3D system integration of processor and multi-stacked SRAMs by using inductive-coupling links - Concepedia

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3D system integration of processor and multi-stacked SRAMs by using inductive-coupling links

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References

2009

Year

Kenichi Osada, Makoto Saen, Yasuyuki Okuma, Kiichi Niitsu, Yasuhisa Shimazaki, Yasufumi Sugimori, Yoshinori Kohama, Kazutaka Kasuga, Itaru Nonomura, Naohiko Irie,

Unknown Venue

Inductive CouplingEngineeringVlsi DesignMemory ChipsDevice IntegrationComputer ArchitectureMulti-stacked SramsIntegrated CircuitsSystem IntegrationMulti-channel Memory ArchitectureInterconnect (Integrated Circuits)Inductive-coupling LinksAdvanced Packaging (Semiconductors)Heterogeneous IntegrationFunctional Processor ChipParallel ComputingElectronic Packaging3D Ic ArchitectureElectrical EngineeringComputer EngineeringMicroelectronicsMemory ArchitectureThree-dimensional Heterogeneous IntegrationThree-dimensional Integrated Circuits3D Integration

Abstract

This paper describes a three-dimensional (3D) system integration of a fully functional processor chip and two memory chips by using inductive coupling. To attain a shorter link distance for a smaller area and lower power consumption, a new 3D-integrated wire-penetrated multi-layer structure is developed. In addition, to prevent signal degradation due to unused inductors, an “open-skipped-inductor scheme” is proposed. We present the first demonstration that three fabricated chips are successfully AC-coupled by the inductive coupling. The power and area efficiency of the link are 1 pJ/b and 0.15 mm2/Gbps, respectively, which are the same as those of two-chip integration.