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* We take an intermezzo in the compilation of SQL to logical query plans, and consider how a DBMS physically organizes its data on disk. ({{:teaching:infoh417:slides-ra1.pdf|slides}}). The details may be found in chapter 13 of the book and constitute the first reading assignment. | * We take an intermezzo in the compilation of SQL to logical query plans, and consider how a DBMS physically organizes its data on disk. ({{:teaching:infoh417:slides-ra1.pdf|slides}}). The details may be found in chapter 13 of the book and constitute the first reading assignment. | ||
+ | ==== Lecture 3: Index Structures ==== | ||
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+ | * During Lecture 3 ({{:teaching:infoh417:slides-lect3-part1.pdf|slides part I}}, {{:teaching:infoh417:slides-lect3-part2.pdf|slides part II}}) we study sparse and dense index structures, and BTrees. The details are found in chapter 14, sections 14.1 and 14.2 in the book. | ||
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+ | ==== Project Assignment: External Memory Algorithms ==== | ||
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+ | * In this assignment you are asked to implement an external-memory merge-sort algorithm, and examine its performance under different parameters. Be sure to visit the [[teaching:infoh417:project|project's page]] for full details and modalities. | ||
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