About this Artwork:
This artwork is a mixed media display celebrating the Intel i960. The Intel i960 was introduced in 1985. The i960 was a family of 32-bit superscalar RISC processors. Originally designed for high-end fault-tollerant computer systems running the programming language Ada, the i960 found its popularity as an embedded processor for automation and control applications. The i960 has been used in many diverse applications: military, avionics, gaming, communications, graphics, and robots. The i960 architecture supported multiple instruction execution paths with branch prediction. The fastest i960 ran at 80MHz. The i960 had a 4GB flat memory model and a guarded memory unit. It also provided a 32-bit high performance bus executing at rates up 160MB/s. Its exceptionally fast interrupt unit supported 240 sources with 31 levels of priority.
This artwork includes 3 major items. It has a large image of an Intel i960 chip. On the back are the artist’s signature and a narrative describing the artwork and the i960. Also, the artwork includes an Intel i960 chip (NOS FC80960HD66).
Framing:
The artwork is framed in an 11"x14" black shadow box frame, with glass. All framing materials are acid free. A narrative about the artwork that includes the artist’s signature is placed on the back of the artwork.
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About Making Computer Chips:
Computer chips start out as ordinary sand, which is silicon dioxide. However, the silicon must be made very, very pure. The first step is to melt the sand, in a furnace that reaches about 3200o F, and mix with carbon. This first purification process creates 99% pure Silicon, a common output is Silicon Carbide. The Silicon Carbide is processed in a trichlorosilane distillation method to create 99.9999% pure silicon called polycrystalline silicon. The polysilicon is broken up into chunks. These chunks are melted in a crucible at about 2500o F. A silicon crystal seed is dipped in molten silicon and slowly drawn out to create a cylinder of silicon. These silicon cylinders are some of the purest crystals on the planet. Once the silicon cylinder is grown to the desired diameter, it is sawed into wafers. These wafers are polished to achieve a very flat mirror surface. Transistors, and other micro-electronic parts, are built on the polished wafer in layers in a process called etching. The wafer is then sawed into its individual chips. Each chip is mounted in an electronic package that serves to protect it and connect it to the outside world. It has been said that computer chips are the greatest value added product in the world. We essentially take a pile of sand and change it into thousands of dollars worth of computer chips.
General Information:
These artworks are the creation of ChipScapesTM artist Steve Emery. ChipScapesTM are photographs taken of computer chips, boards, and other computer artifacts. They are sort of chip landscapes, or ChipScapesTM for short. Most often a macro-lens or microscope is used with special lightning to achieve these unique artworks.
Intel, IBM, Fairchild, DEC, Signetics, Intersil, AMD, Zilog, Motorola, MOS, NEC, Texas Instruments, are some of the great chip making companies. Chips like the Intel 4004, MOS 6502, Zilog Z80, AMD 2901, IBM PowerPC and others have changed the way people work and play. ChipScapesTM are dedicated to preserving and sharing these computing and communication technologies that changed the world. ChipScapesTM artworks are fine collectible artworks. ChipScapesTM come is a variety of shapes sizes and colors. Clusters of my artwork make for stunning displays! A ChipScapeTM would make a great gift for the nerd, geek, engineer, programmer, IT executive, or just that technology savvy person in your life.
More Questions?
For more information about ChipScapesTM, please check out my ChipScapesTM website.
For more information about chip collecting as a hobby, please check out my AntiqueTechTM website.