Computer Science + Anthropology, BS
for the degree of Bachelor of Science Major in Computer Science + Anthropology
Anthropologists use computational tools and algorithms to analyze large amounts of data gathered from a field site or by studying online social communities and social networks. Students majoring in CS + Anthropology will know how people live and communicate as social beings, which can inform the best designs and user interfaces for software.
The CS + Anthropology blended bachelor's degree is a partnership between the Siebel School of Computing and Data Science in The Grainger College of Engineering and the Department of Anthropology in the College of Liberal Arts & Sciences. As part of the computing community at Illinois, you will benefit from being part of a top-five-ranked Computer Science program with world-class faculty and research. Learn more about the School's Rankings and Statistics.
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Curriculum Map
The curriculum sequence mapped below is a sample sequence. Students will work with an academic advisor to achieve educational goals specific to their needs and preparation.
- Course prerequisite chain
- Immediate prerequisite
- Credit or concurrent registration required
- Concurrent registration required
- Postrequisite course sequence
| First Year | Second Year | Third Year | Fourth Year | ||||
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| Fall First Year | Spring First Year | Fall Second Year | Spring Second Year | Fall Third Year | Spring Third Year | Fall Fourth Year | Spring Fourth Year |
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CS 124 (3) Basic concepts in computing and fundamental techniques for solving computational problems. Intended as a first course for computer science majors and others with a deep interest in computing. Course Information: Credit is not given for both CS 124 and CS 125. Prerequisite: Three years of high school mathematics or MATH 112. CS 100 (1)1 Introduction to Computer Science as a field and career for incoming first year and external transfer students in the computer science majors. Overview of the field and specific examples of problem areas and methods of solution. MATH 221 (4)2 First course in calculus and analytic geometry for students with some calculus background; basic techniques of differentiation and integration with applications including curve sketching; antidifferentation, the Riemann integral, fundamental theorem, exponential and trigonometric functions. Course Information: Credit is not given for both MATH 221 and either MATH 220 or MATH 234. Prerequisite: An adequate ALEKS placement score as described at http://math.illinois.edu/ALEKS/ and either one year of high school calculus or a minimum score of 2 on the AB Calculus AP exam. Class Schedule Information: Students must register for one discussion and one lecture section beginning with the same letter. Engineering students must obtain a dean's approval to drop this course after the second week of instruction. LAS 101 (1)3 Design Your First Year Experience orients students to the academic environment at Illinois and establishes a useful framework for engaging in learning both inside and outside the classroom and articulating a purpose for their education. Using design-thinking, students explore campus resources, set goals for their academic, personal and professional development during their first year and make multiple (engagement) maps for reaching those goals. Course Information: Prerequisite: Restricted to first-year students in LAS. RHET 105 (4)4 Introduction in research-based writing and the construction of academic, argumentative essays that use primary and secondary sources as evidence. This course fulfills the Campus Composition I general education requirement. Course Information: Credit is not given for both RHET 105 and any of these other Comp I courses: RHET 101, RHET 102, CMN 111 or CMN 112. Class Schedule Information: Students whose second language is English should take an English placement test through the Division of English as an International Language, before signing up for rhetoric. Engineering students must obtain a dean's approval to drop this course after the second week of instruction. ANTH 101 (3) Anthropology was first envisioned as a holistic discipline, combining insights from the study of human anatomy and evolution, research on material remains of human settlements, and the analysis of social interaction in language and other cultural practices. Following this tradition, this course explores the questions about where humans came from, how societies live and communicate, and why human cultural groups vary. |
CS 128 (3) Continuation of CS 124. More advanced concepts in computing and techniques and approaches for solving computational problems. Course Information: Prerequisite: CS 124 or CS 125. CS 173 (3) Discrete mathematical structures frequently encountered in the study of Computer Science. Sets, propositions, Boolean algebra, induction, recursion, relations, functions, and graphs. Course Information: Credit is not given for both CS 173 and MATH 213. Prerequisite: One of CS 124, CS 125, ECE 220; one of MATH 220, MATH 221. MATH 231 (3) Second course in calculus and analytic geometry: techniques of integration, conic sections, polar coordinates, and infinite series. Course Information: Prerequisite: MATH 220 or MATH 221. Class Schedule Information: Students must register for one discussion and one lecture section beginning with the same letter in Fall and Spring terms only. Engineering students must obtain a dean's approval to drop this course after the second week of instruction. ANTH 110 (3) Scientists are often taught that the skills they need are confined to conducting research in the lab, the field, or the observatory. Yet science is also a human endeavor. If scientists are not taught this lesson, mistakes can be made that have real implications for people's lives, for scientific progress, and for who gets to be a scientist. Therefore this course will introduce 1) a brief history of Western and non-Western science, 2) the influences of social categories and oppressions on scientific advancement, 3) the incentive and reward structure of science, and 4) stories of scientists who have chosen to walk a brave path in the way they conduct and disseminate their research. We will engage in a mix of ethnographic and case study work and bring interpretive and systematic analysis to bear on what it means to be a scientist. The ultimate goal of the course is to provide a substantive, rigorous, and broad introduction to the culture of science, and how that culture affects the people GEE (3)5 |
CS 225 (4) Data abstractions: elementary data structures (lists, stacks, queues, and trees) and their implementation using an object-oriented programming language. Solutions to a variety of computational problems such as search on graphs and trees. Elementary analysis of algorithms. Course Information: Credit is not given for CS 277 if credit for CS 225 has been earned. Prerequisite: CS 126 or CS 128 or ECE 220; One of CS 173, MATH 213, MATH 347, MATH 412 or MATH 413. Class Schedule Information: Students must register for one lecture-discussion and one lecture section. CS 222 (1) Design and implementation of novel software solutions. Problem identification and definition; idea generation and evaluation; and software implementation, testing, and deployment. Emphasizes software development best practices?including framework selection, code review, documentation, appropriate library usage, project management, continuous integration and testing, and teamwork. Course Information: Prerequisite: CS 128; credit or concurrent registration in CS 225. Restricted to majors in Computer Science undergraduate curricula only. MATH 257 (3)6 Introductory course incorporating linear algebra concepts with computational tools, with real world applications to science, engineering and data science. Topics include linear equations, matrix operations, vector spaces, linear transformations, eigenvalues, eigenvectors, inner products and norms, orthogonality, linear regression, equilibrium, linear dynamical systems and the singular value decomposition. Course Information: Credit is not given for both MATH 257 and any of MATH 125, MATH 225, MATH 227, MATH 415 or ASRM 406. Prerequisite: MATH 220 or MATH 221; CS 101 or equivalent programming experience. Class Schedule Information: Students must register for a lecture, a lab, and a discussion section. ANTH 102 (3)7 Explores the origin and evolution of humans with an emphasis on reconstructing and interpreting fossil evidence. It provides an introduction to the fundamentals of biological anthropology and draws on a diverse range of other disciplines that contribute to the study of human evolution ? evolutionary biology, population genetics, comparative anatomy, primatology, archaeology, geology and paleoecology. We examine the fossil and artifact record of the last several million years in order to develop an understanding of why we are interesting animals and a somewhat unique species. GEE (3)5 |
CS 233 (4)9 Fundamentals of computer architecture: digital logic design, working up from the logic gate level to understand the function of a simple computer; machine-level programming to understand implementation of high-level languages; performance models of modern computer architectures to enable performance optimization of software; hardware primitives for parallelism and security. Course Information: Prerequisite: CS 125 or CS 128; CS 173 or MATH 213; credit or concurrent enrollment in CS 225. CS 361 (3) Introduction to probability theory and statistics with applications to computer science. Topics include: visualizing datasets, summarizing data, basic descriptive statistics, conditional probability, independence, Bayes theorem, random variables, joint and conditional distributions, expectation, variance and covariance, central limit theorem. Markov inequality, Chebyshev inequality, law of large numbers, Markov chains, simulation, the PageRank algorithm, populations and sampling, sample mean, standard error, maximum likelihood estimation, Bayes estimation, hypothesis testing, confidence intervals, linear regression, principal component analysis, classification, and decision trees. Course Information: Same as STAT 361. Credit is not given for both CS 361 and ECE 313. Prerequisite: MATH 220 or MATH 221; credit or concurrent registration in one of MATH 225, MATH 257, MATH 415, MATH 416 or ASRM 406. For majors only. ANTH 105 (3)8 Using archaeological data, traces our prehistoric heritage and the processes which led to the evolution of agriculture, settled villages, and civilization in many areas of the world. Lectures range from the earliest Homo sapiens to Sumeria, Egypt, Mexico, Peru, and the United States. GEE (3)5 FE (3)13 |
CS 341 (4)9 Basics of system programming, including POSIX processes, process control, inter-process communication, synchronization, signals, simple memory management, file I/O and directories, shell programming, socket network programming, RPC programming in distributed systems, basic security mechanisms, and standard tools for systems programming such as debugging tools. Course Information: Credit is not given for both CS 341 and either CS 241 or ECE 391. Prerequisite: CS 225 and CS 233. Class Schedule Information: Students must register for one lecture and one discussion section. ANTH 374 (3)12 Examination of science as a cultural system. Utilizing ethnographic methods and social theories, the course will locate scientific knowledge, institutions and practices within enduring anthropological questions around rationality and truth, meaning, personhood, sociality, power inequalities, social transformations, and social justice. Course Information: Prerequisite: Junior standing. ANTH 103 (3)11 Presents the fundamental areas of anthropological analysis through a series of comparative cases that emphasize social and cultural relations in global contexts. Directs attention to the anthropological history of global empires and colonial states, their cultural exchanges, and contemporary studies of culture, society, and globalization. GEE (3)5 FE (3)13 |
CS 374 (4) Analysis of algorithms, major paradigms of algorithm design including recursive algorithms, divide-and-conquer algorithms, dynamic programming, greedy algorithms, and graph algorithms. Formal models of computation including finite automata and Turing machines. Limitations of computation arising from fundamental notions of algorithm and from complexity-theoretic constraints. Reductions, undecidability and NP-completeness. Course Information: Same as ECE 374. Prerequisite: One of CS 173, MATH 213; CS 225. ANTH 270 (3)10 Examines the intersections of culture and language. Topics include the definition of language; the cultural shaping of discourse and narrative; how different linguistic systems guide speakers to think differently about the world; and how ideologies about language relate to beliefs about the nation, modernity, race, and gender. Course Information: Prerequisite: Gen Ed. Composition 1. ANTHElective (3-4) GEE (3)5 FE (3)13 |
CS 421 (3-4) Structure of programming languages and their implementation. Basic language design principles; abstract data types; functional languages; type systems; object-oriented languages. Basics of lexing, parsing, syntax-directed translation, semantic analysis, and code generation. Course Information: 3 undergraduate hours. 3 or 4 graduate hours. Prerequisite: One of CS 233, CS 240 or CS 340; CS 374; one of MATH 225, MATH 257, MATH 415, MATH 416, ASRM 406, BIOE 210. ANTHElective (3-4) FE (3)13 FE (3)13 FE (3)13 |
ANTHElective (3-4) FE (3)13 FE (3)13 FE (3)13 |
| 16 hours | 15 hours | 14 hours | 16 hours | 16 hours | 16-17 hours | 15-17 hours | 12-13 hours |
Notes
Before reviewing the links, students should find their effective Academic Catalog Year. When clicking any links referenced below that take students to the Academic Catalog Year pages, they should be mindful of which Academic Catalog year is displayed.
- This optional course is highly recommended for freshmen, who may use it to help meet free elective requirements.
- MATH 220 may be substituted. MATH 220 is appropriate for students with no background in calculus.
- LAS 102 may be used for external transfer students. LAS 100 is supplemental course international students take along with LAS 101/102/122.
- RHET 105 (or an alternative Composition I sequence) is taken either in the first or second semester of the first year, according to the student's UIN (Spring if UIN is Odd). General Education Elective is taken the other semester. Composition I guidelines can be found at Degree and General Education Requirements under Written Communication Requirement.
- General education: Students must complete the Campus General Education requirements including the campus general education language requirement.
- MATH 225 may be substituted.
- ANTH 240 may be substituted.
- ANTH 220 may be substituted.
- CS 340 and two (2) CS technical electives (400 level CS courses) can be use to substiute the CS 233 and CS 341 requirements. The 2 technical electives must be distinct from courses used to satisfy other major requirements and can replace Free Electives.
- ANTH 104 may be substituted.
- ANTH 230 may be substituted.
- ANTH 372 may be substituted.
- Additional coursework, subject to College of Liberal Arts and Sciences restrictions to Free Electives, so that there are at least 120 credit hours earned toward the degree.
The code used to present this flowsheet is based on original work shared by the University at Buffalo School of Engineering and Applied Sciences.