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FeRAM Roadmap Here’s a newcomer…

April 2001 FEP & PIDS WG (Japan). FeRAM Roadmap Here’s a newcomer…. S. Kawamura (Japan FEP). FeRAM Roadmap (version 5.0). Assumptions 1. Feature Size: 0.35 m m expected to be available in early 2002, 0.25 m m in 2003. x0.7 every 2-3 year. Memory Capacity:

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FeRAM Roadmap Here’s a newcomer…

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  1. April 2001 FEP & PIDS WG (Japan) FeRAM Roadmap Here’s a newcomer… S. Kawamura (Japan FEP)

  2. FeRAM Roadmap (version 5.0)

  3. Assumptions 1 Feature Size: 0.35mm expected to be available in early 2002, 0.25mm in 2003. x0.7 every 2-3 year. Memory Capacity: Intend to be aggressive to establish FeRAM market. x4 every 2-3 year.

  4. Storage Node Ferro. Film Plate (Planar) Plate Ferro. Film Storage Node (Stack) Assumptions 2 Cell Size: planar  stack (40% reduction), 2T2C  1T1C (40% reduction). Switching Charge Qsw: Constant DVbitline=140mV for sensing. Qsw=Cbitline x DVbitline.

  5. FeRAM vs. DRAM Giga scale integration will be available with a 3D capacitor. Capacity (Mb) Plate Ferro. Film Storage Node 3D 1T1C Year

  6. DVbitline Estimation Based on DRAM roadmap, DVbitline estimated to be 140mV.

  7. Qsw and Capacitor Structure Qsw/2Pr=Required Capacitor Area> Projected Capacitor Size3D.

  8. Issues 1 In order to enjoy “The Silence of the (other) RAM’s,” Reliability comes first to be focused on. *Ferroelectric materials: Should be stable under thermal budgets. *Fatigue: Some 1E+15 is required to compete with SRAM and DRAM.

  9. Issues 2 Application: Limited to small capacity embedded memory. Some “killer applications” should appear to establish FeRAM market. Cost: Not competitive due to large cell size. 1T1C and 3D capacitor are mandatory to reduce cost.

  10. Acknowledgements FEP & PIDS WG (Japan) would like to thank many researchers in this field in Japan: for the basic information and comments to draw up the roadmap, and the United States and Europe: for their useful comments to it .

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