A 2.5-V 2.0-Gbyte/s 288-Mb packet-based DRAM with enhanced cell efficiency and noise immunity

A 2.5-V 2.0-Gbyte/s 288-Mb packet-based DRAM with enhanced cell efficiency and noise immunity

A 2.5-V 288-Mb packet-based DRAM with 32 banks and 18-DQ organization architecture achieving a peak bandwidth of 2.0-GB/s at V/sub DD/=2.25 V and T=100/spl deg/C has been developed using (1) an area- and performance-efficient chip architecture with a mixture of high-speed interface circuits with DRA...

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Veröffentlicht in:IEEE journal of solid-state circuits 2001-05, Vol.36 (5), p.735-743
Hauptverfasser: Kyung, Kye-Hyun, Lee, Hi-Choon, Song, Ki-Whan, Song, Ho-Sung, Jung, Keewook, Moon, Joon-Seo, Kim, Byoung-Sul, Cho, Sung-Burn, Kim, Changhyun, Cho, Soo-In
Format: Artikel
Sprache:eng
Schlagworte:
Architecture
Arrays
Bandwidth
Circuits
Current control
Design optimization
Distributed amplifiers
Driving
Dynamic random access memory
Flexible printed circuits
Frequency
Fuses
Organizations
Packaging
Random access memory
Redundancy
Timing
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Zusammenfassung:A 2.5-V 288-Mb packet-based DRAM with 32 banks and 18-DQ organization architecture achieving a peak bandwidth of 2.0-GB/s at V/sub DD/=2.25 V and T=100/spl deg/C has been developed using (1) an area- and performance-efficient chip architecture with a mixture of high-speed interface circuits with DRAM peripheral circuits to increase cell efficiency; (2) a multilevel controlled bitline equalizing scheme and a distributed sense amplifier driving scheme to enhance DRAM core timing margin while increasing the number of cells per wordline for cell efficiency over the previous subwordline driving scheme; (3) a flexible column redundancy scheme with multiple fuse boxes instead of excessive spare memory cell arrays for 143 internal I/O architecture; and (4) optimized I/O circuits and pin parasitic design including pad and package to maximize the operating frequency.
ISSN:0018-9200
1558-173X
DOI:10.1109/4.918910