> okay, can someone tell me if this is right?:
> this Bela is this board from TI:
> http://www.ti.com/tool/beaglebk with an IDE from http://faust.grame.fr/about/
> or Bela *is* that IDE that implements a realization of FAUST.
> and you have to run this with a Linux machine,
> but it's agnostic
From: "Andrew McPherson"
>
>> That looks really nice - just curious, what?s the boot time of Bela?
>>
>> Thanks, Tom Erbe
>
>
> Hi Tom -- thanks! I just measured the boot time at around 25 seconds from
> power on to audio code running, and 35 seconds
Hello,
I have a practical problem and a theoretical question to submit to the
readers of this great list. First, the problem:
In a recent discussion [1], I (partially) realized the subtle differences
between two implementations of a delay line with modulation over the delay
time:
1/ the classic
> That looks really nice - just curious, what?s the boot time of Bela?
>
> Thanks, Tom Erbe
Hi Tom -- thanks! I just measured the boot time at around 25 seconds from power
on to audio code running, and 35 seconds from power on to IDE loading in the
browser. Based on the pattern of the LEDs,
Hi,I am one of the developers.Sure you can use your editor of choice. The
browser-based IDE is a convenient, ready-to-go solution which acts as a
front-end for the building scripts we provide, which build the code on the
board. The scripts can, alternatively, be reached through the command
Hi Andrew,
That looks really nice - just curious, what’s the boot time of Bela?
Thanks, Tom Erbe
> On Mar 22, 2016, at 12:43 PM, Andrew McPherson
> wrote:
>
> Hi all,
>
> I'd like to announce the upcoming release of Bela (http://bela.io), an
> embedded
Hi all,
I'd like to announce the upcoming release of Bela (http://bela.io), an embedded
audio/sensor platform based on the BeagleBone Black which features extremely
low latency (< 1ms from action to sound). I'm sure some of you will have seen
this already-- it is a platform aimed specifically
Hi,
I suppose the question implies the concern for the necessity of the beamforming, or maybe
alternatives. It isn't too difficult to do a little estimation about what is going to
happen with your setup when signals come from various sides and angles, assuming a sample
delay corresponds to
Dear Ethan,
Thank you for your reply.
"The propagation delays we're talking about are very short -- 0.07ms along
the short side and 0.4ms or so in the long direction. Adding signals with
such a short delay time won't create any feeling that the signal is spread
out in time, which is what I