Thermodynamics of computation and linear stability limits of superfluid refrigeration of a model computing array

Thermodynamics of computation and linear stability limits of superfluid refrigeration of a model computing array

We analyze the stability of the temperature profile of an array of computing nanodevices refrigerated by flowing superfluid helium, under variations in temperature, computing rate, and barycentric velocity of helium. It turns out that if the variation in dissipated energy per bit with respect to tem...

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Veröffentlicht in:Zeitschrift für angewandte Mathematik und Physik 2019-08, Vol.70 (4), p.1-15, Article 121
Hauptverfasser: Sciacca, Michele, Sellitto, Antonio, Galantucci, Luca, Jou, David
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
Computation
Engineering
Fluids
Helium
Mathematical Methods in Physics
Nanotechnology devices
Refrigeration
Stability analysis
Superfluidity
Temperature profiles
Theoretical and Applied Mechanics
Thermal conductivity
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Zusammenfassung:We analyze the stability of the temperature profile of an array of computing nanodevices refrigerated by flowing superfluid helium, under variations in temperature, computing rate, and barycentric velocity of helium. It turns out that if the variation in dissipated energy per bit with respect to temperature variations is higher than some critical values, proportional to the effective thermal conductivity of the array, then the steady-state temperature profiles become unstable and refrigeration efficiency is lost. Furthermore, a restriction on the maximum rate of variation in the local computation rate is found.
ISSN:0044-2275
1420-9039
DOI:10.1007/s00033-019-1162-7