Enter your vote today! A new poll has been created for the
Doepfer_a100 group:
Would you like Doepfer to release a Timbral Quantizer Module
[If you check out the relation between the harmonic spectrum of a
certain sound (frequency and level of partials) and the intervals or
chords made with that sound which are most pleasing or consonant
sounding, you find that for most 'natural' sounds (like an acoustic
guitar) the 12 tone temperament is great, because in 12-tet the
partials don't tend to clash, so to speak. (Generally speaking of
course, because you *can* come up with awful chords if you really
want to)
But for e.g. metallic sounds, or indeed for lots of *electronic*
sounds, this is not the case. This is why it is especially interesting to
experiment with different scales and tunings if you are into metallic
sounds (gamelan, metallic xylophones etc.) or if you're into
electronic music!!
The beauty is that there is now mathematics available (thank you Mr.
Sethares) to derive a fitting customized scale, that is optimized for
consonance, from almost any type sound/timbre. This is usually
done using Fourier analysis. But I don't want to propose a Fourier
analysis module, because it is possible to derive the necessary
information in another way, if you know the 'recipe' or 'settings' of a
sound/timbre. This method could definitely work for additive
synthesis and fm (maybe for analog fm).
So I would propose a dedicated fm-operator or sine bank or ring
modulator that can be 'read' (preferably real time) by a timbral
quantizer so the quantizer can calculate a scale that 'fits' the current
sound/timbre best. The number of steps in the scale would be
optional, and probably voltage controllable.]
o Yes!
o maybe...
o no.
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http://groups.yahoo.com/group/Doepfer_a100/surveys id=12335538
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Thanks!