Abacusynth (Hardware)

Front view of Abacusynth: a wooden device holding four rods vertically. Each rod has a colored triangular object that can spin and be moved side to side

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Abacuysnth is a synthesizer inspired by an abacus, the ancient counting tool used all around the world. Just like an abacus is used to learn the fundamentals of math, the Abacusynth can be used to explore the building blocks of audio synthesis.

It exists in two forms, one digital and one physical, that are both based on the same primary interaction: placing and manipulating shapes on rods. The visual and tactile control makes it easy and fun to create rich timbres sounds without having to fiddle with lots of knobs and sliders.

For more on the process, check out my blog posts explaining the fabrication, spinners, electronics, and code.

Timbre refers to all qualities of a sound that are not its pitch or volume. It is what differentiates different instruments that are playing the same note. Acoustic instruments produce timbre with their physical vibrations and resonances, and you can often adjust it using a modifier - such as the pedals on a piano or a mute for the trumpet.

Synthesizers generate timbre electronically, meaning the control is not limited by any physical barrier. Lots of controls allow for granular control over timbre, but the complexity can often be prohibitive for beginners (and even tiresome for experienced musicians). The kind of timbral control that synthesizers provide is arguably just as “musical” as melody or rhythm, but it's not often emphasized for someone learning music.

This is because most synths cater to the “Big C” creator, the professional or virtuoso who requires granular control in order to achieve their goal, and who is either willing or required to learn complex interfaces in order to do so.

My target user is a “little C” creator, someone who is being creative just for the fun of it, and is more interested in feeling good while creating, instead of being focused on the outcome. This type of engagement is just as creative as “Big C”, but is not studied or considered as much when talking about design.

This idea is summed up in a paper by Kate Compton, in which she introduces the term Casual Creator to define the class of systems that supports creativity for creativity's sake. I used the principles laid out in Compton's research to guide my design and development.

Many of the casual creator music making tools out there focus on melody or song creation. My goal was to make an interface that explores synthesis and timbre.

Abacusynth with two of the spinners in motion

The interface organizes the timbral building blocks in a visual and spatial interface that prioritizes interaction and invites experimentation. My goal with the physical device was to create an instrument that someone could interact with immediately and directly (as opposed to the software where you need a computer + general computer knowledge). And since the original inspiration is a physical object anyway, I already had a sense of how the interactions could translate.

Closeup shot of three of the rods and spinners

Profile shot of the Abacusynth, showing four colored knobs on the side

Interpreting the Casual Creator ideas into the physical form meant building a standalone device with a built-in speaker. When you turn it on, it starts making sound so that you can immediately interact with it. As you explore the possibility space, you discover new sounds through your actions.

Closeup shot of the joint between the wooden wall and the rod

Someone's hand turning the knob on the device

The encoder controls the discrete options (things that change instantly) -- such as changing the waveform or harmonic. The spinning and sliding motions map to continuous parameters that are changed over time.

Closeup of one of the spinners in motion

The spinning interaction takes advantage of physics to illustrate a sonic phenomenon. It's what sets the interaction apart from any software, so it was the first thing I started developing.


Photo showing the middle section (holding the rods and spinners) removed from the outer section

Moving forward, I am thinking a lot about modularity. I designed the inner section to be removable (so it doesn't have any electronics in it). Theoretically this could be swapped out for another more experimental design (maybe featuring one or two bigger spinners). Additionally, the core concept could be reduced to individual modules that could be stacked or linked together in some way.


closeup of the red spinner

I think the color adds an element of playfulness but I plan on experimenting with different palettes. The good thing is that the colored elements are easily replaceable so I could create multiple sets.