• 12-21 units per quarter

• CS1
• CS31
• Math 32a
• Poli Sci 10

• CS32
• CS35L
• Math 33A
• Math 61

• CS33
• Math 33B
• CS180

• Math 32B
• CS111
• Phys 1A
• GE

• CS118
• CS131
• CS181

• CS132
• CSM51A
• Phys 1B
• GE

• Phys 1C

• CSM152A
• ECE100
• Phys 4AL
• GE

• CSM151B
• ECE102
• ECE115
• GE

• Seminar, one hour; discussion, one hour. Introduction to department resources and principal topics and key ideas in computer science and computer engineering. Assignments given to bolster independent study and writing skills. Letter grading.
• Requirements: NONE
• Difficulty: ULTRA EASY
• Units 1.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Introduction to computer science via theory, applications, and programming. Basic data types, operators and control structures. Input/output. Procedural and data abstraction. Introduction to object-oriented software development. Functions, recursion. Arrays, strings, pointers. Abstract data types, object-oriented programming. Examples and exercises from computer science theory and applications. Letter grading.
• Requirements: NONE
• Difficulty: ULTRA EASY
• Units 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisite: course 31. Object-oriented software development. Abstract data type definition and use. Overloading, inheritance, polymorphism. Object-oriented view of data structures: stacks, queues, lists. Algorithm analysis. Trees, graphs, and associated algorithms. Searching and sorting. Case studies and exercises from computer science applications. Letter grading.
• Requirements: CS31
• Difficulty: EASY
• Units 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, nine hours. Enforced requisite: course 32. Introductory course on computer architecture, assembly language, and operating systems fundamentals. Number systems, machine language, and assembly language. Procedure calls, stacks, interrupts, and traps. Assemblers, linkers, and loaders. Operating systems concepts: processes and process management, input/output (I/O) programming, memory management, file systems. Letter grading.
• Requirements: CS32
• Difficulty: HARD
• Units 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Requisite: course 31. Fundamentals of tools and environments for software construction projects, particularly open-source platforms used in upper-division computer science courses. Software practice through collaborative student project. Letter grading.
• Requirements: CS31
• Difficulty: ULTRA EASY
• Units 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; laboratory, two hours; outside study, nine hours. Enforced requisites: courses 32, 33, 35L. Introduction to operating systems design and evaluation. Computer software systems performance, robustness, and functionality. Kernel structure, bootstrapping, input/output (I/O) devices and interrupts. Processes and threads; address spaces, memory management, and virtual memory. Scheduling, synchronization. File systems: layout, performance, robustness. Distributed systems: networking, remote procedure call (RPC), asynchronous RPC, distributed file systems, transactions. Protection and security. Exercises involving applications using, and internals of, real-world operating systems. Letter grading.
• Requirements: CS32 AND CS33 AND CS35L
• Difficulty: HARD
• Units 5.0
• Notes: Don't take same quarter as CS131

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisite: course 111. Designed for juniors/seniors. Introduction to design and performance evaluation of computer networks, including such topics as what protocols are, layered network architecture, Internet protocol architecture, network applications, transport protocols, routing algorithms and protocols, internetworking, congestion control, and link layer protocols including Ethernet and wireless channels. Letter grading.
• Requirements: CS111
• Difficulty: MEDIUM
• Units: 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; laboratory, two hours; outside study, six hours. Enforced requisites: courses 33, 35L. Basic concepts in design and use of programming languages, including abstraction, modularity, control mechanisms, types, declarations, syntax, and semantics. Study of several different language paradigms, including functional, object-oriented, and logic programming. Letter grading.
• Requirements: CS33 AND CS35L
• Difficulty: MEDIUM
• Units: 4.0
• Notes: Don't take same quarter as CS111

• Syllabus
• (Same as Electrical and Computer Engineering M16.) Lecture, four hours; discussion, two hours; outside study, six hours. Introduction to digital systems. Specification and implementation of combinational and sequential systems. Standard logic modules and programmable logic arrays. Specification and implementation of algorithmic systems: data and control sections. Number systems and arithmetic algorithms. Error control codes for digital information. Letter grading.
• Requirements: NONE
• Difficulty: MEDIUM
• Units 4.0
• Notes: NONE

• Syllabus
• (Same as Electrical and Computer Engineering M116L.) Laboratory, four hours; outside study, two hours. Enforced requisite: course M51A or Electrical and Computer Engineering M16. Hands-on design, implementation, and debugging of digital logic circuits, use of computer-aided design tools for schematic capture and simulation, implementation of complex circuits using programmed array logic, design projects. Letter grading.
• Requirements: CSM51A
• Difficulty: HARD
• Units: 2.0
• Notes: NONE

• Syllabus
• (Same as Electrical and Computer Engineering M116C.) Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisites: courses 33, and M51A or Electrical and Computer Engineering M16. Recommended: courses 111, and M152A or Electrical and Computer Engineering M116L. Computer system organization and design, implementation of CPU datapath and control, instruction set design, memory hierarchy (caches, main memory, virtual memory) organization and management, input/output subsystems (bus structures, interrupts, DMA), performance evaluation, pipelined processors. Letter grading.
• Requirements: CS33 AND CSM51A
• Recommended: CS111 AND CSM152A
• Difficulty: HARD
• Units 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisites: course 32, Mathematics 61. Designed for junior/senior Computer Science majors. Introduction to design and analysis of algorithms. Design techniques: divide-and-conquer, greedy method, dynamic programming; selection of prototypical algorithms; choice of data structures and representations; complexity measures: time, space, upper, lower bounds, asymptotic complexity; NP-completeness. Letter grading.
• Requirements: CS32 AND Math 61
• Difficulty: MEDIUM
• Units: 4.0
• Notes: NONE

• Syllabus
• Lecture, four hours; discussion, two hours; outside study, six hours. Enforced requisite: course 180. Designed for junior/senior Computer Science majors. Grammars, automata, and languages. Finite-state languages and finite-state automata. Context-free languages and pushdown story automata. Unrestricted rewriting systems, recursively enumerable and recursive languages, and Turing machines. Closure properties, pumping lemmas, and decision algorithms. Introduction to computability. Letter grading.
• Requirements: CS180
• Difficulty: MEDIUM
• Units: 4.0
• Notes: NONE

• Lecture, two hours; laboratory, two hours; outside study, eight hours. Introduction to field of electrical engineering. Basic circuits techniques with application to explanation of electrical engineering inventions such as telecommunications, electrical grid, automatic computing and control, and enabling device technology. Research frontiers of electrical engineering. Introduction to measurement and design of electrical circuits. Letter grading.
• Requirements: NONE
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour; outside study, eight hours. Requisites: Mathematics 33A, 33B or Mechanical and Aerospace Engineering 82, Physics 1C. Not open for credit to students with credit for course 110. Electrical quantities, linear circuit elements, circuit principles, signal waveforms, transient and steady state circuit behavior, semiconductor diodes and transistors, small signal models, and operational amplifiers. Letter grading.
• Requirements: Math 33A AND Math 33B AND Physics 1C
• Units: 4.0
• Notes: NONE

• Lecture, four hours; discussion, one hour; outside study, seven hours. Requisites: course 100 or 115A, and Computer Science M51A. Transistor-level digital circuit analysis and design. Modern logic families (static CMOS, pass-transistor, dynamic logic), integrated circuit (IC) layout, digital circuits (logic gates, flipflops/latches, counters, etc.), computer-aided simulation of digital circuits. Letter grading.
• Requirements: ECE 100 AND CS M51A
• Units: 4.0
• Notes: NONE

• Lecture, four hours; discussion, one hour; outside study, seven hours. Requisite: Mathematics 33A. Corequisite: Mathematics 33B. Elements of differential equations, first- and second-order equations, variation of parameters method and method of undetermined coefficients, existence and uniqueness. Systems: input/output description, linearity, time-invariance, and causality. Impulse response functions, superposition and convolution integrals. Laplace transforms and system functions. Fourier series and transforms. Frequency responses, responses of systems to periodic signals. Sampling theorem. Letter grading.
• Requirements: Math 33A
• Corequisites: Math 33B
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Preparation: at least three and one half years of high school mathematics (including some coordinate geometry and trigonometry). Requisite: successful completion of Mathematics Diagnostic Test or course 1 with grade of C- or better. Differential calculus and applications; introduction to integration. P/NP or letter grading.
• Requirements: NONE
• Units: 4.0
• Notes: NONE
• SKIPPED

• Lecture, three hours; discussion, one hour. Requisite: course 31A with grade of C- or better. Not open for credit to students with credit for course 3B. Transcendental functions; methods and applications of integration; sequences and series. P/NP or letter grading.
• Requirements: Math 31A
• Units: 4.0
• Notes: NONE
• SKIPPED

• Lecture, three hours; discussion, one hour. Enforced requisite: course 31A with grade of C- or better. Introduction to differential calculus of several variables, vector field theory. P/NP or letter grading.
• Requirements: NONE
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Enforced requisites: courses 31B and 32A, with grades of C- or better. Introduction to integral calculus of several variables, line and surface integrals. P/NP or letter grading.
• Requirements: Math 31B AND Math 32A
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Enforced requisite: course 3B or 31B or 32A with grade of C- or better. Introduction to linear algebra: systems of linear equations, matrix algebra, linear independence, subspaces, bases and dimension, orthogonality, least-squares methods, determinants, eigenvalues and eigenvectors, matrix diagonalization, and symmetric matrices. P/NP or letter grading.
• Requirements: Math 31B OR Math 32A
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Enforced requisite: course 31B with grade of C- or better. Highly recommended: course 33A. First-order, linear differential equations; second-order, linear differential equations with constant coefficients; power series solutions; linear systems. P/NP or letter grading.
• Requirements: Math 31B
• Recommended: Math 33A
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Requisites: courses 31A, 31B. Not open for credit to students with credit for course 180 or 184. Discrete structures commonly used in computer science and mathematics, including sets and relations, permutations and combinations, graphs and trees, induction. P/NP or letter grading.
• Requirements: Math 31A AND Math 31B
• Units: 4.0
• Notes: NONE

• Lecture/demonstration, four hours; discussion, one hour. Enforced requisites: Mathematics 31A, 31B. Enforced corequisite: Mathematics 32A. Motion, Newton laws, work, energy, linear and angular momentum, rotation, equilibrium, gravitation. P/NP or letter grading.
• Requirements: Math 31A AND Math 31B
• Units: 5.0
• Notes: NONE

• Lecture/demonstration, four hours; discussion, one hour. Enforced requisites: course 1A, Mathematics 31B, 32A. Enforced corequisite: Mathematics 32B. Fluid mechanics, oscillation, mechanical waves, and sound. Electric charge, field and potential, capacitors, and dielectrics. Currents and resistance, direct-current circuits. P/NP or letter grading.
• Requirements: Physics 1A AND Math 33B AND Math 31A AND Math 31B
• Units: 5.0
• Notes: NONE

• Lecture/demonstration, four hours; discussion, one hour. Enforced requisites: course 1A, 1B, Mathematics 32A, 32B. Enforced corequisite: Mathematics 33A. Magnetic fields, Ampere's law, Faraday's law, inductance, and alternating current circuits. Maxwell's equations, electromagnetic waves, light, geometrical optics, interference and diffraction. Special relativity. P/NP or letter grading.
• Requirements: Physics 1A AND Physics 1B AND Math 32A AND Math 32B
• Units: 5.0
• Notes: NONE

• Laboratory, four hours. Enforced requisite: course 1A or 1AH. Enforced corequisite: course 1B or 1BH. Computerized measurements of uniform and accelerated motion, including oscillations. Analysis of data and comparison of results to predictions, including least-squares fitting. Conception, execution, and presentation of creative projects involving motion. Letter grading.
• Requirements: Physics 1B
• Units: 2.0
• Notes: NONE

• Definitely some sort of EE, that's what I'm weakest in.

• HARD: ECE 131A
• HARD: Math 170A
• MEDIUM: Math 170E
• EASY: Stats 100A
• ULTRA EASY: C&EE 110

• Lecture, four hours; discussion, one hour; outside study, 10 hours. Requisites: course 102 (enforced), Mathematics 32B, 33B. Introduction to basic concepts of probability, including random variables and vectors, distributions and densities, moments, characteristic functions, and limit theorems. Applications to communication, control, and signal processing. Introduction to computer simulation and generation of random events. Letter grading.
• Requirements: ECE102 AND Math 32B AND Math 33B
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Requisites: courses 32B, 33B. Recommended: course 115A. Rigorous introduction to foundations of real analysis; real numbers, point set topology in Euclidean space, functions, continuity. P/NP or letter grading.
• Requirements: Math 32B AND Math 33B
• Units: 4.0
• Notes: NONE

• Lecture, three hours; discussion, one hour. Requisites: courses 32B, 33A, 131A. Not open to students with credit for course 170E, Electrical and Computer Engineering 131A, or Statistics 100A. Rigorous presentation of probability theory based on real analysis. Probability space, probability and conditional probability, independence, Bayes' rule, discrete and continuous random variables and their distributions, expectation, moments and variance, conditional distribution and expectation, weak law of large numbers. P/NP or letter grading.
• Requirements: Math 32B AND Math 33A AND Math 131A
• Units: 4.0
• Notes: NONE

• 152B?? More info needed

• https://www.seasoasa.ucla.edu/computer-science-worksheets/
• https://registrar.ucla.edu/registration-classes/enrollment-appointments/enrollment-appointments
• https://www.seasoasa.ucla.edu/ecr/
• https://registrar.ucla.edu/academics/course-descriptions?search=Computer+Science
• https://registrar.ucla.edu/academics/course-descriptions?search=Electrical+and+Computer+Engineering
• https://www.seasoasa.ucla.edu/undergraduate-technical-breadth-area-tba/

• Study List: All classes in which you are enrolled in a given term
• Degree Audit Report: Tracks degree requirements, tailored to your major, minor and college/school
• School Advisor: Provides information about school requirements towards a UCLA degree
• Department Advisor: Provides information about major/minor requirements in various academic deaprments
• Major: An area of study that you focus on to receive your bachelor's degree
• Minor: A secondary field of study that enhances the bachelor's degree, usually consisting of 5-7 courses
• GE: Requirements intended to introduce fundamental ideas in the arts, humanities, social sciences, and sciences
• Unit Credit: Academic work that is measured by units that also determines a student's class level
• UCLA Course Credit: Transferable work or courses that translate to specific UCLA courses and may apply to UCLA requirements
• Title Credit: Transferable work or courses that are not equivalent to a specific UCLA course but still grant unit credit and may apply to UCLA requirements
• Grade Credit: Coursework that factors into the UCLA GPA

• Writing 1 Requirements

• Engineering Writing

  • Satisified by taking an ethics course

• Ethics

  • ENGR 181EW, 182EW, 183EW, 185EW, 188EW

• Technical Breadth

  • 12 unit requirement that provides sufficient breadth outside of the student's core program
  • None of the technical breadth requirement courses selected can be used to satisfy other major course reuquirements
  • A list of HSSEAS Faculty Executive Committee-approved technical breadth requirement courses is available in the Office of Academic and Student Affairs
  • Deviation from that list are subject to approval by the associate dean for Academic and Student Affairs

• General Education

  • Foundations of the Arts and Humanities (1 from 2 of the subgroups):
    • Literary and Cultural Analaysis (1 course)
    • Philosophical and Linguistic Analysis (1 course)
    • Visual and Performance Art Analysis and Practice (1 course)
  • Foundations of Society and Culture (2 courses):
    • Social Analysis (1 course)
    • Historical Analysis (1 course)
  • Foundations of Scientific Inquiry (1 course)
    • Life Sciences (1 course)
  • GE courses can double as major requirements

• Lower Division: (1-99)

  • Designed as first and second year content
  • Includes: GE courses, prearation for the major, pre-requisites

• Upper Division (100-199):

  • Designed as third and fourth year content
  • 60 unit minimum required for graduation
  • Includes: Major/minor requirements, upper division electives, GE

• Preparation courses are usually Lower Division(LD) courses numbered 1-99

• Students must complete 180-185 units to graduate but must finish their degree before reaching 213 units
• Students should be taking at least 45 units per year
• Students are expected to complete their undergraduate degree within 4 years as an incoming first year student and 2 years as a transfer student

• End of week 2, MyUCLA, $0, No transcript notation

• Weeks 3-10, Petition, $20, Yes

• Classes dropped after Week 10 granted in rare cases

• Add/Drop Policy: Non-Impacted Courses:

• End of Week 2, $0, No transcript notation

• End of Week 4, $5, No transcript notation

• Weeks 5-10, $20, Yes transcript notation

• Students in the School of Engineering can enroll in 5 units of P/NP coursework per quarter if they meet the following conditions:
  • In good academic standing (2.0 or higher term and cumulative GPA)
  • Enrolled in at least 9 units for a letter grade for the current quarter
  • Has no t received two NP grades, students who receive two NP grades are excluded from electing courses on a P/NP basis for one quarter
  • Not repeating a course in which a C- or lower has been earned
• These units do not count towards the student's GPA

• A student may repeat up to 16 units of graded coursework from any UC provided they received a grade of "C-" or lower
• A course taken for a grade may only be repeated once
  • The second grade will be computed into the student's GPA

• A+/A: 4.0
• A-: 3.7
• B+: 3.3
• B: 3.0
• B-: 2.7
• C+: 2.3
• C: 2.0
• C-: 1.7
• D+: 1.3
• D: 1.0
• D-: 0.7
• F: 0.0

• One-unit course taken mandatory Passed/Not Passed

• D- passing grade
• Major required courses must be graded not P/NP

• A course may be repeated ONCE and the 2nd grade will replace the first grade in your GPA calculations
  • For up to the first 16 units of repeated
  • For grades earned of a C- or lower
• If you need to take the course as a requirement you can do it again

• Free drop-in tutoring
  • TBP: https://tbp.seas.ucla.edu/schedule
  • HKN: https://hkn.ee.ucla.edu/ You can see the tutoring at the top
  • UPE: https://upe.seas.ucla.edu/tutoring/

• Counselor at 6426 Boelter Hall or via Message Center https://seasoasa.ucla.edu/counselors/
• DARS - Review your academic progress through our Degree Auditing Report Service (found on myUCLA under Academics)

• ENGR 23,24,25

• ENGR 95/195

• 99/199

• Talk with your faculty adviser in weeks 1-3 of the quarter, look for an email from them about their hours which are held quarterly

  • You can meet with a friend

• https://samueli.ucla.edu/student-clubs-organizations/
• Look out for remote/virtual events in the Fall Quarter

• Entry level writing (satisified)
• American History and Institution Requirement (Satisfied)
• Writing 1 - Satisfy with English Comp 3
• Engineering Ethics/Writing: One from ENGR 181EW, 182EW, 183EW, 185EW
  • EW = (Ethics) + (Writing)

• Foundations of Arts and Humanities, subcategories (Take 2):
  • Literary and Cultural Analysis (LCA)
  • Philosophical and Linguistics Analysis (PLA)
  • Visual and Performance Arts Analysis (VPA)
• Foundations of Society and Culture, subcategories (Take 2):
  • Historical Analysis (HAN)
  • Social Analysis (SAN)
• Foundations of Scientific Inquiry, subcategories (Take 2):
  • Life Sciences (LS)
  • Physics (Probably satisifed)

• AP Physics
  • Physics C Mechanics (4/5) may apply credit for Physics 1A
• AP credit for Mathematics
  • AB (5) or BC (4) - may apply credit for MATH 31A
  • BC (5) - MATH 31A and may apply credit toward MATH 31B

• Freshman Seminar
  • Introduce to major
• A science course (Computer Science Course for computer majors)
• A math course
• A GE of Eng Comp 3

• Schedule of Classes
• General Catalog
• Links to all academic departments
• Course descriptions
• Fee and residence information
• Academic calendars with all college deadlines, holidays

• Complete listing of classes offered at UCLA during a given term
• During New Student Session, you will use the Class Planner to look for and enroll in courses

• Charges are due the 20th of the month following the month they were posted.
• Tuition & Housing due September 20, December 20, and March 20

• UCLA offers the option ot pay tuition in three monthly installments per quarter instead
• studentaccounts.ucla.edu

• Financial Aid Resources include:
  • Electronic Financial Aid Notification (eFAN)
  • Financial Aid Summary
  • Financial Aid Document Tracking
  • Tax Withholding Report
  • Disbursement Summary
• financialaid.ucla.edu

• ???

• See if you have any holds on your account
• Shows the nature of the hold, the office that issued the hold, and the date the hold takes effect

• Holds can:
  • Prevent enrollment, graduation, or ordering of transcripts or diploma
• Holds can be placed for a variety of reasons:
  • Check for BruinBill, Failure to pay any one or more of fees on time
  • Verification of Immunizations
  • ECP
  • Title IX Education Training

• Candidacy term is the term (quarter) that a student expects to finish their UCLA degree, making you eligible for earlier enrollment appointments as a senior
• Automatically declared
• Speak to college advisor to change

Classes->Class Planner->Fall

• First Quarter schedule

  • Each student will be enrolling in three classes
  • An acceptable fourth course would be either a Fiat Lux or University Studies

• Check final exam times

  • Scheduling finals on the same day is discouraged

• Plan to include alternate classes

  • Alternates include: different discussions for a course, different lecture times for a course, or a different course entirely
  • Have at least 3 alternates per course in case your first options fills up

• Spend time planning!

  • The more time you spend planning, the smoother your enrollment process will be
  • Go to Course Planning Assistance for additional help scheduling your classes

• bruinlearn.ucla.edu