Undergraduate Curriculum Review Committee

1. Undergraduate Curriculum Review Committee Progress Report

2. Background • Some concerns about recent changes to lower level courses, such as • Content overlap between 212 and 311, • Concerns about the intellectual content of 212 • Uncertainties as to what students entering 400-level know • Impact on ECE unclear

3. The Committee & its Charter • Committee Members • Adam Porter (chair), Ben Bederson, Fawzi Ewad, Bruce Jacob (ECE), Nelson Padua-Perez, Jan Plane, Jim Reggia, Hanan Samet & Alan Sussman • General Charter • Evaluate success of the new introductory sequence • Examine curriculum up through 300-level. See how its supports 400-level courses • If necessary, suggest modifications for further discussion

4. Specific Instructions • Talk with field committees & faculty to capture well defined expectations of what knowledge, experiences & skills students entering the 400-level courses should have • Map these expectations to the material taught in lower-level courses • Use this map to ground further discussion & suggestions for curriculum changes

5. Executive Summary • Lots of work directed at individual courses • In specific cases, outcomes have been poor • Poor fit with overall educational mission • Excessive content overlap and inadequate information flows • Inappropriate quantity and complexity of concepts • Unrealistic scheduling constraints

6. Mapping our Curriculum • Asked faculty to define input assumptions (IN) & expected outcomes (OUT) for a variety of courses • Also gathered other information from course web pages, discussions with instructors & students and the official prerequisite structure • Built a map of UG curriculum • Captured IN & OUT for each course • Traced the flow of concepts between courses • Some limitations • Faculty responses may be incomplete or incorrect • Manually disambiguated concept descriptions • Some 400-level courses left out of survey

7. Analysis Goals • Identify & assess content gaps and overlaps • Identify content on critical path • Examine how courses contribute to curriculum-wide content delivery needs • Observations divided into 3 groups • Structure: presense/absence & direction of information flows • Content: deeper examination of specific content • Pedagogical observations • Next slides highlight some findings. For details see • www.cs.umd.edu/~aporter/Committee/coursemap.html

8. Structural Analysis • 100-level courses have many OUT concepts • Some OUT concepts have no sinks • CMSC212 has multiple, very different constituencies • CMSC330 serves few follow-on courses (but is still a prerequisites for all 400-level courses)

9. Content Analysis • Prerequisite structure is highly serialized. Very hard to fit program into 4 years • Logical threads: theory (250  351), systems (212  311) & software (212  330). Confirms CMSC212 has divided focus • Content overlap in CMSC212 and CMSC311. The content of CMSC311 has been inconsistent from semester to semester

10. Pedagogical Observations • Some students overwhelmed by content of introductory courses. Some professors unhappy with student’s mastery of basic computer science concepts and implementation techniques • Abstraction vs. Implementation. 100-level courses may be too abstract. Shift to system-level implementation in CMSC212 may be too abrupt • Developmentally appropriate content. 100-level courses may incorporate too much and too complex material • Teaching pace. The number of concepts covered in 100-level courses may not allow students and instructors enough time to teach/absorb key concepts

11. Top Issues Going Forward • Defining curriculum-wide educational goals • What should we teach our students? • What level of mastery should we require? • How will we measure our success? • Fine tuning CMSC212 and CMSC311 • Clarifying purpose & content • Fine tuning CMSC131 and CMSC132 • Clarifying teaching schedule & approach, content, appropriate student work load & interface to CMSC212 • Prerequisite structure • Reevaluate with attention to effect on time-to-graduation