UC San Diego UC San Diego Electronic Theses and Dissertations Title Ouroboros and Apocryphal Chrysopoeia: Aesthetics and Techniques Permalink https://escholarship.org/uc/item/3jf0v775 Author Hembree, Paul James Publication Date 2015 Supplemental Material https://escholarship.org/uc/item/3jf0v775#supplemental Peer reviewed|Thesis/dissertation eScholarship.org Powered by the California Digital Library University of California UNIVERSITY OF CALIFORNIA, SAN DIEGO Ouroboros and Apocryphal Chrysopoeia: Aesthetics and Techniques A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Music by Paul James Hembree Committee in charge: Professor Roger Reynolds, chair Professor Amy Alexander Professor Samuel Buss Professor Mark Dresser Professor Miller Puckette 2015 Copyright © Paul James Hembree, 2015 All rights reserved. The Dissertation of Paul James Hembree is approved, and it is acceptable in quality and form for publication on microfilm and electronically: ___________________________________________________________ ___________________________________________________________ ___________________________________________________________ ___________________________________________________________ ___________________________________________________________ Chair University of California, San Diego 2015 iii TABLE OF CONTENTS Signature Page ........................................................................................................iii Table of Contents ................................................................................................... iv List of Supplemental Files ......................................................................................v List of Figures .........................................................................................................vi Acknowledgements ….............................................................................................xiv Vita ..........................................................................................................................xv Abstract of the Dissertation ....................................................................................xvi 1 Ouroboros and Apocryphal Chrysopoeia: Aesthetics and Techniques ..............1 1.1 Introduction ..........................................................................................2 1.1.1 Landscape Paintings of the Information Age ........................3 1.1.2 Atemporal Panoramas Unravelled in Time ...........................8 1.2 Apocryphal Chrysopoeia: A Synesthetic Virtual Instrument ..............18 1.2.1 Cellular Automata and Music: Background ..........................19 1.2.2 Spatial Metaphors of Pitch and Harmony Perception ...........24 1.2.3 Articulating the Pitch Space ..................................................33 1.2.4 Randomized Onsets and Smoothed Edges ............................38 1.2.5 Visual Music: Background ....................................................41 1.2.6 Cross-modal Mapping in Apocryphal Chrysopoeia ..............45 1.3 Extended Trumpet Techniques ….........................................................49 1.4 The Construction of a Text ..................................................................57 1.4.1 Libretto with References .......................................................61 1.4.2 Libretto Formatted for Program Notes ..................................66 1.5 Conclusion ...........................................................................................73 1.6 References ............................................................................................75 2 Audio-visual score to Ouroboros .......................................................................80 3 Instrumental score to Ouroboros ........................................................................96 Appendix: Representative MAX patches for Apocryphal Chrysopoeia..................165 iv LIST OF SUPPLEMENTAL FILES Documentation of Performance, Movement 1 ....................ouroboros-01-mvt1.mov Documentation of Performance, Movement 2 ....................ouroboros-02-mvt2.mov Documentation of Performance, Interlude ..........................ouroboros-03-interlude.mov Documentation of Performance, Movement 3 ....................ouroboros-04-mvt3.mov v LIST OF FIGURES Figure 1. De Wilde's NRS# The World As Seen Through My Eyes In Which I Set Myself On Fire (2011). .......................................................................7 Figure 2. Four successive stages in the evolution of river meanders towards an oxbow lake. ................................................................................................ 9 Figure 3. Braided, canonic melodic lines in Ouroboros, m. 158 – 161................ 10 Figure 4. Analysis of the saxophone line in Ouroboros, m. 158 – 161................. 11 Figure 5. Geologic map of Mississippi River meander belt, near Helena, AR. Note the meander in the center of the map that has nearly begun to be cut off from the main course of the river. ...................................................12 Figure 6. Satellite imagery of the Mississippi meander belt near Helena, AR. Note the dark blue oxbow lake that has now been formed where once was a meander in the earlier image. ............................................................13 Figure 7. Three layers of quantized tempo variations over the course of eight 2/4 bars. .......................................................................................................14 Figure 8. A musical realization of the quantized tempo variation graph in figure 7. .......................................................................................................15 Figure 9. Filtration process of the tempo “surface,” used to create canonic rhythmic organization. ….............................................................................16 Figure 10. Resulting rhythms after the filtration process. …..................................17 Figure 11. Pigments in a mollusc shell, real and artificial. ....................................20 Figure 12. A graphic depiction of the evolution of the cellular automata in bar 10 of Horos. ..........................................................................................21 vi Figure 13. Bar 10 of Horos. ...................................................................................22 Figure 14. A two-dimensional map of a toroidal pitch space modeled after Roger Shepard's double-helix (Shepard 1982, 316), used in an early version of Apocryphal Chrysopoeia. ..........................................................26 Figure 15. The vertically-compressed double-helix used as the default pitch structure and hexagonal cellular automaton neighborhood in Apocryphal Chrysopoeia and Ouroboros. ..................................................27 Figure 16. A demonstration still from Apocryphal Chrysopoeia, showing the vertically-compressed double-helix. .....................................................27 Figure 17. A demonstration still from Apocryphal Chrysopoeia, with pitch labels. In my current model, volume is slightly more sensitive to distance than visual rendering, and therefore we can see more cells than we can hear. ....................................................................................... 29 Figure 18. A list of the pitches present in figure 16, shaded according to volume based on proximity to the observer. ...............................................30 Figure 19. A demonstration still generated by Apocryphal Chrysopoeia, similar to figure 16, but with two pitch-class swaps: Bb has been swapped for E, and C has been swapped with F#. ......................................30 Figure 20. The harmonic field resulting from the allocation of pitches shown in figure 18. Note the inclusion of many more possible dissonances due to the presence of Bb and C. ............................................31 Figure 21. A highly scattered arrangement of cells due to a very active wander function. Detuning is suggested by plus and minus signs. ............32 vii Figure 22. A harmonic field created by arrangement of cells in figure 20. Detuning here is notated with standard quarter-tone accidentals. ..............33 Figure 23. Eight steps in a toroidal, double-helical, hexagonal cellular automaton with the ruleset “23/34.” ….......................................................34 Figure 24. The same cellular automaton steps as figure 22, but with the same labelling as figure 14, showing some information about pitch. .........35 Figure 25. The progression generated by the eight steps in the cellular automaton and pitch mapping in figure 23. ................................................36 Figure 26. The progression generated by the eight steps in the cellular automaton in figure 23, but with the pitch mapping that swaps C instead of F# and Bb instead of E. Some pitches are respelled for easier notation of harmonies. ......................................................................37 Figure 27. “Piano-roll” style notation for four different onset and amplitude envelope regimes. ...................................................................... 40 Figure 28. Apocryphal Chrysopoeia without any cross-modal effects. Cubes are the default geometric primitive because they readily betray their rotation. ................................................................................... 41 Figure 29. Paul Klee, Abstraction with Reference to a Flowering Tree (1925). .........................................................................................................42 Figure 30. Scramble in a low setting causes rippling in the surface of the primitives, along with subtle chorusing in the audio domain. ....................46 Figure 31. Scramble taken to an extreme creates audio-visual noise.. ..................46 Figure 32. Crushed primitives with only two polygons remaining. These viii would be coupled by extremely decimated audio, with only a few frequencies accurately represented. ............................................................47 Figure 33. Skittered primitives rotate randomly around their respective center points in three dimensions, coupled with randomly “rotating” ring modulation. .........................................................................................47 Figure 34. Spectre desaturates the primitives, and applies a bounded resonant band-pass filter to the spectra of the sounds. ................................48 Figure 35. Wetness in reverberation is coupled with visual feedback. ...................49 Figure 36. Dempster producing a split-tone multiphonic; buzz-points marked.....51 Figure 37. Written-pitch split-tones on C and Bb trumpets. Square note heads are used to indicate the harsh beating sound associated with these multiphonics, in a similar fashion to Bartolozzi's notation for multiphonics with beating sounds in woodwinds. ......................................54 Figure 38. Split-tone texture in the trumpet, Ouroboros, m. 33 – 47.....................56 Figure 39. hex-cells: Top-level patch in presentation mode for performance, with rendering window below. ....................................................................165 Figure 40. hex-cells: Top-level patch in editing mode. .........................................166 Figure 41. window-controls (sub-patch of hex-cells): Various OpenGL blend mode options, OpenGL rendering environment object, and floating window object. ...........................................................................................167 Figure 42. camera-controls (sub-patch of hex-cells): Four different variables control how the camera position changes over time. ..................................168 Figure 43. find-mic-pos (sub-patch of window-controls): Calculates position of ix