1-GHz fully pipelined 3.7-ns address access time 8 k x 1024 embedded synchronous DRAM macro

1-GHz fully pipelined 3.7-ns address access time 8 k x 1024 embedded synchronous DRAM macro

This embedded-DRAM macro is designed as a DRAM cache for a future gigahertz microprocessor system based on a logic-based DRAM technology. The most notable feature of this macro is its ability to run synchronously with a gigahertz CPU clock in a fully pipelined fashion. It is designed to operate with...

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Veröffentlicht in:IEEE journal of solid-state circuits 2000-11, Vol.35 (11), p.1673-1679
Hauptverfasser: Takahashi, Osamu, Dhong, Sang H, Ohkubo, Manabu, Onishi, Shohji, Dennard, Robert H, Hannon, Robert, Crowder, Scott, Iyer, Subramanian S, Wordeman, Matthew R, Davari, Bijan, Weinberger, William B, Aoki, Naoaki
Format: Artikel
Sprache:eng
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Zusammenfassung:This embedded-DRAM macro is designed as a DRAM cache for a future gigahertz microprocessor system based on a logic-based DRAM technology. The most notable feature of this macro is its ability to run synchronously with a gigahertz CPU clock in a fully pipelined fashion. It is designed to operate with a 1-GHz clock signal at 85 degree C, nominal process parameters, and a 10% degraded V sub(DD). The design is fully pipelined and synchronous with 16 independent subarrays. With 1-kb wide I/O and a 1-GHz clock, the maximum data rate becomes 1 Tb per second. The address access time is 3.7 ns, four cycles with a 1-GHz clock. The subarray cycle time is 12 ns.
ISSN:0018-9200
DOI:10.1109/4.881214