6.892 Algorithmic Lower Bounds: Fun with Hardness Proofs (Spring 2019)

Prof. Erik Demaine       TAs: Jeffrey Bosboom, Jayson Lynch


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[+] 3-partition II: edge-unfolding polyhedra, snake cube puzzle, disk packing, Clickomania, Tetris, 1-planarity, GeoLoop/Ivan's Hinge.
2-partition: ruler folding, simple map folding.
This lecture includes a second (and final) bunch of strong NP-hardness reductions from 3-partition:

Plus we'll see a couple of weak NP-hardness reductions from 2-partition:

We'll focus mainly on problem solving — we have many solved and open problems related to SAT. As usual, we'll also briefly review the progress on past open problems (and you're welcome to continue on those). I'll also briefly describe a software tool for drawing grid-based figures, called SVG Tiler, which we've used for drawing lots of hardness reductions.

Download Video: 360p, 720p

Handwritten notes, page 1/8[previous page][next page][PDF]

Handwritten notes, page 1/8[previous page][next page][PDF]

Slides, page 1/41[previous page][next page][PDF]

Based on http://​dx.doi.org/​10.1016/​0743-7315(90)90019-L

Slides, page 1/41[previous page][next page][PDF]