Richard Vijgen hyperlinks microchip design with textile weaving
Hyperthread by knowledge artist Richard Vijgen examines the intersection of microchip design and TEXTILE woven, drawing parallels between parametric chip design and Jacquard weaving. The venture reimagines the intricate constructions of microchips as woven textiles, highlighting the widespread binary logic (gap/no gap, thread up/down) that underlies each digital and textile applied sciences.
The Jacquard Loom, a precursor to the fashionable laptop, used punch playing cards, a sequence of cardboard playing cards punched with holes to automate weaving, a system much like in the present day's binary code. This methodology of wire management mirrors the looks of microchip circuits, the place electrical currents circulation by layers of silicon and metallic, very similar to threads criss-cross in a tissue. Though microchip designs are a byproduct of their logical design, Vijgen's venture highlights their visible complexity and aesthetic potential.
Hyperthread Collection Overview | all pictures courtesy of Richard Vijgen
Hyperthread interprets code into tapestries with graphic patterns
In Hyperthread, public area microchips similar to cryptographic key turbines, processors, and flipflops are visualized by open-source software program that interprets the code into three-dimensional graphical fashions. These designs, sometimes designed on nanoscale silicon, are as a substitute transformed into millimeter-scale weaving directions. The ensuing tapestries, produced at Textiellab within the Netherlands, function the intricate patterns of the microchips, now magnified four,000 instances and woven into colourful threads.
The tapestries differ in dimension, with the only chip, a flipflop, measuring simply 18×16 cm, and probably the most advanced, a Gaussian Noise Generator, measuring 159×144 cm. Regardless of the elevated dimension, the parametric patterns stay undetectable by people, though they reveal the numerous complexity of microchips on a tactile, human scale. By way of Hyperthread, knowledge artist Richard Vijgen invitations viewers to discover the visible, spatial and materials points of digital know-how, linking the historical past of Jacquard weaving to the complexities of recent chip design, utilizing weaving as a medium to bridge the previous and current of computational aesthetics.
Hyperthread reimagines microchip designs as woven tapestries | Gaussian noise generator
Richard Vijgen's Hyperthread combines Jacquard cloth with trendy chip design | Gaussian noise generator
Public area microchips are translated into intricate textile patterns in Hyperthread | AES key generator
trendy microchips with as much as 100 layers are visualized as colourful tapestries | AES key generator
currents within the microchips resemble threads in a tissue, creating advanced patterns | 8080 emulator
Hyperthread highlights the visible great thing about parametric chip designs | 8080 emulator