Generator sequence

Generator sequence (AGS) is a scale-building procedure first described by Scott Dakota. The notation AGS(x₁, ..., x_r) denotes a scale-building procedure where a (periodic) scale is built by stacking x₁ first, x₂ second, ..., reducing by the scale's equave when necessary. When x_r is stacked, we go back to x₁ and start stacking x₁ again, then x₂, ... Currently, the study of AGSs is dominated by constant structure AGS scales, which are obtained by stopping the stacking procedure at scale sizes that yield constant-structure scales.

Certain generator-offset scales are examples. For example, diasem is AGS(8/7, 7/6) or AGS(7/6, 8/7) depending on chirality. The trivial case AGS(x) is stacking a single generator x to make a rank-2 scale, such as a MOS scale.

When all generators x_i in the AGS recipe AGS(x₁, ..., x_r) subtend the same number of steps, and the leftover interval after stacking n − 1 of the generators in the recipe (analogous to the imperfect generator in MOS scales) also subtends this number of steps, we call the resulting scale well-formed AGS. In such a situation, we call the (logarithmic) average of the generators the guide generator.

AGS scale series

Only CS sizes at least 5 are listed.

The Zarlino series, AGS(5/4, 6/5): 5, 7, 10, 17, 24, 41 and 65-forms.
- Other scales with the same AGS structure of two thirds adding up to 3/2 share the same CS sizes, including undecimal Zarlino (AGS(11/9, 27/22)), and Neogothic Zarlino (AGS(14/11, 13/11) with 364/363 tempered), although the latter may break at higher sizes depending on how the intervals are tuned.
The Tas/diasem series, AGS(7/6, 8/7): 5, 9, 14, 19, 24, and 29-forms
The Tri-Stone series, AGS(3/2, 14/9): 5, 8, 13, and 18-forms.
The Zil series, AGS(8/7, 7/6, 8/7, 7/6, 8/7, 7/6, 8/7, 189/160, 8/7, 7/6): 5, 9, 14, 19, and 24-forms.
The Porcusmine series, AGS(9/5, 50/27): 5, 6, 7, 8, 15, 23, 38, 61, and 99-forms.
An unnamed 5-limit Mavila detemper, AGS(3/2, 3/2, 64/45): 5, 7, 9, 16, and 25-forms.
The Rhombi series, AGS(14/9, 11/7, 52/33, 81/52): 5, 8, 11, 14, 17, 31, 48, and 65-forms.
The Dwyn series: AGS(25/24 21/20 22/21 23/22 24/23 21/20 22/21 23/22 24/23): 15, 16, 31, and 46-forms.
AGS(7/5, 19/14, 80/57)
AGS(19/14, 51/38, 23/17, 63/46, 19/14, 51/38, 23/17, 896/621)

Conjectures about AGS scales

If S is a monotonic well-formed AGS scale, then it is generically constant structure.
Let n be the cardinality of a constant structure well-formed AGS scale S with equave E. Then n is the cardinality of an E-equivalent primitive MOS generated by the guide generator of S.