ABSTRACT The future challenges of genomic science are enormous. Data sets continue to grow; with high-throughput technologies, and Biobank datasets, studies with105 cases and107 markers will soon be commonplace. Electronic health record (EHR) datasets are also rapidly expanding. Health data will soon be routinely collected from mobile and wearable devices, dramatically increasing their volume and utility. This data is critically important for advancing the understanding of human diversity and disease. Precision health and predictive medicine raise the stakes even further. It is imperative that all genomic researchers in the 21st century have a command of the quantitative and computational Big Data tools necessary for genomic research at this scale. The goal of this program is to provide training in next generation mathematical and statistical theory and computational methods for genomics and Big Data analysis. The program is designed for (1) researchers at the postdoctoral and early career level; (2) more senior biomedical researchers transitioning to more quantitative genomic research, with the goal of acquiring new research skills or updating existing knowledge; and (3) more senior computational scientists who wish to apply their methods in a new domain, and gain contacts among researchers active in those fields. Our program is useful for those trainee researchers whose career focus is computational methods development, but will also be useful for those researchers who want to add a genomics methods development component to their research program. We propose to create a one-week workshop on genomics and next generation computational statistics for Big Data to be held on the campus of the University of California, Los Angeles. The week will include a program of lectures, tutorials, hands-on teaching labs and exercises, and project-based one-on-one sessions with Program Faculty genomic scientists. The participants will be provided with 1) training in statistical and mathematical genomics theory; 2) training in the use of statistical and computational methods and tools to analyze genomic data; 3) training in computational methods development; 4) exposure to cutting edge research; 5) opportunities to consult, collaborate, and build mentoring relationships with Program Faculty genomic experts from multiple institutions and specialties. All materials from the one-week course will be recorded and made freely available online for access to any interested researcher. A central goal of the program is to help increase diversity in the biomedical workforce. We will plan a vigorous outreach effort with our well-established network of outreach partners to attract diverse participants. Our very diverse Program Faculty will aid in our diversity outreach and effective mentoring efforts. In addition, we plan to offer a series of Diversity Scholarships to attract participants from groups under-represented in the sciences. We will also offer diversity scholarships...