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The Short, Medium and Long-Term Path to the 3D Ecosystem

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Presentation on theme: "The Short, Medium and Long-Term Path to the 3D Ecosystem"— Presentation transcript:

1 The Short, Medium and Long-Term Path to the 3D Ecosystem
Panel Discussion at EDPS A Monolithic 3D-IC Perspective Deepak C. Sekar

2 Two Types of 3D Technology
3D-TSV Transistors made on separate high temperature, then thin + align + bond Monolithic 3D Transistors made monolithically atop wiring sub-400oC for logic) 100 nm 10um- 50um TSV pitch > 1um* TSV pitch ~ nm * [Reference: P. Franzon: Tutorial at IEEE 3D-IC Conference 2011]

3 A Process Flow for Monolithic 3D: Recessed Channel Transistors with Activation before Layer Transfer
Layer transfer un-patterned film. No alignment issues. Activate dopants n+ Oxide p p p p- Si wafer n+ p- Si wafer H n+ Well-aligned sub-400C RCATs Si thickness < 100nm Min. feature size TSVs since low Si thickness, no misalignment issues n+ p Steps atop Cu/low k < 400oC RCATs used in production DRAM since the 90nm node  Adoption easier n+ p [D. C. Sekar, Z.Or-Bach, “Monolithic 3D-ICs with Single Crystal Silicon Layers”, Proc. IEEE 3DIC Conference 2011 (Invited)]

4 SRAM-Logic Stacking SRAM requirements different from logic today Different number of metal levels, Vt, Leff... Ultra-dense vertical connectivity needed, esp. for small size SRAMs within a logic core  good fit for Monolithic 3D Optimized SRAM 5 metal levels can save process cost, and improve performance. Ultra-dense connectivity Logic Circuits 12 metal levels EDA need: Tools to partition designs and stack the SRAM Ref.: [D. Sekar, PhD Thesis, Georgia Tech]

5 Logic-Logic Stacking with High TSV Density
Today “Pseudo-3D” EDA Tools Needed for Monolithic 3D “Native-3D” EDA Tools 3D routing, placement, floorplanning tools that work for TSVs close to min. feature size Support for both block-level and gate-level partitioning Logic DRAM Modify existing 2D tools slightly TSVs in whitespace or modify existing layout slightly for TSVs to stacked layer OK for today’s 5um TSVs (low density)

6 Power Distribution Network Design
Good heat removal for monolithic 3D Power Distribution Network Design Thermal-Aware Place-and-Route = Most logic gates have VDD and GND contacts Low (thermal) resistance power grids  low temp. drop between heat sink and stacked logic gate Promising simulation results VDD GND EDA need: Integrate power distribution design with (thermal-aware) place-and-route for monolithic 3D Ref.: [D. Sekar, Z. Or-Bach, US Patent Application #13/041,405]

7 How will monolithic 3D technology tackle this familiar problem?
Suggestion to the EDA community: EDA tools for logic-logic stacking starting to be developed for um-scale TSVs. Make sure your algorithms are scalable to nm-scale TSVs… they might happen someday!!

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