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GLVLSI
2006
IEEE

Thermal analysis of a 3D die-stacked high-performance microprocessor

14 years 5 months ago
Thermal analysis of a 3D die-stacked high-performance microprocessor
3-dimensional integrated circuit (3D IC) technology places circuit blocks in the vertical dimension in addition to the conventional horizontal plane. Compared to conventional planar ICs, 3D ICs have shorter latencies as well as lower power consumption, due to shorter wires. The benefits of 3D ICs increase as we stack more die, due to successive reductions in wire lengths. However, as we stack more die, the power density increases due to increasing proximity of active (heat generating) devices, thus causing the temperatures to increase. Also, the topmost die on the 3D stack are located further from the heat sink and experience a longer heat dissipation path. Prior research has already identified thermal management as a critical issue in 3D technology. In this paper, we evaluate the thermal impact of building high-performance microprocessors in 3D. We estimate the temperatures of a planar IC based on the Alpha 21364 processor as well as 2-die and 4-die 3D implementations of the same. ...
Kiran Puttaswamy, Gabriel H. Loh
Added 11 Jun 2010
Updated 11 Jun 2010
Type Conference
Year 2006
Where GLVLSI
Authors Kiran Puttaswamy, Gabriel H. Loh
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