Advanced NVM Devices using Multi-Gate and 3D structures

2007

Advanced NVM Devices using Multi-Gate and 3D structures Luca Perniola [email protected] © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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L. Perniola

September, 18th

Outline
Economic market, NAND Flash issues & ITRS predictions
Multigate memories   2007

Body-tied nitride finfet SOI nitride finfet


3D integration paths
Conclusion

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L. Perniola

September, 18th

Memory market nowadays & trends

2007

Yole developpment April 2009


NAND is the fastest growing memory segment

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L. Perniola

September, 18th

Limits of current NAND technology

S.J. Baik et al. 2007

Main issues:
Device electrostatic integrity  poor coupling factor (poor W/E), low Ion (enhanced access time), high Ioff (shrinked operating window), electron number fluctuation (increased dispersion)
Enhanced interference between nearby cells  read fail, program disturbance
Process complexity  strong investments to assure sufficient fault tolerance

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September, 18th

NAND Flash (ITRS 2008) 2008

2009

2010

2011

2012

2013

2014

2015

NAND Flash Technology [nm]

45

40

36

32

28

25

22

20

Cell type

FG

FG

FG/CT

CT

CT

CT-3D

CT-3D

CT-3D

Floating gate NAND Interpoly

ONO

ONO

ONO ONO

High-k

High-k

High-k

High-k

Interpoly thickness [nm]

10-13

10-13

10-13

9-10

9-10

9-10

9-10

Year of production

10-13

ITRS 2008 envisages High-k interpoly combined with charge trapping (CT) layers for sub-30nm nodes, then 3D + CT… 2007 Samsung TANOS (TaN / Al2O3 / Si3N4 / SiO2 / Si)

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Y. Kow, Hynix SINANO-NANOSIL Workshop

TANOS 40nm SAMSUNG VLSI’06 Confidential L. PerniolaIEDM’06, September, 18th

5

Why 3D ?
Density & cost motivation

2007

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L. Perniola

September, 18th

Outline
Economic market, NAND Flash issues & ITRS predictions
Multigate memories   2007

Body-tied nitride finfet SOI nitride finfet


3D integration paths
Conclusion

© CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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September, 18th

Bulk or SOI Nitride Finfet devices
Finfet advantages:    

Increased Drive Current  reduced access time Reduced Short Channel effects  lower Ioff, compact device layout Increased active area  better retention Compatibility with multigate SOC Control Gate

Nitride


Nitride-trapping advantages: 2007

   

No inter-FG interference Lower operating voltages Strong immunity to oxide defects Improved scalability

Source


Improved electrical characteristics

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Body-tied finfet (1/2) S.H. Lee, SAMSUNG, IEDM 2006

LG = 63 nm 32 bit string

2007

BT Finfet

&


Body-erase
Better heat dissipation SINANO-NANOSIL Workshop

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TANOS
enhanced write/erase
reduced electron back tunneling during erase

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L. Perniola

September, 18th

S.H. Lee, SAMSUNG, IEDM 2006

Body-tied finfet (2/2)

2007

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Body-tied Hemi-Cylindrical (HC) FET

D.Kwak, SAMSUNG, VLSI 2007

LG = 38 nm for 64 Gbit 32 bit string

2007

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September, 18th

J.-M. Koo, SAMSUNG, VLSI 2008

Body-tied paired finfet

2007

LG = 63 nm Sub-10 nm fin width © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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L. Perniola

September, 18th

Outline
Economic market, NAND Flash issues & ITRS predictions
Multigate memories   2007

Body-tied nitride finfet SOI nitride finfet


3D integration paths
Conclusion

© CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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L. Perniola

September, 18th

LETI device fabrication (1/3) • SOI wafers, Tsi=30 nm

Si Buried oxide

• Fins patterning with Ebeam lithography and resist trimming

2007

• Sidewall oxidation to round the corners and obtain smaller fins • Boron implantation for VTH adjustment • Gate stack deposition process:

fin Buried oxide Poly-Si N+ HTO

3 nm SiO2+ 5nm Si3N4 (LPCVD) + 8 nm HTO + 100 nm Poly-Si N+ Buried oxide

+ oxide hard mask

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LETI device fabrication (2/3) • Gate patterning: Ebeam lithography, resist trimming and combined dry and wet etching

Gate Si fin

• Extension implants + 950°C RTA anneal • 50 nm nitride spacer + 20 nm S/D Si selective epitaxial growth Poly 2007

• S/D implants + 1050°C Spike anneal

Si

• Ni Silicidation + classical Back-end process © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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September, 18th

LETI device fabrication (3/3)
SOI nitride finfet  

E. Nowak et al., IEDM 2008

SONOS

WFIN down to 15 nm HFIN ~ 20 nm


SONOS / THiONOS stack

Poly N+ SiO2 Si3N4 SiO2

THiONOS

2007

Poly N+ TiN HfO2 SiO2 Si3N4 SiO2 SINANO-NANOSIL Workshop

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September, 18th

1D Model
1D potential & capacitance calculation for planar and corner regions
Total programming window is weighted sum of each regions

cylindrical geometry planar geometry

RC

VG

2007

VTplan

VD VT =

VTcylin plan

plan

VS

+

cylin

plan T

V

+

cylin plan

+

cylin

VTcylin

© CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

E. Nowak et al., NVSMW 2008 SINANO-NANOSIL Workshop

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Programming window: planar vs. corner regions 4

4.0

2 Si-fin 0

JJ11

planar regions corners

3.0

FG

-2

J2

-4

2.5

Control Gate

-6

2.0

J2

-8

1.5 1.0

-10 2007

-12

0.5

planar regions corners

-14 -5

3.5

0

5

10

0.0

15

20

Radial Distance [nm]

25

-8

10

-7

10

-6

10

-5

10

-4

10

-3

10

-2

10

Threshold Voltage Shift ∆VTH [V]

Energy Band Diagram [eV]

L. Perniola et al., IEDM 2007

Stress Time t [s]

 Finfet corners enhance the coupling between control gate and trapping medium localised stronger injection Confidential SINANO-NANOSIL Workshop L. Perniola September, 18th © CEA 2009. All rights reserved

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18

2007

5

Data Model VG=8V VG=10V VG=12V

4 3

SONOS

2 1 0 -7

10

-6

-5

-4

-3

-2

10 10 10 10 10 Stress Time t [s]

-1

10

Programming Windows ∆VT [V]

Programming Windows ∆VT [V]

Experimental Results 5 4 3

Data Model VG=8V VG=10V VG=12V

THiONOS

2 1 0 10

-7

10

-6

-5

-4

-3

10 10 10 10 Stress Time t [s]

-2

-1

10


Better programming performances for THiONOS E. Nowak et al., IEDM 2008 SINANO-NANOSIL Workshop

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September, 18th

WFIN 2007

Programming Windows ∆VT [V]

Fin Width dependence 4 3

Data Model WFIN=15nm WFIN=35nm

SONOS VG=12V

2

VG=10V

1

VG=8V

0 -7

10

-6

-5

-4

-3

10 10 10 10 10 Stress Time t [s]

-2

-1

10


VT increases when reducing fin width
Model predicts an higher impact of trapped charges at corners for smaller devices

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September, 18th

Programming Windows VT [V]

Scaling perspectives: HC-FET TANOS 22

32

45

Memory Generation [nm]

100 ms //

6

1 ms

4

10 us

2

100ns

2007

0

10

20

30

1ns 40 50

Rc

// D. Kwak et al, VLSI 07

//

// //Plane 60

Curvature Radius Rc [nm]


Reducing cell size  smaller VT at saturation
 faster dynamics

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E. Nowak et al., IEDM 2008 SINANO-NANOSIL Workshop

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September, 18th

Scaling limits of nitride finfet devices Y pitch not a concern: LG=30 nm functional devices X pitch is a concern: Enough space to accommodate fin/gate stack/control gate X pitch 2007

x = fin + 2d + m = 10nm + 30nm + 5nm = 45 nm F = x/2 = 20-22 nm (2014 from ITRS 2008) Thanks to C. Gerardi – STMicroelectronics

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L. Perniola

September, 18th

Conclusion on nitride finfet devices
Enhanced electrostatic integrity (Ion/Ioff, retention) & no inter-FG interference
Possible multi-bit approach (paired finfet)
Scaling down HC-TANOS:  2007



Lower VT at saturation Strongly enhanced write dynamics


Scaling possibilities: WL-pitch is a concern. © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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23

L. Perniola

September, 18th

Outline
Economic market, NAND Flash issues & ITRS predictions
Multigate memories   2007

Body-tied nitride finfet SOI nitride finfet


3D integration paths
Conclusion

© CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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September, 18th

S. –M. Jung, SAMSUNG, IEDM 2006

3D « wafer stacking »

2007

 Equal electrical characteristics of both layers  Wafer bonding technology (not cost effective)

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3D « Pipe-shaped Bit Cost Scalable (P-BiCS) »

2007

R. Katsumata, Toshiba, VLSI 2009

 Bit cost scalable solution  Polyxls channels  No metal gate (gate first approach) © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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3D « Terabit Cell Array Tr (TCAT) »

2007

 Bit cost scalable solution  Metal gate (gate last)  Polyxls channels SINANO-NANOSIL Workshop

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J. Jang, SAMSUNG, VLSI 2009

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September, 18th

W. Kim, SAMSUNG, VLSI 2009

3D « Vertical Gate NAND (VG-NAND) »

2007

 WL connections easier than BiCS & TCAT  Polyxls channel  Doping requirement for enhancement mode tr

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September, 18th

3D Monolithic stacked SONOS

 Monoxls channels  Research level LETI patent

2007

T. Ernst et al., CEA-LETI, MINATEC, IEDM 2008 A. Hubert et al., IEDM 2009 SINANO-NANOSIL Workshop

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September, 18th

Conclusion & forecast
Nitride Finfet: 

 

Improved electrical characteristics (Ion/Ioff & retention, program/erase dynamic enhancement thanks to corner effect) Compact layout & larger active aerea WL-pitch scaling concern


3D concept advantage:

2007

 

In future will be cost effective solution Further increase the density

3D CT-NVM when?  

3D CT-NVM when cost-parity or performance/reliability will be achieved wrt wire-bonding technology HC-TANOS stand-alone for 2x NAND nodes, after… 3D © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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Acknowledgement

2007


E. Nowak, A. Hubert, G. Molas, T. Ernst, J. P. Colonna, C. Jahan, M. Gély, V. Vidal, A. Toffoli, R. Kies, G. Reimbold, F. Boulanger, B. De Salvo
R. Clerc, G. Ghibaudo, G. Pananakakis from IMEP-LAHC, MINATEC, Grenoble, France.
LETI cleanroom facilities
IU.NET, Univ of Pisa, CNR-IMM Catania, Italy
European commission for FINFLASH project
LETI industrial partners © CEA 2009. All rights reserved Any reproduction in whole or in part on any medium or use of the information contained herein is prohibited without the prior written consent of CEA

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September, 18th

Innovation for industry 2007

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Join us for the

11th Leti Annual Review 2007

June 22-23, 2009 at Minatec For more information : www.leti.fr

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September, 18th