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

Makoto Saen; Kenichi Osada; Yasuyuki Okuma; Kiichi Niitsu; Yasuhisa Shimazaki; Yasufumi Sugimori; Yoshinori Kohama; Kazutaka Kasuga; Itaru Nonomura; Naohiko Irie; Toshihiro Hattori; Atsushi Hasegawa; Tadahiro Kuroda

doi:10.1109/JSSC.2010.2040310

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

Makoto Saen, Kenichi Osada, Yasuyuki Okuma, Kiichi Niitsu, Yasuhisa Shimazaki, Yasufumi Sugimori, Yoshinori Kohama, Kazutaka Kasuga, Itaru Nonomura, Naohiko Irie, Toshihiro Hattori, Atsushi Hasegawa, Tadahiro Kuroda

研究成果: Article › 査読

24 被引用数 (Scopus)

抄録

This paper describes a three-dimensional (3-D) system integration of a full-fledged processor chip and two memory chips using inductive coupling. To attain a 3-D communication link with a smaller area and lower power-consumption, shortening the link distance and preventing signal degradation due to unused inductors are important challenges. Therefore, we developed a new 3D-integrated wire-penetrated multi-layer structure for a shorter link distance and an open-skipped-inductor scheme for suppressing signal degradation. In addition, to avoid undefined-value propagation in stacking multi-memories using an inductive-coupling link, we proposed a memory-access-control scheme with a pinpoint-data-capture scheme. We demonstrate that three fabricated chips can be successfully AC-coupled using 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.

本文言語	English
論文番号	5437487
ページ（範囲）	856-862
ページ数	7
ジャーナル	IEEE Journal of Solid-State Circuits
巻	45
号	4
DOI	https://doi.org/10.1109/JSSC.2010.2040310
出版ステータス	Published - 2010 4月

ASJC Scopus subject areas

電子工学および電気工学

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10.1109/JSSC.2010.2040310

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引用スタイル

Saen, M., Osada, K., Okuma, Y., Niitsu, K., Shimazaki, Y., Sugimori, Y., Kohama, Y., Kasuga, K., Nonomura, I., Irie, N., Hattori, T., Hasegawa, A., & Kuroda, T. (2010). 3-D system integration of processor and multi-stacked SRAMs using inductive-coupling link. IEEE Journal of Solid-State Circuits, 45(4), 856-862. 記事 5437487. https://doi.org/10.1109/JSSC.2010.2040310

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abstract = "This paper describes a three-dimensional (3-D) system integration of a full-fledged processor chip and two memory chips using inductive coupling. To attain a 3-D communication link with a smaller area and lower power-consumption, shortening the link distance and preventing signal degradation due to unused inductors are important challenges. Therefore, we developed a new 3D-integrated wire-penetrated multi-layer structure for a shorter link distance and an open-skipped-inductor scheme for suppressing signal degradation. In addition, to avoid undefined-value propagation in stacking multi-memories using an inductive-coupling link, we proposed a memory-access-control scheme with a pinpoint-data-capture scheme. We demonstrate that three fabricated chips can be successfully AC-coupled using 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.",

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AU - Shimazaki, Yasuhisa

AU - Sugimori, Yasufumi

AU - Kohama, Yoshinori

AU - Kasuga, Kazutaka

AU - Nonomura, Itaru

AU - Irie, Naohiko

AU - Hattori, Toshihiro

AU - Hasegawa, Atsushi

AU - Kuroda, Tadahiro

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N2 - This paper describes a three-dimensional (3-D) system integration of a full-fledged processor chip and two memory chips using inductive coupling. To attain a 3-D communication link with a smaller area and lower power-consumption, shortening the link distance and preventing signal degradation due to unused inductors are important challenges. Therefore, we developed a new 3D-integrated wire-penetrated multi-layer structure for a shorter link distance and an open-skipped-inductor scheme for suppressing signal degradation. In addition, to avoid undefined-value propagation in stacking multi-memories using an inductive-coupling link, we proposed a memory-access-control scheme with a pinpoint-data-capture scheme. We demonstrate that three fabricated chips can be successfully AC-coupled using 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.

AB - This paper describes a three-dimensional (3-D) system integration of a full-fledged processor chip and two memory chips using inductive coupling. To attain a 3-D communication link with a smaller area and lower power-consumption, shortening the link distance and preventing signal degradation due to unused inductors are important challenges. Therefore, we developed a new 3D-integrated wire-penetrated multi-layer structure for a shorter link distance and an open-skipped-inductor scheme for suppressing signal degradation. In addition, to avoid undefined-value propagation in stacking multi-memories using an inductive-coupling link, we proposed a memory-access-control scheme with a pinpoint-data-capture scheme. We demonstrate that three fabricated chips can be successfully AC-coupled using 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.

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

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