A Large-Scale, Flip-Flop RAM Imitating a Logic LSI for Fast Development of Process Technology

Masako FUJII; Koji NII; Hiroshi MAKINO; Shigeki OHBAYASHI; Motoshige IGARASHI; Takeshi KAWAMURA; Miho YOKOTA; Nobuhiro TSUDA; Tomoaki YOSHIZAWA; Toshikazu TSUTSUI; Naohiko TAKESHITA; Naofumi MURATA; Tomohiro TANAKA; Takanari FUJIWARA; Kyoko ASAHINA; Masakazu OKADA; Kazuo TOMITA; Masahiko TAKEUCHI; Shigehisa YAMAMOTO; Hiromitsu SUGIMOTO; Hirofumi SHINOHARA

doi:10.1093/ietele/e91-c.8.1338

Special Section on Microelectronic Test Structures (ICMTS2007)

A Large-Scale, Flip-Flop RAM Imitating a Logic LSI for Fast Development of Process Technology

Masako FUJII, Koji NII, Hiroshi MAKINO, Shigeki OHBAYASHI, Motoshige IGARASHI, Takeshi KAWAMURA, Miho YOKOTA, Nobuhiro TSUDA, Tomoaki YOSHIZAWA, Toshikazu TSUTSUI, Naohiko TAKESHITA, Naofumi MURATA, Tomohiro TANAKA, Takanari FUJIWARA, Kyoko ASAHINA, Masakazu OKADA, Kazuo TOMITA, Masahiko TAKEUCHI, Shigehisa YAMAMOTO, Hiromitsu SUGIMOTO, Hirofumi SHINOHARA

著者情報

Masako FUJII
Renesas Technology Corporation
Koji NII
Renesas Technology Corporation
Hiroshi MAKINO
Renesas Technology Corporation
The Institute of Electronics, Information and Communication Engineers
Shigeki OHBAYASHI
Renesas Technology Corporation
Motoshige IGARASHI
Renesas Technology Corporation
Takeshi KAWAMURA
Renesas Technology Corporation
Miho YOKOTA
Renesas Technology Corporation
Nobuhiro TSUDA
Renesas Technology Corporation
Tomoaki YOSHIZAWA
Renesas Technology Corporation
Toshikazu TSUTSUI
Renesas Technology Corporation
Naohiko TAKESHITA
Renesas Technology Corporation
Naofumi MURATA
Renesas Technology Corporation
Tomohiro TANAKA
Renesas Technology Corporation
Takanari FUJIWARA
Renesas Design Corporation
Kyoko ASAHINA
Renesas Technology Corporation
Masakazu OKADA
Renesas Technology Corporation
Kazuo TOMITA
Renesas Technology Corporation
Masahiko TAKEUCHI
Renesas Technology Corporation
Shigehisa YAMAMOTO
Renesas Technology Corporation
Hiromitsu SUGIMOTO
Renesas Technology Corporation
Hirofumi SHINOHARA
Renesas Technology Corporation
The Institute of Electronics, Information and Communication Engineers

キーワード: large-scale integration, logic circuit fault diagnosis, SRAM, yield optimization

ジャーナル認証あり

2008 年 E91.C 巻 8 号 p. 1338-1347

DOI https://doi.org/10.1093/ietele/e91-c.8.1338

詳細

抄録

We propose a new large-scale logic test element group (TEG), called a flip-flop RAM (FF-RAM), to improve the total process quality before and during initial mass production. It is designed to be as convenient as an SRAM for measurement and to imitate a logic LSI. We implemented a 10 Mgates FF-RAM using our 65-nm CMOS process. The FF-RAM enables us to make fail-bit maps (FBM) of logic cells because of its cell array structure as an SRAM. An FF-RAM has an additional structure to detect the open and short failure of upper metal layers. The test results show that it can detect failure locations and layers effortlessly using FBMs. We measured and analyzed it for both the cell arrays and the upper metal layers. Their results provided many important clues to improve our processes. We also measured the neutron-induced soft error rate (SER) of FF-RAM, which is becoming a serious problem as transistors become smaller. We compared the results of the neutron-induced soft error rate to those of previous generations: 180nm, 130nm, and 90nm. Because of this TEG, we can considerably shorten the development period for advanced CMOS technology.

責任著者(Corresponding author)

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