1 / 13

Introduction to CMOS VLSI Design Lecture 2: Standard Cell Design Layout

Introduction to CMOS VLSI Design Lecture 2: Standard Cell Design Layout. Salman Zaffar IqraUniversity , Spring 2012. Slides from D. Harris, Harvey Mudd College USA. Gate Layout. Layout can be very time consuming Design gates to fit together nicely Build a library of standard cells

dwight
Télécharger la présentation

Introduction to CMOS VLSI Design Lecture 2: Standard Cell Design Layout

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Introduction toCMOS VLSIDesignLecture 2: Standard Cell Design Layout SalmanZaffar IqraUniversity, Spring 2012 Slides from D. Harris, Harvey Mudd College USA

  2. Gate Layout • Layout can be very time consuming • Design gates to fit together nicely • Build a library of standard cells • Standard cell design methodology • VDD and GND should abut (standard height) • Adjacent gates should satisfy design rules • nMOS at bottom and pMOS at top • All gates include well and substrate contacts Lecture 2

  3. Example: Inverter Lecture 2

  4. Example: NAND3 • Horizontal N-diffusion and p-diffusion strips • Vertical polysilicon gates • Metal1 VDD rail at top • Metal1 GND rail at bottom • 32 l by 40 l Lecture 2

  5. Stick Diagrams • Stick diagrams help plan layout quickly • Need not be to scale • Draw with color pencils or dry-erase markers Lecture 2

  6. Wiring Tracks • A wiring track is the space required for a wire • 4 l width, 4 l spacing from neighbor = 8 l pitch • Transistors also consume one wiring track Lecture 2

  7. Well spacing • Wells must surround transistors by 6 l • Implies 12 l between opposite transistor flavors • Leaves room for one wire track Lecture 2

  8. Area Estimation • Estimate area by counting wiring tracks • Multiply by 8 to express in l Lecture 2

  9. Example: O3AI • Sketch a stick diagram for O3AI and estimate area Lecture 2

  10. Example: O3AI • Sketch a stick diagram for O3AI and estimate area Lecture 2

  11. Example: O3AI • Sketch a stick diagram for O3AI and estimate area Lecture 2

  12. Standard Cells • Uniform cell height • Uniform well height • M1 VDD and GND rails • M2 Access to I/Os • Well / substrate taps • Exploits regularity Lecture 2

  13. Layout through Synthesis • Synthesize HDL into gate-level netlist • Place & Route using standard cell library Lecture 2

More Related