Jamil Kawa at Synopsys has just written a new White Paper, Designing with FinFETs: The Opportunities and the Challenges. This blog summarizes the major points of the White Paper on FinFETs and how it effects the IC design process.
There's a bit of marketing hype in the Intel statement of transistors now entering the third dimension because all planar transistors have three dimensions, it's just that the FinFET is notably taller than planar CMOS transistors.
Simplified transistor comparison not drawn to scale, Planar vs FinFET
Attractive features of the FinFET transistors include:
- Lower leakage currents caused by a fully depleted channel region
- Reduced short-channel effects
- More transistors/unit area due to 3D layout
- Less variation effects from dopant fluctuation
- Lower Line Edge Roughness (LER) variation
- Improved performance margins
- Lower retention voltage in SRAMs
Intel's 22nm Tri-Gate technology showing a wider performance advantage at lower VDD
Source: Mark Bohr, Intel. May 2011.
Negative consequences of using FinFET devices are:
- Quantized channel widths, fewer choices compared to planar CMOS
- More complex SPICE models, longer simulation run times
- More complex extraction rules and longer extraction run times
- Body-biasing techniques lose their effectiveness
- Additional Restricted Design Rules (RDR)
- New Layout Proximity Effects (LPE)
- Reliability concerns, Negative-Bias Temperature Instability (NBTI) and Positive-Bias Temperature Instability (PBTI)
Stress simulation of FinFETs
Parasitics model of the FinFET
With the increased number of layout rules for FinFET devices you want to use a rule-driven layout flow, instead of the old sequential flow of: Schematic design, Layout design, batch rule check, iterate until correct.
EDA Tool Flow
Synopsys has seven EDA tools used to implement FinFET-based IC designs:
|EDA Category||EDA Tool|
|SPICE circuit simulation||HSPICE, CustomSim|
|IC schematic and layout editing||Custom Designer|
|DRC and LVS checking||IC Validator|
|Implementation (Logic Synthesis, P&R)||Galaxy|
Intel started using FinFET devices at the 22nm node in 2011 while other foundries have announcements for FinFETs at 14nm nodes coming up in 2013 and later. EDA tool flows have been updated to account for the new FinFET issues, so the big question that remains is silicon pricing and yield compared to planar technology.
Read the complete White Paper here after a brief registration process.
- FinFET Wiki
- GLOBALFOUNDRIES Announces 14nm Process
- Intel's finfets too complex and difficult?
- FinFET Standard Cells at DAC
- Industry Standard FinFET versus Intel Tri-Gate!
- Intel Tri-Gate is in Trouble?!
- Next Generation Transistors: a Tutorial from the Master
- Introduction to FinFET technology Part II
- Introduction to FinFET technology Part I