Shift Register : Basic Features : Vaemi (Eurorack)

Shift Register : Basic Features : Vaemi (Eurorack)

Hello there
This module is a dual 4 bit shift register module.
There are inputs here: data in, clock in, reset in.
We get the phase shift outputs, which are shifted to a side step according to a clock reference of the gates in the data in we entered in this section, from these outputs.
The first output is an exact copy of the data input the data in.
We can get 3 different versions with a step shifted from the second-third and fourth outputs.
Now we have a clock signal.
I can quickly listen to you this way.
Now I will send this clock signal to the shift register.
Let's do one more thing just before sending it to the shift register.
I prepared a kick channel. While the clock represents the 16th notes, this kick will hit the 4th notes.
This way, I think you can follow the metronome and the beats more easily.
I will send the outputs of the shift register to 3 synth voices. I built these synth voices with Osi-Op.
A very simple synth voice.
There are only 3 separate channels in the form of OSC-ENV-VCA.
These synth voices also FM each other.
Now we will play these 3 channels with the shift register.
Let's start the sequencer.
As soon as we enter the clock signal into the clock input of the shift register, the data in it will start to be erased immediately.
I will enter a separate gate into the Shift Register, only one channel and a pattern written from the sequencer.
I'm writing the pattern right now.
I input this signal into the shift register data input.
The signal coming out of the first output of the module is the version of the pattern I wrote at the exact right time and playing at the same time as a copy of the input pattern.
We can listen to the pattern we wrote through this output.
Now let's redirect this pattern to this channel.
This pattern is also a phase shifted version of the same pattern.
and let's add the 3rd Output.
Let's take a look at other options.

Let's try something else now.
When we remove the clock signal, you will see that the data stored in the memory of the shift register is frozen.
Now I remove the cable in the data in and direct the output 4 of the module back into the module itself, namely the data input.
In this way, the module can loop without losing the data in its memory and play this pattern forever.
As you've heard, it's very important where you start the clock.
With other output combinations, you can also find loop options such as 2 step - 3 step - 4 step.

Another method is to use the reset input on the module to diversify this patten.
I would like to remind you that we actually obtained this 3-channel loop from a single gate sequencer that we wrote at the beginning.

Another fun way is to get a 7-bit shift register by directing the 4th output to the lower shift register and sending the same clock to both shift registers.
Why 7 bits?
Because when you enter output 4 to the input of the 2nd shift register, exactly the same pattern will be output from the 1st output of the 2nd shift register.
In other words, output 4 of the 1st shift register and output 1 of the 2nd shift register will output exactly the same pattern.
In order to be able to connect them in series, we will sacrifice an output.


Website:
https://en.vaemi.net/product-page/r2r...
https://en.vaemi.net/product-page/shi...

Etsy:
https://www.etsy.com/shop/vaemisynth

Reverb.com:
https://reverb.com/shop/vaemisynth