Central to Dmitri Cherniak's artistic journey lies a fundamental question: What boundless frontiers can be explored within the realm of automated art? With the deft application of algorithms, he meticulously forges intricate abstract masterpieces, each embodying its own unique mood and design. Harnessing the very technology that predominantly associates with social media giants and targeted advertisements, Cherniak ingeniously transforms it into a conduit for diverse forms of exquisite beauty. Consider "Light Years," an enthralling collection that weaves together layered, ethereal textures, exuding an understated yet mesmerizing aura, tenderly underpinned by unwavering conviction. These creations evoke profound existential sentiments, defying preconceived notions about artistry emerging from a computer-generated process. Conversely, "Ringers," one of Cherniak's most renowned collections, resides at the opposite end of the artistic spectrum. This series comprises crisp, graphic compositions conceived through code inspired by "The Graphic Design Manual," a seminal work penned by Swiss designer Armin Hofmann in the 1960s. Today, Cherniak stands as a prominent figure in the realm of generative art and creative coding, reshaping the boundaries of artistic expression. Yet, his path to this point involved challenging societal stereotypes that often relegated technology to a non-creative domain. Throughout his formative years, Cherniak excelled in STEM subjects and nurtured a passion for drawing, a seemingly incongruous combination. School and societal norms perpetuated the notion that one could only pursue either path, not both. Consequently, his academic prowess led him down a decade-long career as an engineer, during which he honed and perfected the coding skills and techniques that continue to manifest in his art today. The fruits of his labor are nothing short of remarkable – evocative, mesmerizing, and entirely unconventional. In every creation, Cherniak consistently subverts expectations regarding the creative potential of algorithms.