3-D Sequential Integration: A Key Enabling Technology for Heterogeneous Co-Integration of New Function With CMOS

Author

Batude, Perrine ; Ernst, Thomas ; Arcamone, Julien ; Arndt, Gregory ; Coudrain, Perceval ; Gaillardon, Pierre-Emmanuel

Author_Institution

CEA-leti, Grenoble, France

Volume

2

Issue

4

fYear

2012

Firstpage

714

Lastpage

722

Abstract

3-D sequential integration stands out from other 3-D schemes as it enables the full use of the third dimension. Indeed, in this approach, 3-D contact density matches with the transistor scale. In this paper, we report on the main advances enabling the demonstration of functional and performant stacked CMOS-FETs; i.e., wafer bonding, low temperature processes (<;650°C) and salicide stabilization achievements. This integration scheme enables fine grain partitioning and thus a gain in performance versus cost ratio linked to separation of heterogeneous technologies on distinct levels. In this work, we will detail examples taking advantage of the unique 3-D contact pitch achieved with sequential 3-D.

Keywords

CMOS integrated circuits; field effect transistors; three-dimensional integrated circuits; 3D contact density; 3D contact pitch; 3D schemes; 3D sequential integration; CMOS-FET; fine grain partitioning; low temperature processes; salicide stabilization; transistor scale; wafer bonding; Nanoelectronics; Sequential analysis; Temperature measurement; Three dimensional displays; 3-D monolithic integration; 3-D sequential integration; Low temperature process; molecular bonding; solid phase epitaxy; three-dimensional (3-D) integration;

fLanguage

English

Journal_Title

Emerging and Selected Topics in Circuits and Systems, IEEE Journal on

Publisher

ieee

ISSN

2156-3357

Type

jour

DOI

10.1109/JETCAS.2012.2223593

Filename

6374247