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Design, Fabrication, and Testing of a Liquid Cooling Platform for High Power 3D-ICs

Published 31 Oct 2019 in physics.app-ph | (1911.00132v1)

Abstract: 3D integrated circuit (3D-IC) technology gained acceptance due to the ability to achieve extremely high level of integration, where hundreds of ICs are stacked vertically. Such level of integration can result in local power dissipation of more than 50 kW/cm2. This will lead to instant evaporation of the IC, unless an effective cooling technique is employed. Liquid cooling may be one of the most effective techniques for this task. To investigate the effectiveness of this technique, we designed, built and tested a testing platform. The platform includes a testing chip and a cooling module. The test chip contains heaters to provide the power and sensors to measure the local temperature. The study shows that the proposed cooling modules can reduce the temperature for a 420W/inch square circuits to a normal operating range of ICs of 39-50 degrees centigrade, using 2 phase R22 liquid coolant.

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