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052220 VU Advanced Topics in Computer Graphics (2020S)
Real-Time Ray Tracing
Prüfungsimmanente Lehrveranstaltung
Labels
An/Abmeldung
- Anmeldung von Mo 10.02.2020 09:00 bis Do 20.02.2020 09:00
- Abmeldung bis Do 30.04.2020 23:59
Details
max. 25 Teilnehmer*innen
Sprache: Englisch
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
Freitag
06.03.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
13.03.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
20.03.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
27.03.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
03.04.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
24.04.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
08.05.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
15.05.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
22.05.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
29.05.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
05.06.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
12.06.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
19.06.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Freitag
26.06.
16:45 - 18:15
Seminarraum 6, Währinger Straße 29 1.OG
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
The course teaches the basics of real time ray tracing including random sampling of hemispheres, ray intersection, bounding volume hierarchies, denoising, temporal anti aliasing and different 4K-upscaling methods. Furthermore additional topics for advanced state of the art real time ray tracing including dynamic resolution scaling with variable refresh rates and machine learning based rendering for illumination of the scene and deep learning super sampling are taught. After the course participants understand all major concepts behind real time ray tracing and are able to implement them into a render engine.
Art der Leistungskontrolle und erlaubte Hilfsmittel
Four separately graded assignments are to be submitted throughout the semester.
Two written exams (one during the semester and one at the end of the semester).
Two written exams (one during the semester and one at the end of the semester).
Mindestanforderungen und Beurteilungsmaßstab
The final mark is calculated based on the two written exams (each 20%) and the four assignments (assignment 1: 10%, assignment 2: 15%, assignment 3: 20%, assignment 4: 15%).
To achieve a positive grading students
- have to submit a solution for each assignment, and
- need to reach at least 50% of the maximum points achievable over all written exams.Gradings are computed from the weighted sum:
89% <= P <= 100% Sehr Gut (1)
76% <= P < 89% Gut (2)
63% <= P < 76% Befriedigend (3)
50% <= P < 63% Genügend (4)
0% <= P < 50% Nicht Genügend (5)
To achieve a positive grading students
- have to submit a solution for each assignment, and
- need to reach at least 50% of the maximum points achievable over all written exams.Gradings are computed from the weighted sum:
89% <= P <= 100% Sehr Gut (1)
76% <= P < 89% Gut (2)
63% <= P < 76% Befriedigend (3)
50% <= P < 63% Genügend (4)
0% <= P < 50% Nicht Genügend (5)
Prüfungsstoff
Real Time Ray Tracing, Dynamic Resolution Scaling, Machine Learning based Rendering
Literatur
Christer Ericson, Real-Time Collision Detection, CRC Press (December 22, 2004)
Tomas Akenine-Möller, Eric Haines, Naty Hoffman, Angelo Pesce, Michal Iwanicki, Real-time Rendering, CRC Press, 4. Auflage, 21. August 2018
Alexander Keller, Jaroslav Křivánek, Jan Novák, Anton Kaplanyan, Marco Salvi, Machine learning and rendering, SIGGRAPH '18 ACM SIGGRAPH 2018 Courses, ACM New York, 2018
Tomas Akenine-Möller, Eric Haines, Ray Tracing Gems, Apress, 2019
Tomas Akenine-Möller, Eric Haines, Naty Hoffman, Angelo Pesce, Michal Iwanicki, Real-time Rendering, CRC Press, 4. Auflage, 21. August 2018
Alexander Keller, Jaroslav Křivánek, Jan Novák, Anton Kaplanyan, Marco Salvi, Machine learning and rendering, SIGGRAPH '18 ACM SIGGRAPH 2018 Courses, ACM New York, 2018
Tomas Akenine-Möller, Eric Haines, Ray Tracing Gems, Apress, 2019
Zuordnung im Vorlesungsverzeichnis
Module: AT-GFX
Letzte Änderung: Mo 07.09.2020 15:20