton 16.
  • Incremental Knowledge Base Construction Using DeepDive Jaeho Shin, Sen Wu, Feiran Wang, Ce Zhang, C. De Sa, C. Ré. VLDBJ.
  • Materialization Optimizations for Feature Selection. Ce Zhang, Arun Kumar, and C. Ré. TODS 2016.
  • A Resolution-based Framework for Joins: Worst-case and Beyond. Mahmoud Abo Khamis, Hung Q. Ngo, C. Ré, and Atri Rudra. TODS 2016.
  • DeepDive: Declarative Knowledge Base Construction. Chris De Sa, Alex Ratner, C. Ré, J. Shin, F.Wang, Sen Wu, Ce Zhang. SIGMOD Record 2016.
  • Socratic Learning: Empowering the Generative Model Paroma Varma, Rose Yu, Dan Iter, C. De Sa, C. Ré. FiLM-NeurIPS 2016.
  • Data Programming with DDLite: Putting Humans in a Different Part of the Loop. Henry Ehrenberg, J. Shin, A. Ratner, J. Fries, C. Ré. HILDA16
  • Parallel SGD: When does Averaging Help? Jian Zhang, Christopher De Sa, Ioannis Mitiliagkas, and C. Ré. OptML16
  • Old Techniques for New Join Algorithms: A Case Study in RDF Processing. Chris Aberger, Susan Tu, Kunle Olukotun, and C. Ré. DESWEB. ICDE16.
  • Wikipedia Knowledge Graph with DeepDive. Thomas Palomares, Youssef Ahres, Juhana Kangaspunta and C. Ré. In Wiki Workshop at ICSMW 2016.
  • Dark Data: Are We Solving the Right Problems? M. Cafarella, I. Ilyas, M. Kornacker, Tim Kraska, C. Ré. ICDE 2016 (Panel).
  • Omnivore: An Optimizer for Multi-device Deep Learning on CPUs and GPUs. Stefan Hadjis, Ce Zhang, Ioannis Mitliagkas, and C. Ré.
2015
  • Rapidly Mixing Gibbs Sampling for a Class of Factor Graphs Using Hierarchy Width Chris De Sa, Ce Zhang, Kunle Olukotun, C. Ré. NeurIPS15. Spotlight
  • Taming the Wild: A Unified Analysis of Hogwild!-Style Algorithms Chris De Sa, Ce Zhang, Kunle Olukotun, and C. Ré. NeurIPS15
  • Asynchronous stochastic convex optimization. John C. Duchi, Sorathan Chaturapruek, and C. Ré. NeurIPS15.
  • Incremental Knowledge Base Construction Using DeepDive Jaeho Shin, Sen Wu, Feiran Wang, Ce Zhang, C. De Sa, C. Ré. VLDB15. Best of Issue
  • Global Convergence of Stochastic Gradient Descent for Some Nonconvex Matrix Problems Christopher De Sa, Kunle Olukotun, and C. Ré. ICML15.
  • A Resolution-based Framework for Joins: Worst-case and Beyond. Mahmoud Abo Khamis, Hung Q. Ngo, C. Ré, and Atri Rudra. PODS15. Best of Issue.
  • Exploiting Correlations for Expensive Predicate Evaluation Manas Joglekar, Hector Garcia-Molina, Aditya Parameswaran, and C. Ré. SIGMOD15
  • A Demonstration of Data Labeling in Knowledge Base Construction. Jaeho Shin, Mike Cafarella, and C. Ré. VLDB15 (demo).
  • Machine Learning and Databases: The Sound of Things to Come or a Cacophony of Hype?. SIGMOD15 Panel.
  • Large-scale extraction of gene interactions from full text literature using DeepDive Emily Mallory, Ce Zhang, C. Ré., Russ Altman. Bioinformatics
  • Caffe con Troll: Shallow Ideas to Speed up Deep Learning. Firas Abuzaid, Stefan Hadjis, Ce Zhang, and C. Ré. DANAC15.
  • Join Processing for Graph Patterns: An Old Dog with New Tricks Dung Nguyen, LogicBlox, et al. GRADES15.
  • DunceCap: Compiling Worst-case Optimal Query Plans. Adam Perelman and C. Ré. Winner of SIGMOD Undergrad Research Competition.
  • DunceCap: Query Plans Using Generalized Hypertree Decompositions. Susan Tu and C. Ré. Winner of SIGMOD Undergrad Research Competition.
  • A Database Framework for Classifier Engineering. Benny Kimmelfeld and C. Ré. AMW 2015.
  • The Mobilize Center: an NIH big data to knowledge center to advance human movement research and improve mobility Ku et al. AMIA.
2014
  • Materialization Optimizations for Feature Selection. Ce Zhang, Arun Kumar, and C. Ré. SIGMOD 2014. Best Paper Award.
  • DimmWitted: A Study of Main-Memory Statistical Analytics. Ce Zhang and C. Ré. VLDB 2014.
  • An Asynchronous Parallel Stochastic Coordinate Descent Algorithm. J. Liu, S. Wright, C. Ré, V. Bittorf, S. Sridhar. ICML 2014. (JMLR version)
  • Beyond Worst-case Analysis for Joins using Minesweeper. Hung Q. Ngo, Dung Nguyen, C. Ré, and Atri Rudra. PODS 2014. [Full]
  • Parallel Feature Selection Inspired by Group Testing. Y. Zhou et al. NeurIPS2014.
  • The Theory of Zeta Graphs with an Application to Random Networks. C. Ré. ICDT 2014. Invited to "Best of" Special Issue.
  • Transducing Markov Sequences Benny Kimelfeld and C. Ré. JACM 2014.
  • A Machine-compiled Macroevolutionary History of Phanerozoic Life. Shanan E. Peters, Ce Zhang, Miron Livny, and C. Ré. PloS ONE.
  • Using Social Media to Measure Labor Market Flow D. Antenucci, M. Cafarella, M. Levenstein, C. Ré, and M. Shapiro. NBER. Selected for NBER Digest
  • Global Convergence of Stochastic Gradient Descent for Some Nonconvex Matrix Problems Christopher De Sa, Kunle Olukotun, and C. Ré.
    Preliminary version in Distributed Matrix Computation with NeurIPS14.
  • Feature Engineering for Knowledge Base Construction DeepDive Group. Data Engineering Bulletin.
  • Tradeoffs in Main-Memory Statistical Analytics: Impala to DimmWitted (Invited) V. Bittorf, M. Kornacker, C. Ré, C. Zhang. IMDM with VLDB14.
  • The Beckman Report on Database Research Mike Carey, AnHai Doan, et al. 2014.
  • Links between Join Processing and Convex Geometry, C. Ré. ICDT 2014 (Invited Abstract for Keynote) [slides].
  • Skew Strikes Back: New Developments in the Theory of Join Algorithms. Hung Ngo, C. Ré, and Atri Rudra. SIGMOD Rec. 2013.
2013
  • Towards High-Throughput Gibbs Sampling at Scale: A Study across Storage Managers. Ce Zhang and C. Ré. SIGMOD 2013.
  • An Approximate, Efficient LP Solver for LP Rounding. Srikrishna Sridhar, Victor Bittorf, Ji Liu, Ce Zhang, C. Ré, and Stephen J. Wright. NeurIPS 2013
  • Brainwash: A Data System for Feature Engineering. M. Anderson et al. CIDR Conference 2013 (Vision Track)
  • Understanding Tables in Context Using Standard NLP Toolkits Vidhya Govindaraju, Ce Zhang, and C. Ré. ACL 2013 (Short Paper)
  • Hazy: Making it Easier to Build and Maintain Big-data Analytics. Arun Kumar, Feng Niu, and C. Ré ACM Queue, 2013. Invited to CACM March 2013
  • Ringtail: Nowcasting Made Easy D. Antenucci, M.J. Cafarella, M.C. Levenstein, C. Ré, and M. Shapiro. WebDB 2013 with SIGMOD 2013
  • Parallel Stochastic Gradient Algorithms for Large-Scale Matrix Completion B. Recht and C. Ré. Mathematical Programming Computation, 2013.
  • Ringtail: Nowcasting Made Easy. Dolan Antenucci, Erdong Li, Shaobo Liu, Michael J. Cafarella, and C. Ré. VLDB Demo 2013.
  • Feature Selection in Enterprise Analytics: A Demonstration using an R-based Data Analytics System P. Konda, A. Kumar, C. Ré, and V. Sashikanth. VLDB Demo 2013
  • GeoDeepDive: Statistical Inference using Familiar Data-Processing Languages. Ce Zhang, V. Govindaraju, J. Borchardt, T. Foltz, C. Ré, and S. Peters. SIGMOD 13 (demo).
  • Building an Entity-Centric Stream Filtering Test Collection for TREC 2102. J.R. Frank, M.Kleiman-Weiner, D. A. Roberts, F.Niu, Ce Zhang, C. Ré, and I. Soboroff. TREC 2013
  • Improvement in Fast Particle Track Reconstruction with Robust Statistics M. Wellons, IceCube Collaboration, B. Recht, and C. Ré. Nuclear Inst. and Methods in Physics Research, A.
  • Robust Statistics in IceCube Initial Muon Reconstruction. M. Wellons, IceCube Collaboration, B. Recht, and C. Ré. International Cosmic Ray Conference 2013.
2012
  • Factoring nonnegative matrices with linear programs. Victor Bittorf, Benjamin Recht, C. Ré, and Joel A. Tropp. NeurIPS 2012. Revised Version.
  • The MADlib Analytics Library or MAD Skills, the SQL. Joseph M. Hellerstein et al. PVLDB 2012
  • Probabilistic Management of OCR using an RDBMS Arun Kumar and C. Ré. PVLDB 2012. [Full Version]
  • Optimizing Statistical Information Extraction Programs Over Evolving Text Fei Chen, Xixuan Feng, C. Ré, and Min Wang. ICDE. [Full Version]
  • Understanding cardinality estimation using entropy maximization C. Ré and Dan Suciu. ACM Trans. Database Syst. Volume 37.
  • Towards a Unified Architecture for In-Database Analytics Aaron Feng, Arun Kumar, Benjamin Recht, and C. Ré SIGMOD 2012. [Full Version]
  • Worst-case Optimal Join Algorithms Hung Q. Ngo, Ely Porat, C. Ré, and Atri Rudra. PODS, 2012. Best Paper Award
  • Big Data versus the Crowd: Looking for Relationships in All the Right Places Ce Zhang, Feng Niu, C. Ré, and Jude Shavlik. ACL, 2012.
  • Toward a noncommutative arithmetic-geometric mean inequality B. Recht and C. Ré. COLT, 2012 [Full Version]
  • Elementary: Large-scale Knowledge-base Construction via Machine Learning and Statistical Inference F. Niu, Ce Zhang, C. Ré, and J. Shavlik. IJSWIS, Special Issue on Knowledge Extraction from the Web, 2012.
  • DeepDive: Web-scale Knowledge-base Construction using Statistical Learning and Inference F. Niu, C. Zhang, C. Ré, and J. Shavlik. VLDS, 2012.
  • Scaling Inference for Markov Logic via Dual Decomposition (Short). F. Niu, C. Zhang, C. Ré, and J. Shavlik. ICDM, 2012.
2011
  • Probabilistic Databases. Dan Suciu, Dan Olteanu, C. Ré, and Christoph Koch. Morgan Claypool's Synthesis Lectures, 2011
  • Incrementally maintaining classification using an RDBMS Mehmet Levent Koc and C. Ré. PVLDB Volume 4, 2011, p. 302-313
  • Tuffy: Scaling up Statistical Inference in Markov Logic Networks using an RDBMS F. Niu, C. Ré, A.Doan, and J.W. Shavlik. PVLDB 11, [Full Version]
  • Automatic Optimization for MapReduce ProgramsEaman Jahani, Michael J. Cafarella, and C. Ré. PVLDB 2011.
  • Queries and materialized views on probabilistic databases. Nilesh N. Dalvi, C. Re, and Dan Suciu. JCSS 2011.
  • Parallel Stochastic Gradient Algorithms for Large-Scale Matrix Completion B. Recht and C. Ré. 2011.
  • Hogwild!: A Lock-Free Approach to Parallelizing Stochastic Gradient Descent F. Niu, B. Recht, C. Ré, and S. J. Wright. NeurIPS, 2011. [Full Version]
  • Felix: Scaling Inference for Markov Logic with an Operator-based Approach. Feng Niu, Ce Zhang, C. Ré, and Jude Shavlik.
2010
  • Manimal: Relational Optimization for Data-Intensive Programs Michael J. Cafarella and C. Ré. WebDB, 2010.
  • Transducing Markov Sequences Benny Kimelfeld and C. Ré. PODS, 2010. Invited to Special Issue
  • Understanding Cardinality Estimation using Entropy Maximization C. Ré and Dan Suciu. PODS, 2010, Invited to Special Issue
  • Approximation Trade-Offs in a Markovian Stream Warehouse: An Empirical Study (Short) J. Letchner, C. Ré, M. Balazinska, and M. Philipose. ICDE.
2009 and older
  • C. Ré
    • Managing Large-Scale Probabilistic Databases
    University of Washington, Seattle, 2009
    Winner of SIGMOD Jim Gray Thesis Award
  • Raghav Kaushik, C. Ré, and Dan Suciu
    • General Database Statistics Using Entropy Maximization
    DBPL, 2009, p. 84-99
    [Talk]
  • Katherine F. Moore, Vibhor Rastogi, C. Ré, and Dan Suciu
    • Query Containment of Tier-2 Queries over a Probabilistic Database
    Management of Uncertain Databases (MUD), 2009,
  • Julie Letchner, C. Ré, Magdalena Balazinska, and Matthai Philipose
    • Access Methods for Markovian Streams
    ICDE, 2009, p. 246-257
  • Arvind Arasu, C. Ré, and Dan Suciu
    • Large-Scale Deduplication with Constraints Using Dedupalog
    ICDE, 2009, p. 952-963
    [Talk]
    Selected as one of the best papers in ICDE 2009
  • Nilesh N. Dalvi, C. Ré, and Dan Suciu
    • Probabilistic databases: Diamonds in the dirt
    Commun. ACM Volume 52, 2009, p. 86-94
    [Full Version]
  • S. Manegold, I. Manolescu, L. Afanasiev, J. Feng, G. Gou, M. Hadjieleftheriou, S. Harizopoulos, P. Kalnis, K. Karanasos, D. Laurent, M. Lupu, N. Onose, C. Ré, V. Sans, P. Senellart, T. Wu, and D. Shasha
    • Repeatability & Workability Evaluation of SIGMOD 2009
    SIGMOD Record Volume 38, 2009, p. 40-43
  • Julie Letchner, C. Ré, Magdalena Balazinska, and Matthai Philipose
    • Lahar Demonstration: Warehousing Markovian Streams
    PVLDB Volume 2, 2009, p. 1610-1613
  • C. Ré and Dan Suciu
    • The Trichotomy of HAVING Queries on a Probabilistic Database
    VLDB Journal 2009,
  • C. Ré
    • Managing Probabilistic Data with Mystiq (Plenary Talk)
    Daghstul Seminar 08421: Uncertainty Management in Information Systems, 2008,
  • C. Ré, and Dan Suciu
    • Advances in Processing SQL Queries on Probabilistic Data
    Invited Abstract in INFORMS 2008, Simulation., 2008,
  • Ting-You Wang, C. Ré, and Dan Suciu
    • Implementing NOT EXISTS Predicates over a Probabilistic Database
    QDB/MUD, 2008, p. 73-86
  • Nodira Khoussainova, Evan Welbourne, Magdalena Balazinska, Gaetano Borriello, Garrett Cole, Julie Letchner, Yang Li, C. Ré, Dan Suciu, and Jordan Walke
    • A demonstration of Cascadia through a digital diary application
    SIGMOD Conference, 2008, p. 1319-1322
  • C. Ré, Julie Letchner, Magdalena Balazinska, and Dan Suciu
    • Event queries on correlated probabilistic streams
    SIGMOD Conference, 2008, p. 715-728
  • C. Ré, and Dan Suciu
    • Managing Probabilistic Data with MystiQ: The Can-Do, the Could-Do, and the Can't-Do
    SUM, 2008, p. 5-18
  • Julie Letchner, C. Ré, Magdalena Balazinska, and Matthai Philipose
    • Challenges for Event Queries over Markovian Streams
    IEEE Internet Computing Volume 12, 2008, p. 30-36
  • C. Ré, and Dan Suciu
    • Approximate lineage for probabilistic databases
    PVLDB Volume 1, 2008, p. 797-808
    [Full Version][Talk]
    The version above corrects an error in the statement of lemma 3.7.
  • Magdalena Balazinska, C. Ré, and Dan Suciu
    • Systems aspects of probabilistic data management (Part I)
    PVLDB Volume 1, 2008, p. 1520-1521
    [Talk]
  • Magdalena Balazinska, C. Ré, and Dan Suciu
    • Systems aspects of probabilistic data management (Part II)
    PVLDB Volume 1, 2008, p. 1520-1521
    [Talk]

  • Michael J. Cafarella, C. Ré, Dan Suciu, and Oren Etzioni
    • Structured Querying of Web Text Data: A Technical Challenge
    CIDR, 2007, p. 225-234
  • C. Re, and Dan Suciu
    • Management of data with uncertainties
    CIKM, 2007, p. 3-8
  • C. Ré, Dan Suciu, and Val Tannen
    • Orderings on Annotated Collections
    Liber Amicorum in honor of Jan Paredaens 60th Birthday, 2007,
  • C. Ré, and Dan Suciu
    • Efficient Evaluation of HAVING Queries
    DBPL, 2007, p. 186-200
    [Full Version][Talk]
  • C. Ré, Nilesh N. Dalvi, and Dan Suciu
    • Efficient Top-k Query Evaluation on Probabilistic Data
    ICDE, 2007, p. 886-895
    [Full Version][Talk]
  • C. Re and Dan Suciu
    • Materialized Views in Probabilistic Databases for Information Exchange and Query Optimization
    VLDB, 2007, p. 51-62
    [Full Version][Talk]
  • C. Ré
    • Applications of Probabilistic Constraints (General Exam Paper)
    University of Washington TR#2007-03-03 2007,
  • Eytan Adar and C. Ré
    • Managing Uncertainty in Social Networks
    IEEE Data Eng. Bull. Volume 30, 2007, p. 15-22

  • Giorgio Ghelli, C. Ré, and Jér^ome Sim'eon
    • XQuery!: An XML Query Language with Side Effects
    EDBT Workshops, 2006, p. 178-191
  • C. Re, Jér^ome Sim'eon, and Mary F. Fern'andez
    • A Complete and Efficient Algebraic Compiler for XQuery
    ICDE, 2006, p. 14
  • C. Ré, Nilesh N. Dalvi, and Dan Suciu
    • Query Evaluation on Probabilistic Databases
    IEEE Data Eng. Bull. Volume 29, 2006, p. 25-31
  • Chavdar Botev, Hubert Chao, Theodore Chao, Yim Cheng, Raymond Doyle, Sergey Grankin, Jon Guarino, Saikat Guha, Pei-Chen Lee, Dan Perry, C. Re, Ilya Rifkin, Tingyan Yuan, Dora Abdullah, Kathy Carpenter, David Gries, Dexter Kozen, Andrew C. Myers, David I. Schwartz, and Jayavel Shanmugasundaram
    • Supporting workflow in a course management system
    SIGCSE, 2005, p. 262-266
  • Jihad Boulos, Nilesh N. Dalvi, Bhushan Mandhani, Shobhit Mathur, C. Ré, and Dan Suciu
    • MYSTIQ: a system for finding more answers by using probabilities
    SIGMOD Conference, 2005, p. 891-893
  • Nathan Bales, James Brinkley, E. Sally Lee, Shobhit Mathur, C. Re, and Dan Suciu
    • A Framework for XML-Based Integration of Data, Visualization and Analysis in a Biomedical Domain
    XSym, 2005, p. 207-221
  • C. Ré, Jim Brinkley, Kevin Hinshaw, and Dan Suciu
    • Distributed XQuery
    Workshop on Information Integration on the Web (IIWeb), 2004, p. 116-121
  • Werner Vogels and C. Ré
    • WS-Membership - Failure Management in a Web-Services World
    WWW (Alternate Paper Tracks), 2003,
  • Werner Vogels, C. Ré, Robbert Renesse, and Kenneth P. Birman
    • A Collaborative Infrastructure for Scalable and Robust News Delivery
    ICDCS Workshops, 2002, p. 655-659

Current PhD Students

    • Simran Arora
    • Mayee Chen
    • Tri Dao Coadvisor: Stefano Ermon
    • Sabri Eyuboglu Coadvisor: James Zou
    • Dan Fu Coadvisor: Kayvon Fatahalian
    • Karan Goel
    • Neel Guha
    • Albert Gu
    • Sarah Hooper Coadvisor: Sam Gambhir
    • Megan Leszczynski
    • Khaled Saab Coadvisor: Daniel Rubin
    • Nimit Sohoni
    • Vishnu Sarukkai Coadvisor: Kayvon Fatahalian
    • Maya Varma
    • Eric Winsor
    • Nancy Xu
    • Michael Zhang

Current Postdocs

    • Beidi Chen
    • Laurel Orr

PhD and Postdoc Alumni (Degree year, Employment)

    • Ines Chami (PhD 2021, Factory)
    • Charles Kuang (Postdoc 2020, Google)
    • Sharon Li (Postdoc 2020, Asst. Professor University of Wisconsin)
    • Avner May (Postdoc 2020, Google)
    • Fred Sala (Postdoc 2020, Asst. Professor University of Wisconsin)
    • Sen Wu (Phd 2020, Postdoc Stanford)
    • Jared Dunnmon (Postdoc 2019, DIUX)
    • Jian Zhang (PhD 2019, SambaNova Systems)
    • Alex Ratner (PhD 2019, Asst. Professor at University of Washington)
    • Paroma Varma (PhD 2019, Snorkel AI)
    • Braden Hancock (PhD 2019, Snorkel AI)
    • Chris Aberger (PhD 2018, SambaNova Systems) Coadvisor: Kunle Olukotun
    • Stephen Bach (Postdoc 2018, Asst. Professor at Brown)
    • Emily Mallory (PhD Biomedical Informatics, 2018) Principle advisor: Russ Altman
    • Madalina Fiterau (Postdoc 2018, Asst. Professor at UMass Amherst) Coadvisor: Scott Delp
    • Jason Fries (Postdoc 2018, Research Scientist Stanford) Coadvisor: Scott Delp
    • Virginia Smith (Postdoc 2018, Asst. Professor at CMU)
    • Peng Xu (PhD 2018, Amazon A9) Coadvisor: Michael Mahoney
    • Chris De Sa (PhD 2017, Asst. Professor at Cornell) Coadvisor: Kunle Olukotun
    • Ioannis Mitliagkas (Postdoc 2017, Asst. Professor at Montréal) Coadvisor: Lester Mackey
    • Theodoros Rekatsinas (Postdoc 2017, Asst. Professor at Wisconsin)
    • Jaeho Shin (PhD 2016, Lattice)
    • Jiyan Yang (PhD 2016, Facebook) Advisor: Michael Saunders (ICME) and Michael Mahoney (Berkeley)
    • Kun-Hsing Yu (PhD 2016, Asst. Professor Harvard) Advisor: Michael Snyder (BioE)
    • Manas Joglekar (PhD 2016, Google) Advisor: Hector Garcia-Molina
    • Ce Zhang (PhD 2015, Postdoc 2016, Asst. Professor at ETH)
    • Srikrishna Sridhar (PhD 2014, Apple) Main Advisor: Stephen J. Wright
    • Feng Niu (PhD 2012, Google, Lattice Cofounder)

MS Alumni (Degree year, First Employment)

    • Vincent Chen (MS 2019, Snorkel AI)
    • Max Lam (MS 2019, PhD Harvard)
    • Anna Thomas (Churchill Scholar)
    • Xiao Cheng (MS 2017, Facebook)
    • Henry Ehrenberg (MS 2017, Facebook)
    • Andy Lamb (CoTerm MS 2017, Google)
    • Rohan Puttagunta (MS 2016, Facebook)
    • Thomas Palomares (MS 2016, Founder Farmwise)
    • Susan Tu (CoTerm MS 2016, Stripe)
    • Feiran Wang (MS2016, LinkedIn)
    • Michael Fitzpatrick (MS 2015, Google)
    • Firas Abuzaid (MS 2015, MIT for PhD)
    • Zifei Shan (MS 2015, Lattice)
    • Adam Goldberg (BS 2015, Rubrik)
    • Adam Perelman (BS 2015, Good Eggs)
    • Victor Bittorf (MS 2014, Cloudera)
    • Vidhya Govindaraju (MS 2014, Oracle)
    • Mark Wellons (MS 2013, Amazon)
    • Arun Kumar (MS 2013, Wisconsin for PhD, Asst. Professor UCSD)
    • Xixi Luo (MS in Industrial Engineering 2012, Oracle)
    • Vinod Ramachandran (MS 2011, Oracle)
    • M. Levent Koc (MS 2011, Google)
    • Balaji Gopalan (MS 2010, Google)
We are working on two broad topics:
  • (1) DeepDive is a new type of system to extract value from dark data. Like dark matter, dark data is the great mass of data buried in text, tables, figures, and images, which lacks structure and so is essentially unprocessable by existing data systems. DeepDive's most popular use case is to transform the dark data of web pages, pdfs, and other databases into rich SQL-style databases. In turn, these databases can be used to support both SQL-style and predictive analytics. Recently, some DeepDive-based applications have exceeded the quality of human volunteer annotators in both precision and recall for complex scientific articles. Data produced by DeepDive is used by several law enforcement agencies and NGOs to fight human trafficking. The technical core of DeepDive is an engine that combines extraction, integration, and prediction into a single engine with probabilistic inference as its core operation. A one pager with key design highlights is here. PaleoDeepDive is featured in the July 2015 issue of Nature.

    • DeepDive is our attempt to understand a new type of database system. Our new approach can be summarized as follows: the data, the output of various tools, the input from users — including the program the developer writes — are observations from which the system statistically infers the answer. This view is a radical departure from traditional data processing systems, which assume that the data is one-hundred percent correct. A key problem in DeepDive is that the system needs to consider many possible interpretations for each data item. In turn, we need to explore a huge number of combinations during probabilistic inference, which is one of the core technical challenges.
    Our goal is to acquire more sources of data for DeepDive to understand more deeply to change the way that science and industry operate.
  • (2) Fundamentals of Data Processing. Almost all data processing systems have their intellectual roots in first order logic. The most computationally expensive (and most interesting) operation in such systems is the relational join. Recently, I helped discover the first join algorithm with optimal worst-case running time. This result uses a novel connection between logic, combinatorics, and geometry. We are using this connection to develop new attacks on classical problems in listing patterns in graphs and in statistical inference. Two threads have emerged:
      • The first theme is that these new worst-case-optimal algorithms are fundamentally different from the algorithms used in (most of) today's data processing systems. Although our algorithm is optimal in the worst case, commercial relational database engines have been tuned to work well on real data sets by smart people for about four decades. And so a difficult question is how does one translate these insights into real data processing systems?
      • The second theme is that we may need new techniques to get theoretical results strong enough to guide practice. As a result, I've started thinking about "beyond worst-case analysis" and things like conditioning for combinatorial problems to hopefully build theory that can inform practice to a greater extent. The first papers have just been posted.
    • Demos, Examples, and Papers.
      • Worst-case Optimal Joins. We have posted a survey for SIGMOD record about recent advances in join algorithms. Our goal is to give a high-level view of the results for practitioners and applied researchers. We also managed to simplify the arguments. A full version of our join algorithm with worst-case optimal running time is here. The LogicBlox guys have their own commercial worst-case optimal algorithm. Our new system, EmptyHeaded is based on this theory.
      • Beyond Worst-case Joins. This work is our attempt to go beyond worst-case analysis for join algorithms. We (with Dung Nguyen) develop a new algorithm that we call Minesweeper based on these ideas. The main theoretical idea is to formalize the amount of work any algorithm spends certifying (using a set of propositional statements) that the output set is complete (and not, say, a proper subset). We call this set of propositions the certificate. We manage to establish a dichotomy theorem for this stronger notion of complexity: if a query is what Ron Fagin calls beta-acyclic, then Minesweeper runs in time linear in the certificate; if a query is beta-cyclic than on some instance any algorithm takes time that is super linear in the certificate. The results get sharper and more fun.
      • Almost to one algorithm to rule them all? We have a much better description of beyond worst-case optimality with a resolution framework and a host of new results for different indexing strategies. This paper supercedes many of the results in Minesweeper and in a much nicer way!. We also hope to connect more of geometry and resolution... but we'll see!
      • A first part of our attack on conditioning for combinatorial problems is in NIPS and on Arxiv.
      • It is not difficult to get me interested in a theory problem. Ask around the Infolab if you don't believe me.
    Our goal is to understand the fundamentals of data processing systems.
    • CS229, Machine Learning. Spring 19. Fall 19. Spring 20. Fall 20.
    • CS145, Introduction to Databases. Fall 14. Fall 15. Fall 16.
    • CS346, Database System Implementation. Spring 14. Spring 15
    • CS341, Project in Mining Massive Data Sets. Spring 15 Spring 16.
    • CS345, Advanced Database Systems. Winter 14.

Our course material from CS145 intro databases is here, and we'll continue to update it. We're aware of a handful of courses that are using these materials, drop us a note if you do! We hope to update them throughout the year.

  • Recent Service
    • Area Chair, ICML 2019, 2020
    • Reviewer, NeurIPS 2018
    • Demo Chair, ICDE 2018
    • Editorial Boards
      • Transactions of Database Systems (Associate Editor) 2014-2017
      • Foundations and Trends (Associate Editor) 2014-2017
      • Springer Series in Data Science 2014-2017
    • Conferences: ICML 2017; Tutorial CoChair at VLDB16; SIGMOD 2013-2015,2017 (External 2016); PODS 2016; ICDT 2015; ACL 2015; CIDR 2015,2017; VLDB 2014-2015; ICDE 2011-2013,2015; EDBT 2012.
    • Journal Reviewer: TODS, JACM, CACM, TPDS, TODS, VLDBJ, TKDE.
  • Honors and Awards
    • NeurIPS Test-of-Time Award, 2020
    • Okawa Research Grant, 2016
    • ICML Best Paper Award, 2016
    • Distinguished Lectures ONR and FDA, 2016
    • CACM Research Highlight for DeepDive, 2016.
    • MacArthur Foundation Fellowship, 2015
    • VLDB Early Career Award, 2015 (talk video)
    • Kavli Fellow, NAS, Frontiers of Science, 2015 (unable to attend)
    • Gordon & Betty Moore Data-Driven Discovery Award, 2014
    • SIGMOD Best Paper Award, 2014
    • National Bureau of Economic Review, NBER Digest Highlight, 2014
    • Alfred P. Sloan Research Fellowship, 2013
    • Robert N. Noyce Faculty Fellowship, 2013
    • PODS Best Paper Award, 2012
    • NSF CAREER Award, 2011
    • ACM SIGMOD Jim Gray Dissertation Award, 2010
    • "Best of" Special Issue Paper Awards: VLDB 2018 (VLDBJ); PODS 2017 (TODS); Nature Comms 2016 (Research Parasite for Kun) SIGMOD 2016 (TODS); ICML 2016 (IJCAI Best of AI); ICDT 2016 (TOCS); VLDB 2015 (VLDBJ & CACM Resesearch Highlight); PODS 2015 (TODS); SIGMOD 2014 (JACM); ICDT 2014 (TOCS), declined; PODS 2012; PODS 2010, two papers, JACM and TODS; ICDE 2009 (TKDE), declined.