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User:BudjarnLambeth/Draft related tunings section

Lab

15edo

• 52ed11
• 11lim WE (79.770)
• 50ed10
• 47zpi (79.715)
• 54ed12

15edo's primes 3, 5, 11 and 13 are all tuned sharp, so it can benefit from octave shrinking.

18edo

• 42ed5
• 13lim WE (66.291)
• 61zpi (66.228)
• 65ed12
• 7lim WE (66.148)
• 47ed6

18edo's primes 3, 5, 7 and 13 are all tuned sharp, so it can benefit from octave shrinking.

25edo

• 95zpi (48.067)
• 13lim WE (47.946)
• 90ed12
• 65ed6
• 96zpi (47.642)

25edo's prime 3 is very sharp, and its sharp and flat mapping of 11 and 13 are about equally bad, it can benefit from octave shrinking.

26edo

• 13lim WE (46.249)
• 93ed12
• 100zpi (46.268)

26edo's simple primes with the most error - 3, 5 and 13 - are all tuned flat, so it can benefit from octave stretching.

29edo

• 46edt
• 116zpi (41.465)
• 13lim WE (41.484)
• 107ed13
• 100ed11
• 96ed10

29edo's primes 5, 7, 11 and 13 are all tuned flat and the 3 has relatively little error, so 29edo can benefit from octave stretching.

30edo

• 39.918zpi (39.918)
• 13lim WE (39.904)
• 11lim WE (79.770)
• 100ed10
• 108ed12
• 78ed6

30edo's simple primes with the most error - 3, 5 and 11 - are all tuned sharp, so it can benefit from octave shrinking.

34edo

• 11lim WE (35.284)
• 13lim WE (35.276) (octave identical to 113ed10 within 0.1 ¢)
• 79ed5
• 122ed12
• 88ed6
• 144zpi (35.248)
• 126ed13
• 54edt

34edo's primes 3, 5, 11 and 13 are all tuned sharp, and it has two about equally bad mappings of 7, so 34edo can benefit from octave shrinking.

35edo

• 11lim WE (35.284)
• 13lim WE (35.276)
• 121ed11
• 149zpi (34.359)
• 116ed10
• 98ed7
• 81ed5
• 125ed12
• 90ed6

35edo's primes 3, 5, 7 and 11 are all tuned flat, and it has two about equally bad mappings of 13, so 35edo can benefit from octave stretching.

37edo

• 137ed13
• 161zpi (32.408) (octave identical to 123ed10 within 0.1 ¢)
• 86ed5
• 104ed7
• 13lim WE (32.383)
• 11lim WE (32.377)
• 133ed12
• 96ed6

37edo's primes 3, 5, 7, 11 and 13 are all tuned sharp, so it can benefit from octave shrinking.

48edo

• 13lim WE (25.005)
• 226zpi (25.006)
• 166ed11
• 172ed12
• 124ed6 (octave identical to 11lim WE within 0.1 ¢)
• 76edt
• 28edf (octave identical to 159ed10 within 0.1 ¢)

Most of 48edo's simple primes have low error, but its 5 is substantially flat, so 48edo can benefit from slight octave stretching.

Medium-low priority

10edo

• 2.5.7.13 WE (120.358)
• 28ed7
• 37ed13
• 26zpi (119.899)
• 2.3.7.13 WE (119.785)
• 13lim WE (119.776)
• 36ed12

If one wishes to use 10edo as a no-5s, 19-or-lower-limit tuning, then it benefits from octave shrinking. If one wishes to use 10edo as a no-3s, 13-or-lower-limit tuning, then it benefits from octave stretching.

11edo

• 28ed6
• 39ed12
• 2.7.11.13 WE (108.821)
• 30zpi (108.722)
• 35ed9
• 31ed7
• 41ed13
• 37ed10

11edo has about equally bad sharp and flat mappings of primes 3 and 5. The 7 and 13 are quite sharp, but the 11 is a little flat. To use it as a 2.7.11.13 tuning, slight octave shrinking is advisable. To use its primes 3 or 5, extreme octave shrinking can be used, at the cost of making the octaves sound significantly weaker.

24edo ((13lim WE's octave is only 1/10th of a cent different from 24edo))

• 56ed5
• 80ed10
• 89ed13
• 2.3.5.11.13 WE (49.942)
• 90zpi (49.988)
• 11lim WE (50.017)
• 83ed11
• 86ed12
• 62ed6
• 38edt

If one wishes to use 24edo as a full 19-or-lower-limit tuning, then it benefits from slight octave stretching, mostly to improve its prime 7. If one wishes to use 24edo as a no-7s 19-or-lower-limit tuning, then it benefits from slight octave shrinking, mostly to improve its primes 5 and 13.

5edo

• 14ed7
• 2.3.7 WE (239.426)
• 18ed12

If one wishes to use 5edo as a 2.3.7 subgroup tuning, then it benefits from slight octave shrinking to improve its prime 3.

6edo

• 19ed9
• 2.9.5 WE (199.736)
• 2.9.5.7 WE (199.329)
• 20ed10
• 14ed5
• 12zpi (198.843)
• 17ed7

If one wishes to use 6edo as a 2.9.5 or 2.9.5.7 subgroup tuning, then it benefits from octave shrinking.