Analog and Mixed Signal Designs using FinFET Technology · 2019-10-11 · Analog and Mixed Signal...
Transcript of Analog and Mixed Signal Designs using FinFET Technology · 2019-10-11 · Analog and Mixed Signal...
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Analog and Mixed Signal Designs Analog and Mixed Signal Designs
using FinFET Technologyusing FinFET Technology
Advanced Technology Architecture,
Office of the CTO
Gopal Srinivasan
Analog, Power & Mixed Signal Group
Srinivas Saripalle
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ContentsContents
Challenges for Analog Design in Advanced Planar
Deep Sub-Micron Processes and FinFET as a
solution
Extra Care Abouts for FinFET
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Analog Benchmark FinFET vs. Planar
Broad Range of Platforms
Center of Excellence
- Analog & Mixed Signal Technologies
2GLOBALFOUNDRIES Confidential
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Challenges for Analog Design in Advanced Planar Challenges for Analog Design in Advanced Planar
Deep SubDeep Sub--Micron Processes and FinFET as a Micron Processes and FinFET as a
solutionsolution
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Intrinsic Gain (Gm*Rout) decreases as we go from 28nm To Intrinsic Gain (Gm*Rout) decreases as we go from 28nm To 20nm 20nm
Av: Normalized to 28nm
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@ Same Bias Conditions
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Headroom decreases as we go from 65nm Headroom decreases as we go from 65nm --> 20nm> 20nm
65nm
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Headroom = Vgs-Vt(sat)
45nm
28nm
20nm
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For a given Useful Power Standby Power increasesFor a given Useful Power Standby Power increases
Normalized to 65nm
45nm65nm
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3x increase inStandby Power
20nm
28nm
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Planar CMOS on bulk substrate has been the workhorse of the foundry industry for high performance and low power
Cost effective substrate, easy to integrate SoC passives (diodes, capacitors, varactors, resistors)
No Generic Process and Design solution to these No Generic Process and Design solution to these Challenges Challenges --> End of the Planar CMOS Era> End of the Planar CMOS Era
HK
MG
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P. Packan, IEDM 2009
Punchstop
Well
Source Drain
HK
MG
Halo
Higher doping to control drain degrades
sub threshold slope, mobility, junction
leakage, and increases variation
@fixed IOFF
‘Beyond Planar CMOS Era – Andy Wei ICICDT 2012
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Evolution from Planar to FinFETEvolution from Planar to FinFET
G
Gate
S/D
S/D
Device Width
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Increase gate control by wrapping the Gate around the channel and
reduce drain control for steeper sub-threshold slope for lower voltage
operation and better short channel effects
‘Beyond Planar CMOS Era – Andy Wei ICICDT 2012
S D
PS
PSSTI
Channel
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Introduction to FinFETs and Analog Advantages of Introduction to FinFETs and Analog Advantages of
FinFETsFinFETs
Page 9GLOBALFOUNDRIES Confidential
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Fin Geometry, Dimensions & Operation for Bulk Fin Geometry, Dimensions & Operation for Bulk FinFETFinFET
WF = Fin WidthThis is critical for maximizing
FET density.
HF = Fin HeightThis directly effects FET
performance.
Effective Width = 2HF+WF
LG
Device Width
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Effective Width = 2HF+WF
LG = Gate Length
WF
HF
Regions of Current Flow
Region where gate will cover
Shallow Trench Isolation
(STI) or Local Isolation
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FinFET (14XM) vs. Planar : Better Short Channel Effects FinFET (14XM) vs. Planar : Better Short Channel Effects
(SCE)(SCE)
Decrease in Vt:Planar -> FinFET
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Better SCE due to the fin leads to -•Larger Head room• Better SS at lower Lg• Higher Gain at lower (W eff / Lg)
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Analog Performance : FinFET (14XM) to Planar : Better Analog Performance : FinFET (14XM) to Planar : Better
Gate Control leads to Higher GmGate Control leads to Higher Gm
@ Same Bias Conditions
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Gm is higher between FinFET and Planar and scales well with Length.
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4x lower
Analog Performance : FinFET (14XM) to Planar : Better Analog Performance : FinFET (14XM) to Planar : Better
Gate Control leads to Lower GdsGate Control leads to Lower Gds
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Gds is lower for FinFET compared to Planar.
@ Same Bias Conditions
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Analog Performance : FinFET (14XM) to Planar : Analog Performance : FinFET (14XM) to Planar : Better SCE, Better SCE,
High Gm and Lower Gds leads to Higher Intrinsic GainHigh Gm and Lower Gds leads to Higher Intrinsic Gain
Planar FinFET
~45%
@ Same Bias Conditions
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.
Av: Normalized to 28nm
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RF RF Performance : FinFET (14XM) to Planar Performance : FinFET (14XM) to Planar Similar in Similar in
the Operation region of importance to RFthe Operation region of importance to RF
Vgs-Vt ~0.2
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•FinFETs and Planar have similar cutoff frequencies in Vgs-Vt~0.2V region over lengths.
(Vds =VDD)
•For the bias conditions where the transistor operates in most of the low power
Analog/RF applications, intrinsic fT are comparable to the planar 20LPM devices.
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FinFETs vs. Planar : Low Freq Noise: NMOS : FinFETs vs. Planar : Low Freq Noise: NMOS : Similar Slopes and MagnitudeSimilar Slopes and Magnitude
Saturation Region
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γ ( 1/fγ ) are similar between Planarand FinFET
@ Same Bias Conditions
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FinFET Process has Finified Passives:FinFET Process has Finified Passives:Characteristics of P+/NW Diode better than PlanarCharacteristics of P+/NW Diode better than Planar
At least 5 orders
of linear region
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Extra careExtra care--Abouts FOR FINFET of analog BLOCKSAbouts FOR FINFET of analog BLOCKS
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SoC ElectroSoC Electro--Migration Issue for FinFETsMigration Issue for FinFETs
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Requires
improved
Power grid
No FinFET Solution without solving EM Issue!
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Effect of REffect of REXT EXT on Analog FoMson Analog FoMs
~20%
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Gate Length Limitation is not really a Gate Length Limitation is not really a Limitation!!!Limitation!!!
�Higher ROUT OR Lower GDS
� Similar GDS can be got with much smaller length
�Mismatch Criterion� AVT targets for FinFET are lesser than Planar, LFinFET ~ is
significantly smaller than LPlanar for similar σVT for same width.
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� Quantized Width� Quantized Width could lead to some limitations on sizing of the
device
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Generic Process Flow: Mandrel Position Generic Process Flow: Mandrel Position determines Fin Positiondetermines Fin Position
Poly
mandrel
SiN
spacer
Poly
mandrel
SiN
spacer
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finfin
Post MOLFins created at the sides of the MandrelBy SIT process.
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One more layer to worry about to reduce One more layer to worry about to reduce mismatch during Layout : Mandrelmismatch during Layout : Mandrel
Odd # of Fins in a single RXPolygon:
Identical Mandrel placement necessaryNon-Identical Mandrel placement couldcause for variation
Even # of Fins in a single RXPolygon: Placement of Mandrel not an
issue
AB
MANDREL
FIN
FIN
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FN Shape A: 3 finsFN Shape B: 2 fins
B
Upfront Design Solution – Make sure that Diff pairs are designed such that they have even # of Fins. For centroid type layout, for example, designed # of Fins should be mod(#of Fins, 4)=0
A
MANDREL
RX
RX
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Passives Limitations in a FINFET Passives Limitations in a FINFET ProcessProcess
Compared to Planar:
• Gate Density Requirements are stringent.
• Length is quantized due to Dummy PC
• Height is quantized due to Fin Pitch
• Cut Mask mask for all the PC – (Good layout
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• Cut Mask mask for all the PC – (Good layout practice in general).
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14XM vs. 20LPM : Analog Benchmark Circuit : 14XM vs. 20LPM : Analog Benchmark Circuit : Performance and Power:Performance and Power:
• Power: The TX pre-driver in 14nm takes about 40% less power than the 20nm design.
• Performance: The 14nm design edge rate for most of the stages is almost double as compared to the 20nm design
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20nm design
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Devices in 14XM that are important for Analog/RFDevices in 14XM that are important for Analog/RF
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Other devices of Analog Interest (experimental @ this stage): ZVT, ULVTAll the devices supported in a Planar process supported in 14XM
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Broad Range of Process PlatformsBroad Range of Process Platforms
20nm PlanarCost-optimized,
UnifiedLEADING
14XM FinFETeXtremeMobility
Analog, Power &
Mixed-Signal
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Volume production-proven In development
180 – 40nmMixed-technology
Solutions
28nmPerf/power/cost
Optimized
UnifiedLEADING
EDGE
ADVANCED
MAINSTREAM
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Center of Excellence Center of Excellence –– Analog & Mixed Signal Technologies Analog & Mixed Signal Technologies
0.18um modular platform (Digital/ Analog/ Power/ eNVM)
0.13um modular platform (Digital/ Analog/ Power/ RF/ eNVM)
65/55nm modular platform (Digital/ Analog/ Power/ DDI/ eNVM)
40nm modular platform (Digital/ Analog/ RF)
Platforms & Technologies
Offerings
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28CONFIDENTIAL
RF Module
BCD Module
eNVMModule
Baseline Process
CollaborativeDevice
Manufacture
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Thanks to the many authors whose work was reproduced in this talk.
Thanks to Andy Wei, Paul Schroder and other members of Advanced Technology Architecture Group for their contributions to this talk.
AcknowledgementsAcknowledgements
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contributions to this talk.
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SummarySummary
Challenges to Analog/RF Design in Planar Submicron Processes presented.
Advantages of FinFET over Planar for Analog Performance.
Analog Benchmarking using real SOC Analog blocks. Simulations results presented.
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blocks. Simulations results presented.
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THANK YOU!