Highly flexible row and column redundancy and cycle time adaptive read data path for double data rate synchronous memories

Kiyohiro Furutani; Takeshi Hamamoto; Takeo Miki; Masaya Nakano; Takashi Kono; Shigeru Kikuda; Yasuhiro Konishi; Tsutomu Yoshihara

Highly flexible row and column redundancy and cycle time adaptive read data path for double data rate synchronous memories

Kiyohiro Furutani^*, Takeshi Hamamoto, Takeo Miki, Masaya Nakano, Takashi Kono, Shigeru Kikuda, Yasuhiro Konishi, Tsutomu Yoshihara

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This paper describes two circuit techniques useful for the design of high density and high speed low cost double data rate memories. One is a highly flexible row and column redundancy circuit which allows the division of flexible row redundancy unit into multiple column redundancy unit for higher flexibility, with a new test mode circuit which enables the use of the finer pitch laser fuse. Another is a compact read data path which allows the smooth data flow without wait time in the high frequency operation with less area penalty. These circuit techniques achieved the compact chip size with the cell efficiency of 60.6% and the high band-width of 400 MHz operation with CL=2.5.

Original language	English
Pages (from-to)	255-262
Number of pages	8
Journal	IEICE Transactions on Electronics
Volume	E88-C
Issue number	2
Publication status	Published - 2005

Keywords

DRAM
High density
High speed
Redundancy

ASJC Scopus subject areas

Electrical and Electronic Engineering

Cite this

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title = "Highly flexible row and column redundancy and cycle time adaptive read data path for double data rate synchronous memories",

abstract = "This paper describes two circuit techniques useful for the design of high density and high speed low cost double data rate memories. One is a highly flexible row and column redundancy circuit which allows the division of flexible row redundancy unit into multiple column redundancy unit for higher flexibility, with a new test mode circuit which enables the use of the finer pitch laser fuse. Another is a compact read data path which allows the smooth data flow without wait time in the high frequency operation with less area penalty. These circuit techniques achieved the compact chip size with the cell efficiency of 60.6% and the high band-width of 400 MHz operation with CL=2.5.",

keywords = "DRAM, High density, High speed, Redundancy",

author = "Kiyohiro Furutani and Takeshi Hamamoto and Takeo Miki and Masaya Nakano and Takashi Kono and Shigeru Kikuda and Yasuhiro Konishi and Tsutomu Yoshihara",

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T1 - Highly flexible row and column redundancy and cycle time adaptive read data path for double data rate synchronous memories

AU - Furutani, Kiyohiro

AU - Hamamoto, Takeshi

AU - Miki, Takeo

AU - Nakano, Masaya

AU - Kono, Takashi

AU - Kikuda, Shigeru

AU - Konishi, Yasuhiro

AU - Yoshihara, Tsutomu

PY - 2005

Y1 - 2005

N2 - This paper describes two circuit techniques useful for the design of high density and high speed low cost double data rate memories. One is a highly flexible row and column redundancy circuit which allows the division of flexible row redundancy unit into multiple column redundancy unit for higher flexibility, with a new test mode circuit which enables the use of the finer pitch laser fuse. Another is a compact read data path which allows the smooth data flow without wait time in the high frequency operation with less area penalty. These circuit techniques achieved the compact chip size with the cell efficiency of 60.6% and the high band-width of 400 MHz operation with CL=2.5.

AB - This paper describes two circuit techniques useful for the design of high density and high speed low cost double data rate memories. One is a highly flexible row and column redundancy circuit which allows the division of flexible row redundancy unit into multiple column redundancy unit for higher flexibility, with a new test mode circuit which enables the use of the finer pitch laser fuse. Another is a compact read data path which allows the smooth data flow without wait time in the high frequency operation with less area penalty. These circuit techniques achieved the compact chip size with the cell efficiency of 60.6% and the high band-width of 400 MHz operation with CL=2.5.

KW - DRAM

KW - High density

KW - High speed

KW - Redundancy

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Highly flexible row and column redundancy and cycle time adaptive read data path for double data rate synchronous memories

Abstract

Keywords

ASJC Scopus subject areas

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