Dimitris Ladopoulos (previously) creates random geometric patterns based on four-sided-forms by implementing an algorithm in the 3D animation program Houdini. The resulting designs look like intricate circuitboards or miniature architectural models, and include networks of gilded elements that glisten despite their digital composition. To create the works, the algorithm splits a rectangle vertically and then horizontally. “The number of splits is randomly selected from a given max,” he explains. “The outcome is fed to the loop, again and again, depending on the number of user defined iterations. A seed value and slight alterations of the algorithm produce a variety of results.”
Adafruit has had paid day off for voting for our team for years, if you need help getting that going for your organization, let us know – we can share how and why we did this as well as the good results. Here are some resources for voting by mail, voting in person, and some NY resources for our NY based teams as well. If there are additional resources to add, please let us know – adafruit.com/vote
Stop breadboarding and soldering – start making immediately! Adafruit’s Circuit Playground is jam-packed with LEDs, sensors, buttons, alligator clip pads and more. Build projects with Circuit Playground in a few minutes with the drag-and-drop MakeCode programming site, learn computer science using the CS Discoveries class on code.org, jump into CircuitPython to learn Python and hardware together, TinyGO, or even use the Arduino IDE. Circuit Playground Express is the newest and best Circuit Playground board, with support for CircuitPython, MakeCode, and Arduino. It has a powerful processor, 10 NeoPixels, mini speaker, InfraRed receive and transmit, two buttons, a switch, 14 alligator clip pads, and lots of sensors: capacitive touch, IR proximity, temperature, light, motion and sound. A whole wide world of electronics and coding is waiting for you, and it fits in the palm of your hand.