I get 1 000 000 = 2^19.9 so a 20 bit dynamic range.
I don't think A/D/A hardware ever gets better than about 110 dB dtnamic
range though.
cheers
Miller
On Thu, Apr 23, 2015 at 05:20:51PM +0200, Cyrille Henry wrote:
>
>
> Le 23/04/2015 16:41, Alexandre Torres Porres a écrit :
> >Yep, nice indeed, I guess I learned - in short and in layman's undetailed terms - that audio output is ~24bits (a bit higher, but much higher for smaller numbers).
> >
> >Moreover, digital audio cards won't likely have more than 24 bit precision for many years to come, so it's just way more than enough.
> The human ear is usually consider to be sensible from 0dB to 120dB, so a range of 10^(12/2) between the smallest and biggest amplitude.
> i.e from 1 to 1 000 000, or from 1 to 2^13.8
> so, the human ear sensitivity can be considered to be about 14 bits.
> 16 bits diffusion should be enough.
> 24 bits diffusion is already overkill.
>
> cheers
> c
>
> >
> >thanks
> >
> >
> >2015-04-23 6:43 GMT-03:00 Julian Brooks <jbeezez@gmail.com <mailto:jbeezez@gmail.com>>:
> >
> > Nice. Thanks Chuck, I learnt something.
> >
> > On 22 April 2015 at 23:45, Charles Z Henry <czhenry@gmail.com <mailto:czhenry@gmail.com>> wrote:
> >
> > On Wed, Apr 22, 2015 at 5:11 PM, Alexandre Torres Porres
> > <porres@gmail.com <mailto:porres@gmail.com>> wrote:
> >
> > > So I start with this idea that the audio (values from -1 to 1) can't be in
> > > full 32 bit float resolution, it's less. I don't see why that is "wrong".
> > > And then, from it, my first question here was: "what is the audio resolution
> > > then?". I'm still clueless here about this answer.
> > >
> > > Moreover, is it more or less than what 24 bit audio cards handle?
> >
> > Let me try:
> >
> > 32-bit floating point numbers have 24 bits of precision. Always. The
> > remaining 8 bits are just for the sign and exponent. When the
> > amplitude of the signals decrease, you don't lose any precision in
> > floating-point. The value of the least significant bit (LSB) gets
> > proportionally smaller.
> >
> > However, the output of a 24-bit soundcard always has a fixed
> > quantization. The LSB is always the same size. Smaller numbers have
> > less precision.
> >
> > The mismatch occurs when converting from the 32-bit floats to the
> > 24-bit fixed point numbers. Now, the smaller numbers aren't as
> > precise anymore. They get rounded to the nearest number in the 24-bit
> > fixed point system.
> >
> > So, yes, the resolution (of small numbers) in floating point (internal
> > to Pd) is finer than the resolution of those numbers when output
> > (driver/DAC).
> >
> > Also, the 24-bit fixed point format is for values between -1 and 1.
> > That means that numbers between 0 and 1 have just 23 bits. In 32-bit
> > math, the numbers between 0.5 and 1 still have 24 bits of precision
> > (the sign is held elsewhere). That means that Pd's internal
> > resolution is finer than the soundcard resolution for all numbers
> > between -1 and 1.
> >
> > Chuck
> >
> > _______________________________________________
> > Pd-list@lists.iem.at <mailto:Pd-list@lists.iem.at> mailing list
> > UNSUBSCRIBE and account-management -> http://lists.puredata.info/listinfo/pd-list
> >
> >
> >
> >
> >
> >_______________________________________________
> >Pd-list@lists.iem.at mailing list
> >UNSUBSCRIBE and account-management -> http://lists.puredata.info/listinfo/pd-list
> >
>
> _______________________________________________
> Pd-list@lists.iem.at mailing list
> UNSUBSCRIBE and account-management -> http://lists.puredata.info/listinfo/pd-list
_______________________________________________
Pd-list@lists.iem.at mailing list
UNSUBSCRIBE and account-management -> http://lists.puredata.info/listinfo/pd-list