Introduction to Statistics  Statistics (STAT) 2 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Credit option: Students who have taken 2X, 5, 20, 21, 21X, or 25 will receive no credit for 2.  
Description: Population and variables. Standard measures of location, spread and association. Normal approximation. Regression. Probability and sampling. Binomial distribution. Interval estimation. Some standard significance tests.  
(F,SP) 



Introduction to Probability and Statistics  Statistics (STAT) 20 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: One semester of calculus.  
Credit option: Students who have taken 2, 2X, 5, 21, 21X, or 25 will receive no credit for 20.  
Description: For students with mathematical background who wish to acquire basic concepts. Relative frequencies, discrete probability, random variables, expectation. Testing hypotheses. Estimation. Illustrations from various fields.  
(F,SP) 



Introductory Probability and Statistics for Business  Statistics (STAT) 21 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: One semester of calculus.  
Description: Descriptive statistics, probability models and related concepts, sample surveys, estimates, confidence intervals, tests of significance, controlled experiments vs. observational studies, correlation and regression.  
(F,SP) 



Introductory Probability and Statistics for Business  Statistics (STAT) W21 [4 units]  
Course Format: Three hours of webbased lecture per week.  
Prerequisites: One semester of calculus.  
Formerly N21  
Credit option: Students will receive no credit for Statistics W21 after taking Statistics 2, 20, or 25.  
Description: Reasoning and fallacies, descriptive statistics, probability models and related concepts, combinatorics, sample surveys, estimates, confidence intervals, tests of significance, controlled experiments vs. observational studies, correlation and regression.  
(F,SP) Staff 



Freshman/Sophomore Seminar  Statistics (STAT) 39  
Course Format:  
Prerequisites: Priority given to freshmen and sophomores.  
Credit option: Course may be repeated for credit as topic varies.  
Grading option: Sections 12 to be graded on a lettergrade basis. Sections 34 to be graded on a passed/not passed basis.  
Description: Freshman and sophomore seminars offer lower division students the opportunity to explore an intellectual topic with a faculty member and a group of peers in a smallseminar setting. These seminars are offered in all campus departments; topics vary from department to department and from semester to semester.  


 Statistics (STAT) 39D [24 units]  
Course Format: Two to four hours of seminar per week.  
Description:  


Societal Risks and the Law  Statistics (STAT) C79 [3 units]  
Course Format: Three hours of lecture and one hour of discussion per week.  
Prerequisites: One semester of calculus.  
Description: Defining, perceiving, quantifying and measuring risk; identifying risks and estimating their importance; determining whether laws and regulations can protect us from these risks; examining how well existing laws work and how they could be improved; evaluting costs and benefits. Applications may vary by term. This course cannot be used to complete engineering unit or technical elective requirements for students in the College of Engineering. Also listed as Political Science C79 and Computer Science C79.  
(F,SP) Sekhon, Stark, Wagner, Staff 



Special Topics in Probability and Statistics  Statistics (STAT) 94 [14 units]  
Course Format: One to three hours of lecture and zero to two hours of discussion per week.  
Prerequisites: Consent of instructor.  
Credit option: Course may be repeated for credit as topic varies.  
Description: Topics will vary semester to semester.  
(F,SP) Staff 



Field Study in Statistics  Statistics (STAT) 97 [13 units]  
Course Format: One to three hours of fieldwork per week.  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a passed/not passed basis.  
Description: Supervised experience relevant to specific aspects of statistics in offcampus settings. Individual and/or group meetings with faculty.  
(F,SP) 



Directed Group Study  Statistics (STAT) 98 [13 units]  
Course Format: Two to three hours of directed group study per week.  
Prerequisites: Consent of instructor.  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a passed/not passed basis.  
Description: Must be taken at the same time as either Statistics 2 or 21. This course assists lower division statistics students with structured problem solving, interpretation and making conclusions.  
(F,SP) 



Introduction to Probability and Statistics for Life Scientists  Statistics (STAT) 131A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: One semester of calculus or consent of instructor.  
Description: Ideas for estimation and hypothesis testing basic to applications, including an introduction to probability. Linear estimation and normal regression theory.  
(F,SP) 



Concepts in Computing with Data  Statistics (STAT) 133 [3 units]  
Course Format: Three hours of lecture and two hours of computer laboratory per week. Four hours of lecture and three hours of computer laboratory per week for ten weeks.  
Description: An introduction to computationally intensive applied statistics. Topics will include organization and use of databases, visualization and graphics, statistical learning and data mining, model validation procedures, and the presentation of results.  
(F,SP) 



Concepts of Probability  Statistics (STAT) 134 [3 units]  
Course Format: Three hours of lecture and two hours of discussion per week.  
Prerequisites: One year of calculus.  
Credit option: Students will not receive credit for 134 after taking 101 or 201A.  
Description: An introduction to probability, emphasizing concepts and applications. Conditional expectation, independence, laws of large numbers. Discrete and continuous random variables. Central limit theorem. Selected topics such as the Poisson process, Markov chains, characteristic functions.  
(F,SP) 



Concepts of Statistics  Statistics (STAT) 135 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 134 and linear algebra (Mathematics 54 or equivalent). Statistics 133 strongly recommended.  
Description: A comprehensive survey course in statistical theory and methodology. Topics include descriptive statistics, maximum likelihood estimation, nonparametric methods, introduction to optimality, goodnessoffit tests, analysis of variance, bootstrap and computerintensive methods and least squares estimation. The laboratory includes computerbased dataanalytic applications to science and engineering.  
(F,SP) 



Stochastic Processes  Statistics (STAT) 150 [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: 101 or 103A or 134.  
Description: Random walks, discrete time Markov chains, Poisson processes. Further topics such as: continuous time Markov chains, queueing theory, point processes, branching processes, renewal theory, stationary processes, Gaussian processes.  
(SP) 



Linear Modelling: Theory and Applications  Statistics (STAT) 151A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 102 or 135. 133 recommended.  
Description: A coordinated treatment of linear and generalized linear models and their application. Linear regression, analysis of variance and covariance, random effects, design and analysis of experiments, quality improvement, loglinear models for discrete multivariate data, model selection, robustness, graphical techniques, productive use of computers, indepth case studies.  


Linear Modelling: Theory and Applications  Statistics (STAT) 151B [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 102 or 135. 133 recommended.  
Description: A coordinated treatment of linear and generalized linear models and their application. Linear regression, analysis of variance and covariance, random effects, design and analysis of experiments, quality improvement, loglinear models for discrete multivariate data, model selection, robustness, graphical techniques, productive use of computers, indepth case studies.  


Sampling Surveys  Statistics (STAT) 152 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 101 or 134. 133 and 135 recommended.  
Description: Theory and practice of sampling from finite populations. Simple random, stratified, cluster, and double sampling. Sampling with unequal probabilities. Properties of various estimators including ratio, regression, and difference estimators. Error estimation for complex samples.  


Introduction to Time Series  Statistics (STAT) 153 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 101, 134 or consent of instructor. 133 or 135 recommended.  
Description: An introduction to time series analysis in the time domain and spectral domain. Topics will include: estimation of trends and seasonal effects, autoregressive moving average models, forecasting, indicators, harmonic analysis, spectra.  


Modern Statistical Prediction and Machine Learning  Statistics (STAT) 154 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Mathematics 53 and 54 or equivalents; Statistics 135 or equivalent; experience with some programming language. Mathematics 55 or equivalent exposure to counting arguments is recommended but not required.  
Description: Theory and practice of statistical prediction. Contemporary methods as extensions of classical methods. Topics: optimal prediction rules, the curse of dimensionality, empirical risk, linear regression and classification, basis expansions, regularization, splines, the bootstrap, model selection, classification and regression trees, boosting, support vector machines. Computational efficiency versus predictive performance. Emphasis on experience with real data and assessing statistical assumptions.  
(F,SP) 



Game Theory  Statistics (STAT) 155 [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: 101 or 134.  
Description: General theory of zerosum, twoperson games, including games in extensive form and continuous games, and illustrated by detailed study of examples.  
(F,SP) 



Seminar on Topics in Probability and Statistics  Statistics (STAT) 157 [3 units]  
Course Format: Three hours of seminar per week.  
Prerequisites: Mathematics 5354, Statistics 134, 135. Knowledge of scientific computing environment (R or Matlab) often required. Prerequisites might vary with instructor and topics.  
Credit option: Course may be repeated for credit with consent of instructor.  
Description: Substantial student participation required. The topics to be covered each semester that the course may be offered will be announced by the middle of the preceding semester; see departmental bulletins. Recent topics include: Bayesian statistics, statistics and finance, random matrix theory, highdimensional statistics.  


The Design and Analysis of Experiments  Statistics (STAT) 158 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 134 and 135 or consent of instructor. Statistics 135 may be taken concurrently. Statistics 133 is recommended.  
Description: An introduction to the design and analysis of experiments. This course covers planning, conducting, and analyzing statistically designed experiments with an emphasis on handson experience. Standard designs studied include factorial designs, block designs, latin square designs, and repeated measures designs. Other topics covered include the principles of design, randomization, ANOVA, response surface methodoloy, and computer experiments.  


Reproducible and Collaborative Statistical Data Science  Statistics (STAT) 159 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 133, Statistics 134, and Statistics 135 (or equivalent).  
Description: A projectbased introduction to statistical data analysis. Through case studies, computer laboratories, and a term project, students will learn practical techniques and tools for producing statistically sound and appropriate, reproducible, and verifiable computational answers to scientific questions. Course emphasizes version control, testing, process automation, code review, and collaborative programming. Software tools may include Bash, Git, Python, and LaTeX.  
(F,SP) 



Special Study for Honors Candidates  Statistics (STAT) H195 [14 units]  
Course Format:  
Credit option: Course may be repeated for credit.  
Description:  
(F,SP) 



Field Study in Statistics  Statistics (STAT) 197 [13 units]  
Course Format: One to three hours of fieldwork per week.  
Credit option: Course may be repeated for credit. Enrollment is restricted; see the Introduction to Courses and Curricula section of this catalog.  
Grading option: Must be taken on a passed/not passed basis.  
Description: Supervised experience relevant to specific aspects of statistics in offcampus settings. Individual and/or group meetings with faculty.  
(F,SP) 



Directed Study for Undergraduates  Statistics (STAT) 198 [13 units]  
Course Format:  
Prerequisites: Consent of instructor.  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a passed/not passed basis.  
Description: Special tutorial or seminar on selected topics.  
(F,SP) 



Supervised Independent Study and Research  Statistics (STAT) 199 [13 units]  
Course Format:  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a passed/not passed basis.  
Description:  
(F,SP) Staff 



Introduction to Probability and Statistics at an Advanced Level  Statistics (STAT) 200A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Multivariable calculus and one semester of linear algebra.  
Description: Probability spaces, random variables, distributions in probability and statistics, central limit theorem, Poisson processes, transformations involving random variables, estimation, confidence intervals, hypothesis testing, linear models, large sample theory, categorical models, decision theory.  
(F,SP) 



Introduction to Probability and Statistics at an Advanced Level  Statistics (STAT) 200B [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Multivariable calculus and one semester of linear algebra.  
Credit option: Students will receive no credit for Statistics 200A200B after taking  
Description: Probability spaces, random variables, distributions in probability and statistics, central limit theorem, Poisson processes, transformations involving random variables, estimation, confidence intervals, hypothesis testing, linear models, large sample theory, categorical models, decision theory.  
(F,SP) 



Introduction to Probability at an Advanced Level  Statistics (STAT) 201A [4 units]  
Course Format: Six hours of lecture and three hours of laboratory for seven weeks.  
Prerequisites: Multivariable calculus, one semester of linear algebra, and Statistics 134 or consent of instructor.  
Credit option: Students will receive no credit for 201A after taking 200A.  
Description: Distributions in probability and statistics, central limit theorem, Poisson processes, modes of convergence, transformations involving random variables.  
(F) Staff 



Introduction to Statistics at an Advanced Level  Statistics (STAT) 201B [4 units]  
Course Format: Six hours of lecture and three hours of laboratory for seven weeks.  
Prerequisites: Statistics 200A, Statistics 201A, or consent of instructor.  
Description: Estimation, confidence intervals, hypothesis testing, linear models, large sample theory, categorical models, decision theory.  
(F) Staff 



Probability for Applications  Statistics (STAT) 204 [4 units]  
Course Format: Three hours of lecture per week.  
Description: A treatment of ideas and techniques most commonly found in the applications of probability: Gaussian and Poisson processes, limit theorems, large deviation principles, information, Markov chains and Markov chain Monte Carlo, martingales, Brownian motion and diffusion.  
(F) Evans 



Probability Theory  Statistics (STAT) C205A [4 units]  
Course Format: Three hours of lecture per week.  
Description: The course is designed as a sequence with Statistics C205B/Mathematics C218B with the following combined syllabus. Measure theory concepts needed for probability. Expection, distributions. Laws of large numbers and central limit theorems for independent random variables. Characteristic function methods. Conditional expectations, martingales and martingale convergence theorems. Markov chains. Stationary processes. Brownian motion. Also listed as Mathematics C218A.  
Staff 



Probability Theory  Statistics (STAT) C205B [4 units]  
Course Format: Three hours of lecture per week.  
Description: The course is designed as a sequence with with Statistics C205A/Mathematics C218A with the following combined syllabus. Measure theory concepts needed for probability. Expection, distributions. Laws of large numbers and central limit theorems for independent random variables. Characteristic function methods. Conditional expectations, martingales and martingale convergence theorems. Markov chains. Stationary processes. Brownian motion. Also listed as Mathematics C218B.  
Staff 



Advanced Topics in Probability and Stochastic Process  Statistics (STAT) C206A [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Statistics C205AC205B/Mathematics C218A218B or consent of instructor.  
Credit option: Course may be repeated for credit with a different instructor.  
Description: The topics of this course change each semester, and multiple sections may be offered. Advanced topics in probabilty offered according to students demand and faculty availability. Also listed as Mathematics C223A.  
(F,SP) Staff 



Advanced Topics in Probablity and Stochastic Processes  Statistics (STAT) C206B [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Statistics C205AC205B/Mathematics C218AC218B or consent of instructor.  
Credit option: Course may be repeated for credit with a different instructor.  
Description: The topics of this course change each semester, and multiple sections may be offered. Advanced topics in probablity offered according to students demand and faculty availability. Also listed as Mathematics C223B.  
(F,SP) Staff 



Theoretical Statistics  Statistics (STAT) 210A [4 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Linear algebra, real analysis, and a year of upper division probability and statistics.  
Description: An introduction to mathematical statistics, covering both frequentist and Bayesian aspects of modeling, inference, and decisionmaking. Topics include statistical decision theory; point estimation; minimax and admissibility; Bayesian methods; exponential families; hypothesis testing; confidence intervals; small and large sample theory; and Mestimation.  
(F,SP) 



Theoretical Statistics  Statistics (STAT) 210B [4 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Statistics 210A and a graduate level probability course; a good understanding of various notions of stochastic convergence.  
Description: Introduction to modern theory of statistics; empirical processes, influence functions, Mestimation, U and V statistics and associated stochastic decompositions; nonparametric function estimation and associated minimax theory; semiparametric models; Monte Carlo methods and bootstrap methods; distributionfree and equivariant procedures; topics in machine learning. Topics covered may vary with instructor.  
(F) 



Topics in Theoretical Statistics  Statistics (STAT) 212A [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: 210 or 205 and 215.  
Credit option: Course may be repeated for credit with different instructor.  
Description: This course introduces the student to topics of current research interest in theoretical statistics. Recent topics include information theory, multivariate analysis and random matrix theory, highdimensional inference. Typical topics have been model selection; empirical and point processes; the bootstrap, stochastic search, and Monte Carlo integration; information theory and statistics; semi and nonparametric modeling; time series and survival analysis.  


Topics in Theoretical Statistics  Statistics (STAT) 212B [3 units]  
Course Format:  
Description: This course introduces the student to topics of current research interest in theoretical statistics. Recent topics include information theory, multivariate analysis and random matrix theory, highdimensional inference. Typical topics have been model selection; empirical and point processes; the bootstrap, stochastic search, and Monte Carlo integration; information theory and statistics; semi and nonparametric modeling; time series and survival analysis.  


Statistical Models: Theory and Application  Statistics (STAT) 215A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Linear algebra, calculus, upper division probability and statistics, and familiarity with highlevel programming languages. Statistics 133, 134, and 135 recommended.  
Description: Applied statistics with a focus on critical thinking, reasoning skills, and techniques. Handsonexperience with solving real data problems with highlevel programming languages such as R. Emphasis on examining the assumptions behind standard statistical models and methods. Exploratory data analysis (e.g., graphical data summaries, PCAs, clustering analysis). Model formulation, fitting, and validation and testing. Linear regression and generalizations (e.g., GLMs, ridge regression, lasso).  
(F,SP) 



Statistical Models: Theory and Application  Statistics (STAT) 215B [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 215A or consent of instructor.  
Description: Course builds on 215A in developing critical thinking skills and the techniques of advanced applied statistics. Particular topics vary with instructor. Examples of possible topics include planning and design of experiments, ANOVA and random effects models, splines, classification, spatial statistics, categorical data analysis, survival analysis, and multivariate analysis.  
(F,SP) 



Masters of Statistics Capstone Project  Statistics (STAT) 222 [4 units]  
Course Format: Four hours of seminar per week.  
Prerequisites: Statistics 201A201B, 243. Restricted to students who have been admitted to the oneyear Masters Program in Statistics beginning fall 2012 or later.  
Description: The capstone project is part of the masters degree program in statistics. Students engage in professionallyoriented group research under the supervision of a research advisor. The research synthesizes the statistical, computational, economic, and social issues involved in solving complex realworld problems.  
(SP) Staff 



Linear Models  Statistics (STAT) 230A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Matrix algebra, a year of calculus, two semesters of upper division or graduate probability and statistics.  
Description: Theory of least squares estimation, interval estimation, and tests under the general linear fixed effects model with normally distributed errors. Large sample theory for nonnormal linear models. Two and higher way layouts, residual analysis. Effects of departures from the underlying assumptions. Robust alternatives to least squares.  


Experimental Design  Statistics (STAT) 232 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 200B or equivalent.  
Description: Randomization, blocking, factorial design, confounding, fractional replication, response surface methodology, optimal design. Applications.  


Quantitative Methodology in the Social Sciences Seminar  Statistics (STAT) 239A [4 units]  
Course Format: Three hours of lecture and one to two hours of discussion per week.  
Prerequisites: At least one graduate matrix based multivariate regression course in addition to introductory statistics and probability.  
Grading option: Credit and grade to be awarded upon completion of sequence.  
Description: # Approaches to causal inference using the potential outcomes framework. Covers observational studies with and without ignorable treatment assignment, randomized experiments with and without noncompliance, instrumental variables, regression discontinuity, sensitivity analysis and randomization inference. Applications are drawn from a variety of fields including political science, economics, sociology, public health and medicine. # A seminar on successful research designs and a forum for students to discuss the research methods needed in their own work, supplemented by lectures on relevant statistical and computational topics such as matching methods, instrumental variables, regression discontinuity, and Bayesian, maximum likelihood and robust estimation. Applications are drawn from political science, economics, sociology, and public health. Experience with R is assumed.  
(F,SP) Sekhon 



The Statistics of Causal Inference in the Social Science  Statistics (STAT) C239A [4 units]  
Course Format: Three hours of lecture and two hours of discussion per week.  
Prerequisites: At least one multivariate Regression Course.  
Description: Approaches to causal inference using the potential outcomes framework. Covers observational studies with and without ignorable treatment assignment, randomized experiments with and without noncompliance, instrumental variables, regression discontinuity, sensitivity analysis and randomization inference. Applications are drawn from a variety of fields including political science, economics, sociology, public health and medicine. Also listed as Political Science C236A.  
(F,SP) 



Quantitative Methodology in the Social Sciences Seminar  Statistics (STAT) 239B [4 units]  
Course Format: Three hours of lecture and one to two hours of discussion per week.  
Prerequisites: Statistics 239A or equivalent.  
Grading option: Credit and grade to be awarded upon completion of sequence.  
Description: # Approaches to causal inference using the potential outcomes framework. Covers observational studies with and without ignorable treatment assignment, randomized experiments with and without noncompliance, instrumental variables, regression discontinuity, sensitivity analysis and randomization inference. Applications are drawn from a variety of fields including political science, economics, sociology, public health and medicine. # A seminar on successful research designs and a forum for students to discuss the research methods needed in their own work, supplemented by lectures on relevant statistical and computational topics such as matching methods, instrumental variables, regression discontinuity, and Bayesian, maximum likelihood and robust estimation. Applications are drawn from political science, economics, sociology, and public health. Experience with R is assumed.  
(F,SP) 



Nonparametric and Robust Methods  Statistics (STAT) 240 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: A year of upper division probability and statistics.  
Description: Standard nonparametric tests and confidence intervals for continuous and categorical data; nonparametric estimation of quantiles; robust estimation of location and scale parameters. Efficiency comparison with the classical procedures.  
(F) 



Statistical Learning Theory  Statistics (STAT) C241A [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Linear algebra, calculus, basic probability, and statistics, algorithms. Computer Science 289 recommended.  
Description: Classification regression, clustering, dimensionality, reduction, and density estimation. Mixture models, hierarchical models, factorial models, hidden Markov, and state space models, Markov properties, and recursive algorithms for general probabilistic inference nonparametric methods including decision trees, kernal methods, neural networks, and wavelets. Ensemble methods. Also listed as Computer Science C281A.  
(F) Bartlett, Jordan, Wainwright 



Advanced Topics in Learning and Decision Making  Statistics (STAT) C241B [3 units]  
Course Format: Three hours of lecture per week.  
Prerequisites: Computer Science C281A/Statistics C241A.  
Description: Recent topics include: Graphical models and approximate inference algorithms. Markov chain Monte Carlo, mean field and probability propagation methods. Model selection and stochastic realization. Bayesian information theoretic and structural risk minimization approaches. Markov decision processes and partially observable Markov decision processes. Reinforcement learning. Also listed as Computer Science C281B.  
(SP) Bartlett, Jordan, Wainwright 



Introduction to Statistical Computing  Statistics (STAT) 243 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Graduate standing.  
Credit option: Course may be repeated for credit.  
Description: Concepts in statistical programming and statistical computation, including programming principles, data and text manipulation, parallel processing, simulation, numerical linear algebra, and optimization.  
(F) 



Statistical Computing  Statistics (STAT) 244 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Knowledge of a higher level programming language.  
Description: Algorithms in statistical computing: random number generation, generating other distributions, random sampling and permutations. Matrix computations in linear models. Nonlinear optimization with applications to statistical procedures. Other topics of current interest, such as issues of efficiency, and use of graphics.  
(SP) 



Introduction to Modern Biostatistical Theory and Practice  Statistics (STAT) C245A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 200A (may be taken concurrently).  
Description: Course covers major topics in general statistical theory, with a focus on statistical methods in epidemiology. The course provides a broad theoretical framework for understanding the properties of commonlyused and more advanced methods. Emphasis is on estimation in nonparametric models in the context of contingency tables, regression (e.g., linear, logistic), density estimation and more. Topics include maximum likelihood and lossbased estimation, asymptotic linearity/normality, the delta method, bootstrapping, machine learning, targeted maximum likelihood estimation. Comprehension of broad concepts is the main goal, but practical implementation in R is also emphasized. Basic knowledge of probability/statistics and calculus are assume Also listed as Public Health C240A.  
Offered oddnumbered years. (F,SP) Hubbard 



Biostatistical Methods: Survival Analysis and Causality  Statistics (STAT) C245B [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 200B (may be taken concurrently).  
Description: Analysis of survival time data using parametric and nonparametric models, hypothesis testing, and methods for analyzing censored (partially observed) data with covariates. Topics include marginal estimation of a survival function, estimation of a generalized multivariate linear regression model (allowing missing covariates and/or outcomes), estimation of a multiplicative intensity model (such as Cox proportional hazards model) and estimation of causal parameters assuming marginal structural models. General theory for developing locally efficient estimators of the parameters of interest in censored data models. Computing techniques, numerical methods, simulation and general implementation of biostatistical analysis techniques with emphasis on data applications. Also listed as Public Health C240B.  
Offered evennumbered years. (SP) van der Laan 



Biostatistical Methods: Computational Statistics with Applications in Biology and Medicine  Statistics (STAT) C245C [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 200A200B (may be taken concurrently) or consent of instructor.  
Description: This course provides an introduction to computational statistics, with emphasis on statistical methods and software for addressing highdimensional inference problems in biology and medicine. Topics include numerical and graphical data summaries, lossbased estimation (regression, classification, density estimation), smoothing, EM algorithm, Markov chain MonteCarlo, clustering, multiple testing, resampling, hidden Markov models, in silico experiments. Also listed as Public Health C240C.  
Offered evennumbered years. (F) Dudoit 



Biostatistical Methods: Computational Statistics with Applications in Biology and Medicine II  Statistics (STAT) C245D [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 200A200B or Statistics 201A201B (may be taken concurrently) or consent of instructor.  
Description: This course and Pb Hlth C240C/Stat C245C provide an introduction to computational statistics with emphasis on statistical methods and software for addressing highdimensional inference problems that arise in current biological and medical research. The courses also discusses statistical computing resources, with emphasis on the R language and environment (www.rproject.org). Programming topics to be discussed include: data structures, functions, statistical models, graphical procedures, designing an R package, objectoriented programming, intersystem interfaces. The statistical and computational methods are motivated by and illustrated on data structures that arise in current highdimensional inference problems in biology and medicine. Also listed as Public Health C240D.  
(F,SP) Dudoit 



Statistical Genomics  Statistics (STAT) C245E [4 units]  
Course Format: Three hours of lecture and one hour of discussion per week.  
Prerequisites: Statistics 200A and 200B or equivalent (may be taken concurrently). A course in algorithms and knowledge of at least one computing language (e.g., R, matlab) is recommended.  
Description: Genomics is one of the fundamental areas of research in the biological sciences and is rapidly becoming one of the most important application areas in statistics. This is the first course of a twosemester sequence, which provides an introduction to statistical and computational methods for the analysis of meiosis, population genetics, and genetic mapping. The second course is Statistics C245F/Public Health C240F. The courses are primarily intended for graduate students and advanced undergraduate students from the mathematical sciences. Also listed as Public Health C240E.  
(SP) Dudoit, Huang, Nielsen, Song 



Statistical Genomics  Statistics (STAT) C245F [4 units]  
Course Format: Three hours of lecture and one hour of discussion per week.  
Prerequisites: Statistics 200A200B or equivalent (can be taken concurrently). A course in algorithms and knowledge of at least one computing language (e.g., R, matlab) is recommended.  
Description: Genomics is one of the fundamental areas of research in the biological sciences and is rapidly becoming one of the most important application areas in statistics. The first course in this twosemester sequence is Public Health C240E/Statistics C245E. This is the second course, which focuses on sequence analysis, phylogenetics, and highthroughput microarray and sequencing gene expression experiments. The courses are primarily intended for graduate students and advanced undergraduate students from the mathematical sciences. Also listed as Public Health C240F.  
(SP) Dudoit, Huang, Nielsen, Song 



Longitudinal Data Analysis  Statistics (STAT) C247C [4 units]  
Course Format: Three hours of lecture and two hours of discussion per week.  
Prerequisites: Public Health 142, 145, and 241, or equivalent courses in basic statistics, linear and logistic regression.  
Description: The course covers the statistical issues surrounding estimation of effects using data on subjects followed through time. The course emphasizes a regression model approach and discusses disease incidence modeling and both continuous outcome data/linear models and longitudinal extensions to nonlinear models (e.g., logistic and Poisson). The primary focus is from the analysis side, but mathematical intuition behind the procedures will also be discussed. The statistical/mathematical material includes some survival analysis, linear models, logistic and Poisson regression, and matrix algebra for statistics. The course will conclude with an introduction to recently developed causal regression techniques (e.g., marginal structural models). Time permitting, serially correlated data on ecological units will also be discussed. Also listed as Public Health C242C.  
Offered evennumbered years. (SP) Hubbard, Jewell 



Analysis of Time Series  Statistics (STAT) 248 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: 102 or equivalent.  
Description: Frequencybased techniques of time series analysis, spectral theory, linear filters, estimation of spectra, estimation of transfer functions, design, system identification, vectorvalued stationary processes, model building.  


Censored Longitudinal Data and Causality  Statistics (STAT) C249A [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Public Health 240B, Statistics 200A200B, or consent of instructor.  
Description: This course examines optimal robust methods for statistical inference regarding causal and noncausal parameters based on longitudinal data in the presence of informative censoring and informative confounding of treatment. Models presented include multivariate regression models, multiplicative intensity models for counting processes, and causal models such as marginal structural models and structural nested models. Methods will be illustrated with data sets of practical interest and analyzed in the laboratory section. This course, appropriate for advanced masters and Ph.D. students, provides exposure to a number of ongoing research topics. Also listed as Public Health C246A.  
Offered oddnumbered years. (SP) van der Laan 



Reproducible and Collaborative Statistical Data Science  Statistics (STAT) 259 [4 units]  
Course Format: Three hours of lecture and two hours of laboratory per week.  
Prerequisites: Statistics 133, Statistics 134, and Statistics 135 (or equivalent).  
Credit option: Students will receive no credit for Statistics 259 after taking Statistics 159.  
Description: A projectbased introduction to statistical data analysis. Through case studies, computer laboratories, and a term project, students will learn practical techniques and tools for producing statistically sound and appropriate, reproducible, and verifiable computational answers to scientific questions. Course emphasizes version control, testing, process automation, code review, and collaborative programming. Software tools may include Bash, Git, Python, and LaTeX.  
(F,SP) 



Topics in Probability and Statistics  Statistics (STAT) 260 [3 units]  
Course Format: Three hours of lecture per week.  
Credit option: Course may be repeated for credit.  
Description: Special topics in probability and statistics offered according to student demand and faculty availability.  


Quantitative/Statistical Research Methods in Social Sciences  Statistics (STAT) C261 [3 units]  
Course Format: Two hours of lecture per week.  
Prerequisites: Consent of instructor.  
Description: Selected topics in quantitative/statistical methods of research in the social sciences and particularly in sociology. Possible topics include: analysis of qualitative/categorical data; loglinear models and latentstructure analysis; the analysis of crossclassified data having ordered and unordered categories; measure, models, and graphical displays in the analysis of crossclassified data; correspondence analysis, association analysis, and related methods of data analysis. Also listed as Sociology C271D.  


Statistical Consulting  Statistics (STAT) 272 [3 units]  
Course Format: Two hours of session per week and individual meetings as necessary.  
Prerequisites: Some course work in applied statistics and permission of instructor.  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a satisfactory/unsatisfactory basis.  
Description: To be taken concurrently with service as a consultant in the department's dropin consulting service. Participants will work on problems arising in the service and will discuss general ways of handling such problems. There will be working sessions with researchers in substantive fields and occasional lectures on consulting.  
(F,SP) 



Statistics Research Seminar  Statistics (STAT) 278B [14 units]  
Course Format: Two or more hours of seminar per week.  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a satisfactory/unsatisfactory basis.  
Description: Special topics, by means of lectures and informational conferences.  
(F,SP) 



Directed Study for Graduate Students  Statistics (STAT) 298 [112 units]  
Course Format:  
Prerequisites: Consent of instructor.  
Credit option: Course may be repeated for credit.  
Description: Special tutorial or seminar on selected topics.  
(F,SP) 



Individual Study Leading to Higher Degrees  Statistics (STAT) 299 [112 units]  
Course Format:  
Credit option: Course may be repeated for credit.  
Description: Individual study  
(F,SP) 



Professional Preparation: Teaching of Probability and Statistics  Statistics (STAT) 375 [24 units]  
Course Format: One or two hours of lecture and two to four of laboratory per week.  
Prerequisites: Graduate standing and appointment as a graduate student instructor.  
Formerly Statistics 300  
Credit option: Course may be repeated for credit.  
Grading option: Must be taken on a satisfactory/unsatisfactory basis.  
Description: Discussion, problem review and development, guidance of laboratory classes, course development, supervised practice teaching.  
(F,SP) 



Individual Study for Master's Candidates  Statistics (STAT) 601 [18 units]  
Course Format: By appointment.  
Credit option: Course may be repeated for a maximum of 16 units.  
Grading option: Must be taken on a satisfactory/unsatisfactory basis.  
Description: Individual study in consultation with the graduate adviser, intended to provide an opportunity for qualified students to prepare themselves for the master's comprehensive examinations. Units may not be used to meet either unit or residence requirements for a master's degree.  
(F,SP) 



Individual Study for Doctoral Candidates  Statistics (STAT) 602 [18 units]  
Course Format:  
Prerequisites: One year of fulltime graduate study and permission of the graduate adviser.  
Credit option: Course may be repeated for a maximum of 16 units. Course does not satisfy unit or residence requirements for doctoral degree.  
Grading option: Must be taken on a satisfactory/unsatisfactory basis.  
Description: Individual study in consultation with the graduate adviser, intended to provide an opportunity for qualified students to prepare themselves for certain examinations required of candidates for the Ph.D. degree.  
(F,SP) Staff 



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