Redundancy Circuit for a Sub-nanosecond, Megabit ECL-CMOS SRAM
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概要
- 論文の詳細を見る
A novel redundancy method suitable for an ultra-high-speed SRAM with logic gates is proposed. Fuse decoders are used to reduce the number of fuses, thus suppressing the access time degradation. This makes it possible to flip chip bond an SRAM with logic gates, which has a high pin count and operates at a very high frequency. To combine the new redundancy method and an ECL decoder circuit with a BiCMOS inverter, several schemes for disabling a defective cell and enabling a spare one are discussed. A 1-Mb ECL-CMOS SRAM with 120-k logic gates was fabricated using 0.3-μm BiCMOS technology. This SRAM consists of 16 RAM macros, and the RAM macro had an access time of only 0.65 ns. The access time degradation after repair was less than 50 ps.
- 社団法人電子情報通信学会の論文
- 1996-03-25
著者
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Masuda Toru
Central Research Laboratory Hitachi Ltd.
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Ohhata Kenichi
Hitachi Device Engineering Co., Ltd.
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Nambu Hiroaki
Central Research Laboratory, Hitachi, Ltd.
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Kanetani Kazuo
Central Research Laboratory, Hitachi, Ltd.
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Homma Noriyuki
Hosei University
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Odaka Masanori
Device Development Center Hitachi Ltd.
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Idei Youji
Semiconductor Amp Integrated Circuits Div. Hitachi Ltd.
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Kanetani Kazuo
Central Research Laboratory Hitachi Ltd.
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Nambu Hiroaki
Central Research Laboratory Hitachi Ltd.
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Ohhata Kenichi
Hitachi Device Engineering Co. Ltd.
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KUSUNOKI Takeshi
Hitachi Device Engineering Co., Ltd.
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OHAYASHI Masayuki
Device Development Center, Hitachi, Ltd.
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HAMAMOTO Satomi
Device Development Center, Hitachi, Ltd.
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YAMAGUCHI Kunihiro
Device Development Center, Hitachi, Ltd.
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Yamaguchi K
Corporate Research & Development Center Toshiba Corporation
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Hamamoto Satomi
Device Development Center Hitachi Ltd.
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Kusunoki Takeshi
Hitachi Device Engineering Co. Ltd.
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Kusunoki Takeshi
Department Of Otolaryngology Shinkanaoka-toyokawa General Hospital
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Ohayashi Masayuki
Device Development Center Hitachi Ltd.
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