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The most complicated components are the microprocessors. Some version of the [[ http://www.intel.com/ | Intel Atom ]] may be suitable. For a server-sat, it is preferable to use a fast, deep submicron, 1V processor with heavy doping (less sensitive to radiation damage) and at least an epi substrate. A trench isolated SOI process is preferred. AMD processors are all trench isolated SOI. Intel's Penryn process, with thick Hafnium oxide gates and work-function controlled gate metalization, will also be more radiation resistant. Over time, most process improvements desirable for high performance processors will also be desirable for radiation hardness. The most complicated components are the microprocessors. Some version of the [[ http://www.intel.com/products/processor/atom/ | Intel Atom ]] may be suitable. For a server-sat, it is preferable to use a fast, deep submicron, 1V processor with heavy doping (less sensitive to radiation damage) and at least an epi substrate. A trench isolated SOI process is preferred. AMD processors are all trench isolated SOI. Intel's Penryn process, with thick Hafnium oxide gates and work-function controlled gate metalization, will also be more radiation resistant. Over time, most process improvements desirable for high performance processors will also be desirable for radiation hardness.

Manufacturing Server Sky

Much of the manufacturing for Server Sky can happen in Washington County, Oregon, around Hillsboro.

The main component by weight is the solar cell. The Solar World plant in Hillsboro is the largest solar cell manufacturer in the US - certainly the most highly automated. The solar cells in their illustrations look like 100 millimeter diameter, but perhaps they can learn to make larger ones.

The most complicated components are the microprocessors. Some version of the Intel Atom may be suitable. For a server-sat, it is preferable to use a fast, deep submicron, 1V processor with heavy doping (less sensitive to radiation damage) and at least an epi substrate. A trench isolated SOI process is preferred. AMD processors are all trench isolated SOI. Intel's Penryn process, with thick Hafnium oxide gates and work-function controlled gate metalization, will also be more radiation resistant. Over time, most process improvements desirable for high performance processors will also be desirable for radiation hardness.

The most radiation sensitive components are likely to be the flash memory. These incorporate error correction, but software error correction and frequent rewrites may be necessary to correct for radiation induced charges.

The LCD material will be pretty simple. It will need to survive freezing, and the LCDs should be divided into separately-addressed cm-sized cells so that meteorite punctures will not disable a whole LCD. That said, they only need to switch very slowly, and consequently have wide flexibility in operating voltage. They will probably be constructed from a 1 micron layer of LCD material between two pieces of indium oxide coated 30 micron thick glass (which is commercially available). This is standard technology, and has been manufactured locally by startups such as Sarif and Steridian, and is currently manufactured by Sharp in Vancouver, Washington.

Washington county companies such as [[http://www.dwfritz.com/ | D.W. Fritz ] build wafer handling equipment .

MORE LATER

Manufacturing (last edited 2020-02-17 22:15:35 by KeithLofstrom)