Xaoc Devices give the ultra Nerds Rostock – a FIFO shift register with variable length (1-64 stages).
Important: Rostock is a part of the Leibniz Binary Subsystem. It MUST be connected to another module of this series (ideally: Drezno (II)). You may have seen the modus operandi of a shift register before. BBD Delays or Analog Shift Registers work in a similar manner. With each clock tick, data is passed on to the next stage – until it falls out the back and is “forgotten”. In the case of the Rostock these are ones and zeros, which can represent rhythms, CVs, audio-rate signals or even video signals depending on the integration. The module is easily clockable up to 2Mhz. In principle it is a very short delay or a very small memory, but it can also be looped or fed back. With creative patching techniques you can build chaos/random generators, sequence automations etc. out of it. Especially since each of the bit lines has its own clock input. Mighty, but also mighty abstract.
MAIN FEATURES
- Leibniz Binary Subsystem component
- Shift register / delay memory of up to 64 stages
- Voltage controlled length
- Via Feedback: Looping and scrambling
- Optional individual clock input to each bit line
HE: | 3 |
TE: | 8 |
Power consumption +12V: | 70 |
Power consumption -12V: | 40 |