• DocumentCode
    1376715
  • Title

    A 667 MHz Logic-Compatible Embedded DRAM Featuring an Asymmetric 2T Gain Cell for High Speed On-Die Caches

  • Author

    Chun, Ki Chul ; Jain, Pulkit ; Kim, Tae-Ho ; Kim, Chris H.

  • Author_Institution
    Dept. of Electr. & Comput. Eng., Univ. of Minnesota, Minneapolis, MN, USA
  • Volume
    47
  • Issue
    2
  • fYear
    2012
  • Firstpage
    547
  • Lastpage
    559
  • Abstract
    Circuit techniques for enhancing the retention time and random cycle of logic-compatible embedded DRAMs (eDRAMs) are presented. An asymmetric 2T gain cell utilizes the gate and junction leakages of a PMOS write device to maintain a high data `1´ voltage level which enables fast read access using an NMOS read device. A current-mode sense amplifier (C-S/A) featuring a cross-coupled PMOS latch and pseudo-PMOS diode pairs is proposed to overcome the innate problem of small read bit-line (RBL) voltage swing in 2T eDRAMs with improved voltage headroom and better impedance matching under process-voltage-temperature (PVT) variations. A half-swing write bit-line (WBL) scheme is adopted to improve the WBL speed by 33% and reduce its power dissipation by 25% during write-back operation with no effect on retention time. A stepped write word-line (WWL) driver reduces the current drawn from the boosted high and low supplies by 67%. A 192 kb eDRAM test chip with 512 cells-per-BL implemented in a 65 nm low-power (LP) CMOS process shows a random cycle frequency and latency of 667 MHz and 1.65 ns, respectively, at 1.1 V and 85 × °C. The measured refresh period at a 99.9% bit yield condition was 110 μs which is comparable to that of recently published 1T1C eDRAM designs.
  • Keywords
    CMOS digital integrated circuits; DRAM chips; amplifiers; impedance matching; low-power electronics; NMOS read device; PMOS write device; asymmetric 2T gain cell; cross-coupled PMOS latch; current-mode sense amplifier; frequency 667 MHz; gate leakages; half-swing write bit-line scheme; high speed on-die caches; impedance matching; improved voltage headroom; junction leakages; logic-compatible embedded DRAM; low-power CMOS process; process-voltage-temperature variations; pseudo-PMOS diode pairs; read bit-line voltage swing; size 65 nm; stepped write word-line driver; temperature 85 degC; time 1.65 ns; time 110 mus; voltage 1.1 V; write-back operation; Gate leakage; Latches; MOS devices; Power dissipation; Random access memory; Transistors; 2T gain cell; Cache; logic-compatible eDRAM; random cycle; sense amplifier;
  • fLanguage
    English
  • Journal_Title
    Solid-State Circuits, IEEE Journal of
  • Publisher
    ieee
  • ISSN
    0018-9200
  • Type

    jour

  • DOI
    10.1109/JSSC.2011.2168729
  • Filename
    6081952