![]() ![]() Then I can “paste” the previously selected area anywhere I want and the program works normally.Īnother technical problem (that we resolved with my friend but with a big help of the Forum) was a resolution of the tracker. So I just select some things to copy then I copy them and just make sure I _liquidate_ the selection entirely. Finally I found the exact moment of the bug: the selected area cannot “leave” the screen while one moves left/right. The program works almost perfectly well on the Pi, excluding marking/selecting music areas with mouse. The program’s site is here and the Debian’s port is here: (although I’m not entirely sure whether the friend used this one or maybe took the program from Repository, while he was making his “Linux magic” on my R_Pi2). The MilkyTracker – I admit – has been installed for me by a friend, who is a Linux user. I treat it as an additional hard-drive and I store there most of instruments/samples. True, I don’t have too big micro-SD card, only 16Gb, so it’s not too much to have a properly big instruments’ collection (and not to be forced to copy repeatedly the new ones from PC or Internet), but I also put there permanently a 32Gb memory-stick. I made all the compositions on my Pi only, and actually it was very comfortable. On the other hand, UK computers were always based on the CPU’s power and usually had not entirely standard audio generators, so seems like everything fits very well, since 80s until today. I just glue some notes into a bunch of them.Īnyway, I would never think that such a small computer can do this stuff. ![]() Thank You very much, although it’s rather Pi’s merit than mine, haha. PS: Thx to Waldow, Skrzyp, Drygol Willy, as well as for Liz Upton and the Some people say R_Pi isn't good for music. Warm'n'soft doesn't remind thousands of razors. The funny thing is, I also rendered the song directly into harddisk andĬompared it to the version recorded from real R_Pi: and I deleted the PWM module (gives a 'pulse width modulated' signal) working withįrequency around 40MHz and it is low-pass-filtered. Resolved somewhat like in ZX Spectrum: the sound is being generated by CPU. The 1st R_Pi) and by Broadcom BCM2836 chip (in the 2nd R_Pi), so it's The R_Pi's sound is being generated by the Broadcom BCM2835 chip (for This song has been made entirely on Raspberry Pi 2. So, my very first song on R_Pi is ready!!! ![]()
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