Math 903 (2022)

Computational Homological Algebra

Henri Cartan
complex
Sammy Eilenberg
Description
This course is an introduction to homological algebra. Rather than regarding the subject as an abstract machine for proving non‐constructive existence theorems, we present homological algebra as a vast generalization of linear algebra: matrices are replaced by appropriate sequences of linear maps. This perspective emphasizes “thinking in terms of complexes” and developing effective computational tools. We explore the fundamental structures and essential constructions within homological algebra. A range of examples, many explicitly illustrated via the Macaulay2 software system, will also enhance the learning experience.
Instructor
Gregory G. Smith (512 Jeffery Hall, ggsmith@mast.queensu.ca)
Meetings
Tuesdays at 10:00–11:30 on Zoom
Thursdays at 10:00–11:30 on Zoom
References
Lars Winther Christensen, Hans-Bjørn Foxby, and Henrik Holm, Derived category methods in commutative algebra, (manuscript in development), 2022.
Sergei I. Gelfand and Yuri I. Manin, Methods of homological algebra, second edition, Springer Monographs in Mathematics, Springer-Verlag, Berlin, 2003.
Gregory G. Smith and Michael E. Stillman, Complexes: an open source package for computational homological algebra, distributed with the Macaulay2 software system, 2022.
Assessment
The course grades will be computed as follows:
  • 50% Homework
  • 50% Project
Homework
Biweekly problem sets, each consisting of approximately 4 questions, are available in the Portable Document Format (PDF) on the course website. Solutions will be collected using Crowdmark software. The best 5 of 6 problem sets will determine your homework grade.
Project
Each student will independently learn a new theorem (interpreted broadly to include constructions, important examples, or other homological results) and communicate it in written form. Whenever possible, a student will select their topic in consultation with their research supervisor. The final short document must be typed and be available in PDF.
Academic Integrity
Students are responsible for familiarizing themselves with all of the regulations concerning academic integrity and for ensuring that their assignments and their behaviour conform to the principles of academic integrity. Students are encouraged to discuss problems, but should write up the solutions individually. Students must explicitly acknowledge any assistance including books, software, technology, websites, students, friends, professors, references, etc.
Accommodations
The instructor is committed to achieving full accessibility for people with disabilities. Part of this commitment includes arranging academic accommodations for students with disabilities to ensure they have an equitable opportunity to participate in all of their academic activities. If you think you may need academic accommodations, then you are strongly encouraged to contact both the instructor as soon as possible.
Licensing
Materials generated by the instructor of this course may not be used for commercial advantage or monetary compensation. Some material is clearly copyrighted and may not be reproduced or retransmitted in any form without express written consent. Other material, licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, may be remix, adapt, or build upon it, as long as appropriate credit is given and the new creation is distributed under the identical terms.