well, it's got 2 (different) outputs, so it's like 2 filters in there
[vcf~] is one filter, it just outputs both the real and imaginary part (which have to be computed anyway), so the idea is you get two filters for the price of one. I have no idea what causes the relatively high CPU load. maybe the tabfudge stuff?
how about bob~?
[bob~] is cool, but it's a bit expensive. Moreover, it's not a bandpass ;-)
Gesendet: Sonntag, 16. Oktober 2016 um 13:39 Uhr Von: "Alexandre Torres Porres" porres@gmail.com An: "Christof Ressi" christof.ressi@gmx.at Cc: katja katjavetter@gmail.com, pd-list pd-list@iem.at Betreff: Re: [PD] could vanilla borrow iemlib's hi pass filter recipe?
But [bp~] and [vcf~] are almost unusable IMHO and should probably be replaced by better filters in the future (while keeping the old ones for compatibility reasons).
how about bob~? 2016-10-14 21:34 GMT-03:00 Christof Ressi <christof.ressi@gmx.at[mailto:christof.ressi@gmx.at]>:There are a number of big problems with all build-in filters in Pd (expect for the raw filters).
Problem number 1: [lop~] and [hip~] both use a weird (you could also say: wrong) formula for the cutoff frequency which makes them gradually converge to a fixed output state (reached by about 7000 Hz). The same is true for [vcf~] and [bp~] with Q <= 1. Therefore the actual cutoff frequency is only correct for very low frequencies and approximately gets more and more off until it doesn't move at all.
Problem number 2: [bp~] and [vcf~] don't have zeros at DC and Nyquist. For low Q values, the slope is different for each side and changes with frequency.
Problem number 3: the gain at the center frequency is not 1 for both [bp~] and [vcf~]. It rather depends on frequency and Q. [bp~] even has has a gain of 2 for Q <= 1!
I did some FFT plots, see the attachment.
I remember Miller saying somewhere that these filters are not designed for high cutoff frequencies - but even for low frequencies, the behaviour of [bp~] and [vcf~] is horrible. I can see these filters are mere approximations to reduce CPU usage. [hip~] is indeed much more efficient than iemlib's [hp1~], so it's well suited for DC removal (but not much else). [bp~] only is a little bit more CPU friendly than iemlib's [bp2~] - but the latter one has a correct and stable frequency response. [vcf~], however, is a real CPU sucker!!! 100 [vcf~] objects need 3,40% on my laptop whereas 100 of iemlib's [vcf_bp2~] only need 1,80%! But you have to consider that [vcf_bp2~] not only acts correctly but lets you set the Q at audio rate. The high CPU usage of [vcf~] seems like a bug to me...
I only use the vanilla filters for the most basic stuff like DC removal and smoothing. I guess these are the use cases which Miller had in mind and that way [lop~] and [hip~] have their justification (although there should be some more warning about the 'wrong' frequency response in the help file). But [bp~] and [vcf~] are almost unusable IMHO and should probably be replaced by better filters in the future (while keeping the old ones for compatibility reasons).
Christof
Gesendet: Freitag, 14. Oktober 2016 um 23:51 Uhr Von: katja <katjavetter@gmail.com[mailto:katjavetter@gmail.com]> An: pd-list <pd-list@iem.at[mailto:pd-list@iem.at]> Betreff: [PD] could vanilla borrow iemlib's hi pass filter recipe?
In pd 0.47.1 [hip~] is still not perfect. Attenuation at cutoff is not constant over the frequency range: -6 dB with cutoff=SR/8, -3 dB with cutoff=SR/4, 0 DB with cutoff=SR/2. In contrast, iemlib's [hp1~] has -3 dB at cutoff consistently.
Could vanilla pd implement iemlib's hipass filter recipe? I don't know if the license also covers the math. Documentation in https://git.iem.at/pd/iemlib/tree/master%5Bhttps://git.iem.at/pd/iemlib/tree...] points to external literature for part of the math (bilinear transform). I've implemented the recipe with vanilla objects for comparison, see attached.
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