Parapyth: Difference between revisions
→Edo tunings: added paragraph on edo tunings of etypyth |
→Edo tunings: don't see anywhere you can map 19 on the lattice. Anything about parapyth | magic should be discussed as sensamagic and anything 104edo-specific should go to the 104edo page |
||
| Line 32: | Line 32: | ||
The parapyth edos below 311 that are not contorted in 2.3.7.11.13 are {{Optimal ET sequence| 17, 22, 24, 29, 41, 46, 58, 63, 65, 80, 87, 104, 109, 121, 128, 133, 145, 150, 167, 172, 184, 191, 196, 213, 230, 232, 237, 254, 259, 271, 278, 283, and 295 }}. | The parapyth edos below 311 that are not contorted in 2.3.7.11.13 are {{Optimal ET sequence| 17, 22, 24, 29, 41, 46, 58, 63, 65, 80, 87, 104, 109, 121, 128, 133, 145, 150, 167, 172, 184, 191, 196, 213, 230, 232, 237, 254, 259, 271, 278, 283, and 295 }}. | ||
[[87edo]] is special for being the smallest "strict parapyth edo" (tempers out 352/351 and 364/363 and maps all of 121/120, 144/143, and 169/168 positively, meeting [[Margo Schulter]]'s criterion for "middle parapyth in the strict sense"). The following are strict parapyth | [[87edo]] is special for being the smallest "strict parapyth edo" (tempers out 352/351 and 364/363 and maps all of 121/120, 144/143, and 169/168 positively, meeting [[Margo Schulter]]'s criterion for "middle parapyth in the strict sense"). The following are strict parapyth edos below 311 that are not contorted in the 13-limit: {{Optimal ET sequence| 87, 104, 121, 128, 133, 145, 150, 167, 184, 191, 196, ''208'', 213, 230, 232, 237, 254, 259, 271, 278, 283, 295 }}. (Note: 208edo is contorted in 2.3.7.11.13 subgroup but not in the full 13-limit.) | ||
If we instead mean "parapyth" to refer to [[etypyth]] | If we instead mean "parapyth" to refer to [[etypyth]] – its most elegant extension to the no-5's 17-limit (so we ignore [[100/99|S10]] and [[121/120|S11]]) – then the minimal strict etypyth (a.k.a. [[etypyth|17-limit parapyth]]) is [[46edo]], although this requires accepting its [[21/17]] as standing in for ~[[16/13]] and ~[[26/21]], corresponding roughly to (the [[octave complement]] of) [[acoustic phi]] so that stacking this interval gives a ~17:21:26:32 chord. The benefit of taking this no-5's interpretation is you do not deal with any conceptual issues arising from an out-of-tune [[15/13]] in 46edo, but you could deal with this alternately by interpreting simply only in the [[13-odd-limit]] adding odds 17, 21 and 23, which highlights that a benefit of 46edo is a fairly accurate [[23/16]] in the usual parapyth mapping of a tritone (C-F#), tempering ([[23/16]])/[[729/512|(9/8)<sup>3</sup>]] = [[736/729]]. Alternatively, if you want a more accurate [[9/7]], [[7/6]], [[13/11]], [[104edo]] is an excellent etypyth tuning. 104edo is a dual-5 system that supports both the [[sensamagic]] (104) and [[pele]] (104c) mappings of 5, so that the combined [[25/16]] is very accurate (tempered together with the 81/52 (C-vG#), distinguished from [[11/7]] (C-Ab) and [[14/9]] (C-^G) simultaneously). Pele may be preferable as a default due to it observing [[100/99|S10]] and [[121/120|S11]]. Sensamagic has the capacity to observe them too, but in the specific case of 104edo it tempers out S10. | ||
== See also == | == See also == | ||
Revision as of 06:06, 1 March 2024
Parapyth is the rank-3 temperament tempering out 352/351 and 364/363 in the 2.3.7.11.13 subgroup.
Inspired by George Secor's 29-tone high tolerance temperament, parapyth was found by Margo Schulter in 2002, and it continued to be developed as part of her neoclassical tuning theory (NTT), although a regular temperament perspective is as viable.
In the early prototype, there was only a single chain of fifths, tuned a little sharp such that:
- the major sixth (+3 fifths) hits 22/13, tempering out 352/351;
- the major third (+4 fifths) hits 14/11, tempering out 896/891;
- the augmented unison (+7 fifths) hits 14/13, tempering out 28672/28431.
This is now known as pepperoni. Parapyth encapsulates pepperoni, and adds a spacer representing 28/27~33/32. Prime harmonics 7, 11 and 13 are all made available simply using two chains of fifths.
See Pentacircle clan #Parapyth for technical data.
Interval lattice
These diagrams differ by lattice bases and tunings. The first diagram is generated by {~2, ~3, ~7/4}, corresponding to the octave-reduced form of the mapping, and tuned to the 2.3.7.11.13 subgroup CTE tuning. The second diagram shows the preferred settings in Margo Schulter's neoclassical tuning theory, where it is generated by {~2, ~3, ~33/32}, and tuned to MET-24.
Scales
- Parapyth12 – 12-tone Fokker block in 2.3.7.11.13 TOP tuning
- Pepperoni7 – 7-tone single chain of fifths in 271edo tuning
- Pepperoni12 – 12-tone single chain of fifths in 271edo tuning
Tunings
The most important tuning for parapyth is that given by MET-24 (milder extended temperament): ~2/1 = 1\1, ~3/2 = 703.711, ~33/32 = 57.422. Another tuning is taking a 24-tone subset of George Secor's 29-HTT, thus a "24-HTT". Yet another possible tuning is that given by Peppermint-24.
Edo tunings
The parapyth edos below 311 that are not contorted in 2.3.7.11.13 are 17, 22, 24, 29, 41, 46, 58, 63, 65, 80, 87, 104, 109, 121, 128, 133, 145, 150, 167, 172, 184, 191, 196, 213, 230, 232, 237, 254, 259, 271, 278, 283, and 295.
87edo is special for being the smallest "strict parapyth edo" (tempers out 352/351 and 364/363 and maps all of 121/120, 144/143, and 169/168 positively, meeting Margo Schulter's criterion for "middle parapyth in the strict sense"). The following are strict parapyth edos below 311 that are not contorted in the 13-limit: 87, 104, 121, 128, 133, 145, 150, 167, 184, 191, 196, 208, 213, 230, 232, 237, 254, 259, 271, 278, 283, 295. (Note: 208edo is contorted in 2.3.7.11.13 subgroup but not in the full 13-limit.)
If we instead mean "parapyth" to refer to etypyth – its most elegant extension to the no-5's 17-limit (so we ignore S10 and S11) – then the minimal strict etypyth (a.k.a. 17-limit parapyth) is 46edo, although this requires accepting its 21/17 as standing in for ~16/13 and ~26/21, corresponding roughly to (the octave complement of) acoustic phi so that stacking this interval gives a ~17:21:26:32 chord. The benefit of taking this no-5's interpretation is you do not deal with any conceptual issues arising from an out-of-tune 15/13 in 46edo, but you could deal with this alternately by interpreting simply only in the 13-odd-limit adding odds 17, 21 and 23, which highlights that a benefit of 46edo is a fairly accurate 23/16 in the usual parapyth mapping of a tritone (C-F#), tempering (23/16)/(9/8)3 = 736/729. Alternatively, if you want a more accurate 9/7, 7/6, 13/11, 104edo is an excellent etypyth tuning. 104edo is a dual-5 system that supports both the sensamagic (104) and pele (104c) mappings of 5, so that the combined 25/16 is very accurate (tempered together with the 81/52 (C-vG#), distinguished from 11/7 (C-Ab) and 14/9 (C-^G) simultaneously). Pele may be preferable as a default due to it observing S10 and S11. Sensamagic has the capacity to observe them too, but in the specific case of 104edo it tempers out S10.