Title :
Cooling of next generation computer chips: Parametric study for single- and two-phase cooling
Author :
Madhour, Yassir ; Zimmermann, Severin ; Olivier, Jonathan ; Thome, John ; Michel, Bruno ; Poulikakos, Dimos
Author_Institution :
Heat & Mass Transfer Lab., Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
The following study focuses on the scalability of single- and two-phase cooling techniques to address the cooling constraints and requirements of future vertically integrated chips. Water and refrigerant R134a were considered for single- and two-phase cooling respectively during simulations. A parametric study based on fin height, fin width and channel width of multi-microchannel heat removal structures was conducted for different power maps using an LTCM developed in-house code. Observations were made on junction temperature, pressure drop, and heat transfer coefficient behavior. Cooling structures with a fin height of 150 μm, fin width of 50 μm, and channel width of 100 μm showed sufficient cooling performance for homogeneous heat fluxes with 100 W/cm2 hot spots for both cooling techniques.
Keywords :
cooling; flow simulation; microchannel flow; microprocessor chips; refrigerants; two-phase flow; water; LTCM; channel width; different power map; fin height; fin width; heat transfer coefficient behavior; homogeneous heat fluxes; house next generation computer chip; in- house code; multimicrochannel heat removal structure; parametric study; single-phase cooling technique; two-phase cooling technique; vertically integrated chip; Coolants; Heat sinks; Heat transfer; Heating; Junctions; Microchannel;
Conference_Titel :
Thermal Investigations of ICs and Systems (THERMINIC), 2011 17th International Workshop on
Conference_Location :
Paris
Print_ISBN :
978-1-4577-0778-0
