1. ITRS Public Conference Emerging Research Devices
2011 ERD Chapter
Jim Hutchby – SRC
December 14, 2011

2. Emerging Research Devices Working Group
Hiro Akinaga AIST
Tetsuya Asai Hokkaido U.
Yuji Awano Keio U.
George Bourianoff Intel
Michel Brillouet CEA/LETI
John Carruthers PSU
Ralph Cavin SRC
Chorn-Ping Chang AMAT
An Chen GLFOUNDRIES
U-In Chung Samsung
Byung Jin Cho KAIST
Sung Woong Chung Hynix
Luigi Colombo TI
Shamik Das Mitre
Simon Deleonibus LETI
Bob Doering TI
Tetsua Endoh Tohoku U.
Bob Fontana IBM
Paul Franzon NCSU
Akira Fujiwara NTT
Mike Garner Consultant
Dan Hammerstrom PSU
Wilfried Haensch IBM
Tsuyoshi Hasegawa NIMS
Shigenori Hayashi Matsushita
Dan Herr SRC
Toshiro Hiramoto U. Tokyo
Matsuo Hidaka ISTEK
Jim Hutchby SRC
Adrian Ionescu EPFL
Kiyoshi Kawabata Renesas Tech
Seiichiro Kawamura Selete
Suhwan Kim Seoul Nation U
Hyoungjoon Kim Samsung
Atsuhiro Kinoshita Toshiba
Dae-Hong Ko Yonsei U.
Hiroshi Kotaki Sharp
Mark Kryder INSIC
Franz Kreupl Tech. U. Munich
Zoran Krivokapic GLOBALFOUNDRIES
Kee-Won Kwon Seong Kyun Kwan U.
Jong-Ho Lee Hanyang U.
Thomas Liew ASTAR DSI
Lou Lome IDA
Matthew Marinella SNL
Hiroshi Mizuta U. Southampton
Kwok Ng SRC
Fumiyuki Nihei NEC
Dmitri Nikonov Intel
Kei Noda Kyoto U.
Ferdinand Peper NICT
Er-Xuan Ping AMAT
Yaw Obeng NIST
Yutaka Ohno Nagoya U.
Dave Roberts Nantero
Shintaro Sato Fujitsu Labs
Barry Schechtman INSIC
Sadas Shankar Intel
Takahiro Shinada Waseda U.
Masayuki Shirane U. Tokyo
Kaushal Singh AMAT
Satoshi Sugahara Tokyo Tech
Shin-ichi Takagi U. Tokyo
Ken Uchida Toshiba
Thomas Vogelsang Rambus
Yasuo Wada Toyo U.
Rainer Waser RWTH A
Franz Widershoven NXP
Jeff Welser NRI/IBM
Philip Wong Stanford U.
Dirk Wouters IMEC
Kojiro Yagami Sony
David Yeh SRC/TI
Hiroaki Yoda Toshiba
In-K Yoo SAIT
Victor Zhirnov SRC

3. Evolution of Extended CMOS
Elements
More Than Moore
Existing technologies
New technologies
Beyond CMOS
year

4. Changed Scope of Emerging Research Devices Chapter
New More-than-Moore Section added – Focused on RF
Emerging Research Memory Devices section broadened in 2011 to include:
New “Storage Class Memory” Subsection
New “Memory Select Device” Subsection
Emerging Research Logic changed
Transitioned n-InGaAs & p-Ge alternate channel MOSFETs to PIDS & FEP.
Synchronized better with the Nanoelectronics Research Initiative (NRI)
Expanded technology Benchmarking section
Expanded Architecture Section

5. Assessing Emerging Research --
2011 ERD Chapter
Assessing Emerging Research --
Memory Devices
Logic Devices
More-than-Moore Devices
Architectures
Benchmarking Emerging Devices

6. 2009 Memory Technology Entries
Emerging Memory Technologies
Nanoionic Memory
Electrochemical memory
Valence change memory
Fuse/Antifuse (Thermochemical memory)
Molecular Memory
Spin Transfer Torque MRAM
Nanoelectromechanical RAM
Nanowire PCM
Macromolecular (Polymer)
Electronic Effects Memory
Charge trapping
Metal-Insulator Transition (Mott Device)
Ferroelectric Gate Memory

7. 2011 Memory Technology Entries
Emerging Memory Technologies
Redox Resistive Memory
Electrochemical memory
Valence change memory
Fuse/Antifuse (Thermochemical memory)
Molecular Memory
Spin Transfer Torque MRAM
Nanoelectromechanical RAM
Nanowire PCM
Macromolecular (Polymer)
Electronic Effects Memory
Charge trapping
Metal-Insulator Transition (Mott Device)
Ferroelectric Effects Memory
Fe (gate)FET Memory
Ferroelectric Barrier Memory

8. ERD/ERM Memory Technology Assessment Workshop
ITRS ERD/ERM identified two emerging memory technologies for accelerated research & development: 1) STT-MRAM and 2) Redox Resistive RAM
STT-Memory Cell
Redox Memory Cell

9. One Diode – One Resistor (1D1R) Memory Cell
Device
Select
Device
Select Device
H-S. P. Wong – Stanford U.

11. Emerging Memory Devices Emerging Logic Devices More-than-Moore Devices
2011 ERD Chapter
Emerging Memory Devices
Emerging Logic Devices
More-than-Moore Devices
Benchmarking and Assessing Emerging Devices
Emerging Architectures

12. 2009 Logic Technology Tables
Table 12a – Extending MOSFETs to the End
of the Roadmap
_______
CNT FETs
Graphene nanoribbon FETs III-V n&p-Channel MOSFETs
Ge p&n-Channel MOSFETs
Nanowire FETs
Non-conventional
Geometry Devices
Table 12b- Unconventional
FETS, Charge-based
“Beyond CMOS” Devices
_____________
Spin FET& Spin MOSFET
Negative Cg MOSFET
Atomic Switch
NEMS switch
Tunnel FET
I-MOS
SET
Table 12c - Non-FET, Non
Charge-based “Beyond
CMOS” Devices
_______________
Moving domain wall devices
Pseudo-spintronic Devices
Nanomagnetic Logic(M:QCA)
Molecular Switch
BiSFET

13. 2011 Logic Technology Tables
Table 12a – Extending MOSFETs to the End
of the Roadmap
_______
CNT FETs
Graphene nanoribbon FETs
III-V n-Channel MOSFETs
Ge p-Channel MOSFETs
III-V p-Channel MOSFETs
Ge n-Channel MOSFETs
Nanowire FETs
Tunnel FET
Non-conventional
Geometry Devices
Table 12b- Unconventional
FETS, Charge-based
“Beyond CMOS” Devices
_____________
Spin FET& Spin MOSFET
Negative Cg MOSFET
Atomic Switch
NEMS switch
Mott FET
Tunnel FET
I-MOS
SET
Table 12c - Non-FET, Non
Charge-based ‘“Beyond
CMOS” Devices
_______________
Spin Torque Majority Gate
Spin Wave Devices
Moving domain wall devices
Pseudo-spintronic Devices
Nanomagnetic Logic(M:QCA)
All Spin Logic
Molecular Switch
Excitonic FET
BiSFET

14. ERD/ERM Logic Technology Recommended Focus:
Carbon-based Nanoelectronics – Carbon Nanotubes and Graphene
Conventional Devices
Band gap engineered
Graphene nanoribbons
Graphene quantum dot
(Manchester group)
FET
Nonconventional Devices
Son et al. Nature (07)
Graphene Spintronics
Trauzettel et al. Nature Phys. (07)
Graphene pseudospintronics
Cheianov et al. Science (07)
Graphene Veselago lense
P. Kim – Columbia U.

15. Emerging Memory Devices Emerging Logic Devices More-than-Moore Devices
2011 ERD Chapter
Emerging Memory Devices
Emerging Logic Devices
More-than-Moore Devices
Benchmarking and Assessing Emerging Devices
Emerging Architectures

16. Wireless underlying architecture / functions…
control
rf wave
Higher level function
LNA LO
ADC PA
DAC
Intermediate level function
nanoradio
filter
oscillator
mixer
Lower level functions LO
spin-torque oscillator
graphene
NEMS nanoresonator

17. Emerging Memory Devices Emerging Logic Devices More-than-Moore Devices
2011 ERD Chapter
Emerging Memory Devices
Emerging Logic Devices
More-than-Moore Devices
Benchmarking and Assessing Emerging Devices
Emerging Architectures

18. NRI Median Switch Characteristics
Benchmarking
NRI Median Switch Characteristics
ENERGY
DELAY
AREA
All 3 metrics responding consistently – energy and area superiority.
Little change in the energy delay product.

19. Emerging Memory Devices Emerging Logic Devices More-than-Moore Devices
2011 ERD Chapter
Emerging Memory Devices
Emerging Logic Devices
More-than-Moore Devices
Benchmarking and Assessing Emerging Devices
Emerging Architectures

20. Emerging Architectures
Emerging Memory Architectures in Conventional Computing
Wireless Computing
Application Specific Computing
Multicore Computing
Research Database Computing in the Cloud
Evolved Architectures Exploiting Emerging Research Memory Devices
Morphic Architectures
Neuromorphic Architectures
Cellular-automata Architectures
Taxonomy of Computational Ability of Architectures

21. ERD – Key Messages
New More-than-Moore Section added – Focused on RF devices
Emerging Research Memory Devices section broadened in to include:
New “Storage Class Memory” Subsection
New Memory “Select Device” Subsection
Transitioned STT-MRAM to PIDS & FEP
Introduced new memory device category – Redox RAM
Emerging Research Logic changes:
Transitioned n-InGaAs & p-Ge alternate channel MOSFETs to PIDS & FEP.
Synchronized more closely with the Nanoelectronics Research Initiative (NRI)
Expanded technology benchmarking section
Expanded Architecture Section