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At first, light available to humans came only from stars: the sun and its reflection on the moon. Formillennial mankind accepted its incapacity to see in the dark and adapted consequently to the naturalrhythm of the celestial spheres, of dawn and dusk. But such agreement changed about 2 million years ago.The appearance of the controlled use of fire marked the beginning of the search for how to transform nightinto day at will. But getting light from burning stuff was very inefficient (it heated more than illuminated)and uncomfortable (pollution due to smoke). Then about some 70 thousand years ago, light began to comefrom burning fuel: animal fat first, oil or wax then, or gas and kerosene more recently not only allowed amore efficient use of energy but also introduced the need for a more specific design of the light’s source.The appearance of electrical power at the turn of the last century started a technological development thatirrespective of the scientific principle employed to produce light (incandescent, fluorescent or metalhalides), made any other source of energy almost disappear. The next step in the production of light camewith the development of Light Emitting Diodes (LED). For the first time, light shifted from the electricalrealm to the field of electronics. But for some reason such revolutionary step has not permeated society;people look for lights and lamps in the white goods section, not in the electronics section. Our project forArtemide is about integrating the first and the last moment in the history of light: celestial spheres withelectronics. On the one hand we want light to vary its intensity and direction according to phases morethan moving pieces of a mechanism. On the other hand, we want to aknowledge the fact that the future oflight is electronic, not electric. The distinctive potential of electronics is its capacity to carry information thatallow for multiple ways of interaction, such as a tactile screen. So, our project is a low voltage, moveable,dark sphere intuitively activated by touch. Hence the name Huara, the aymarà word for star. Aymarà is thenative population of the Acatama desert, the driest and darkest one in the world. In other words, the placefrom where one can see more stars in the planet; no wonder that by 2020, 70 % of the cutting edgeastronomical observation capacity of the planet will be in the land of Aymarà. Huara is to honor the originallight source of mankind and the state of the art technology.