What is a microchip art?
microchip art is simply a microscopic drawing that is created as part of the microchip production process. The microchip art is basically the result of the time -recognized tradition of microchips designers that leave the chip. This impression serves as a signature of the art created by a designer.
In real form, it is impossible to see microchip art with the naked eye. The microchip display using a microscope reveals the presence of impression or signature. The microchip art is usually found in the upper layers of the chip surface, located strategically in the corner of a masked chip that is not used.
While the creation of the art of microchips has existed for several years, only in 1998 the general public realized etching on the surface of microchips. The discovery of microchip art was the result of the accidental discovery of photographer Michal David. He was involved in the project of photography of geometric patterns, Davidson, noticed what seemed to be a deviation from the patterns, and approached a closer look. What he found was the etching of Wald, PDirectly popular sets of children's books called Where is Waldo? The subsequent examination of the surfaces of other microchips brought more examples of the different impressions that the creators left.
Since 1998, many different types of etchings have been found on microchips, which date back to 1980. The reasons for selecting the subject for etching are different. In some cases, the etching has a certain connection with the intended purpose for the chip. Other times, the choice of etching has to do with individual taste of the designer.
Not everyone is a fan of microchip art. The device used to create etching really helps to identify design deficiencies, not depot microchip. Some manufacturers believe that the presence of microchip art could disrupt the productivity of the chip, especially when the chips become more sophisticated. Fans of microchip art declare that etching always takes place in the surface area that nepoIt uses for any function and therefore does not pose any threat to the chip efficiency.