Just peelin wood nothing wrong with that is there is sound so good. Check out my channel here: https://www. Youtube. Com/channel/ucodrkq_qvkbpigxgbvahkba?view_as=subscriber.
This wav file is a take-away from a midi track my current project. The vst instrument is 4front e-piano and it's free! - the root key is g major, starting off in the piano roll at g3. The bottom drops to g2 and uses heavy steps, separated by a key to reach g2. Going back up to g3, the notes are shortened and no keys are skipped. Hence the fairytale stares ascents. The ceiling above g3 is g5. So 1 octave down, 2 up. The tight stairstep is maintained above g3. There is just downward notes to keep it sounding like a saw form. The entire sound should be in-key and loopable. Each of the 16 bars is unique. I didn't just copy and paste the same notes several times. - my next step is to apply a different midi sound. Sorry for the book. I hope this helps someone.
Harmonic component obtained from the analysis of a female speech sound: http://www. Freesound. Org/people/xserra/sounds/254374/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 2001- fft size: 2048- magnitude threshold: -100- minimum duration of sinusoidal tracks: 0. 05- maximum number of harmonics: 100- minimum fundamental frequency: 150- maximum fundamental frequency: 250- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 0. 05stochastic approximation factor: 1.
Harmonic plus stochastic resynthesis of the female speech sound: http://www. Freesound. Org/people/xserra/sounds/254374/. This was done using the harmonic plus stochastic model implemented in the sms tools: http://mtg. Upf. Edu/technologies/sms. The parameters used for the analysis were:. - window: blackman- window size: 2001- fft size: 2048- magnitude threshold: -100- minimum duration of sinusoidal tracks: 0. 05- maximum number of harmonics: 100- minimum fundamental frequency: 150- maximum fundamental frequency: 250- maximum error in f0 detection algorithm: 5- max frequency deviation in harmonic tracks: 0. 05stochastic approximation factor: 1.
This is a bassline of dnb, got 16 bars on 180 bpm or 8 bars on 90 bpm. I did it with a synth using abletondon't forget there is the possibility of you having to amplifier and compress for give more punch. Feel free for use it!. A tip from me to you is cut the bassline in pieces, explore all the locations where you can use for start a song. . . Use short parts of the bassline and use stretch and pitch techniques. Just explore and imagines freaky ways of change small samplers to a big and nice bassline! :d.
Just a sample of what my basses sound like :). This loop is free to use, as long as long as you check me out on soundcloud. You don't have to, but its the most you could do :). Https://soundcloud. Com/paul-stitz.
Little melody. It is consisting of two sinewaves. I linked a sequenced ring-modulation to the high-pitched sinewave. If you like this sound you might also like my tunes: http://soundcloud. Com/beverlyhillsboy/ check them out! cheers. :).
1 looping envelope and 2 vclfos in a dance. I think its harder for this combination to find a nice pattern - equilibrium. It happens sometimes. Maybe the mixture between positive and negative cv confuses the modules. Makes it harder. I start the recording with the looping envelope in non looping mode. After about 19 sec i switch to looping-mode. Records and hope that a pattern should emerge. This time there is a pattern. Yay! not 100% stable but that's perfect!okay, it is harder to recognize patterns when a sequencer is involved.
A single creaking wooden floor step. This is one of multiple similar sounds and one longer recording with 4 creaks in the same sound pack. Cc0, so no need to give credit. If you want, let me know what you used the sounds for as i really like hearing about other people's projects :).
A very harsh section of static with periodic interference (source unknown) from the far right-hand side of the fm radio dial, at 106. 7 mhz. Recorded from a digital tuner.
A less harsh, almost tickling of static pops from the right-hand side of the fm radio dial, interspersed with harsh interference (source unknown). Recorded from a digital tuner.
