Elxsis
computational art & research studio

Elxsis works at the intersection of computation and scientific imagination, developing visual research across dynamical systems, astrophysical data, quantum structures, and emergent mathematical forms. Our work combines scientific modelling with high-resolution computational design to reveal new aesthetic and structural possibilities.

Lorenz Loop, from Motion Studies for Invisible Systems

Elxsis

Elxsis works at the intersection of computation and scientific imagination, developing visual research across dynamical systems, astrophysical data, quantum structures, and emergent mathematical forms. The studio treats models, simulations, and datasets as raw material, not as content to be illustrated, but as places to look for structure, behaviour, and surprise.

Some experiments begin as a simple rule-set and end as a cinematic field. Others start with a scientific instrument or catalogue and become a new kind of map. Across all of it, the aim is the same: high-resolution computational design used with restraint and care, until the underlying system becomes legible and strange in the best way, and the work holds up as an object, a loop, or a room-scale image.

Current focus

Motion Studies for Invisible Systems

Motion Studies for Invisible Systems is an ongoing set of animation studies drawn from dynamical systems. It brings together strange attractors, cellular automata, and complex fields, looking for images that feel precise, readable, and slightly uncanny.

The next phase is three finished pieces and a compact project page with selected frames and short notes, followed by a prototype screening to test presentation and gather feedback.

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Featured experiments

View all experiments

Lorenz Loop

A short MXWLL Originals film: a 20-second, seamless 4K loop that treats a Lorenz attractor as a sculptural object rather than a plot. Black ink on white, clean linework, no glossy CGI cues.

MXWLL Originals / dynamical systems

Weyl Symmetries series

High-resolution studies built from projections of the E8 Weyl symmetry structure. Each image begins with a fixed configuration and a chosen projection seed, then resolves as a dense field of edges where colour encodes angular change across the projection.

algebraic structures / print series

Gaia HR maps

Variations on Hertzsprung-Russell diagrams and related Gaia-derived maps, tuned for legibility, density, and tonal control across screen and print.

astrophysics / dataset maps