H I R A M O T O - KO B AYA S H I L A B .[Si l icon-Based Integrated Nano-Devices]
Department of Informatics and Electronics
Integrated Device Engineer ing
http://v ls i . i i s .u-tokyo.ac. jp/Department of E lectr ica l Engineer ing and Informat ion
Si l icon Nanotechnology Aiming at Large Scale Integrat ion Ee-206
Towards VLSIs integrating everythingVery large scale integration (VLSI) is the basis of contemporary advanced IT society.
Hiramoto/Kobayashi Lab. aims at solving worldwide problems by the technologicalinnovation of future integrated nanoelectronics from the device side. Prof. M. Kobayashi,formerly a researcher in IBM Watson Research, joined the lab in 2014. Based on thevision in Fig. A, we are pursuing the extreme form of integrated nanodevices.
Fig. A. A vision map of the integrated nanoelectronics, drawn by Prof. Hiramoto in Semiconductor Technology RoadmapCommittee of Japan (STRJ). A new field of “Extended CMOS” will be created by integrating “Beyond CMOS” and “More ThanMoore” into CMOS base technology. This map is found in International Technology Roadmap for Semiconductor (ITRS).
Fig. 1. Silicon nano-wire transistors were fabricated and the quantum effects were evaluated.
Fig. 3. CMOS-compatible ferroelectric nano film is anenabler for ultralow power logic and memorytechnology.
Fig. 6. Single electron transistor,one of Beyond CMOS devices,operating at room temperature isintegrated into CMOS, which canbe applied to quantum bits forquantum computers.
Fig. 2. The silicon power deviceproject was started. The currentdensity of IGBT was improved by thescaling concept keeping high blockingvoltage of 3000V.
Fig. 4. Nonvolatile memories will realize smartpower management and hardware AI.
Fig. 5. Negative capacitancetransistor can break the physical limitand achieve sub-60mV/dec steepsubthreshold slope.
year
Beyond CMOS
Elements
ERD-WG in Japan
Existing technologies
New technologies
Evolution of Extended CMOS
Gate
S D
BOX
nanowires
Gate1
Gate2
Gate3
Gate4
Lead1
Lead2
Lead3
Lead4
Source
Drain
Poly-Si gate
Point contactchannel
-3 -2 -1 0 1 2 3-30
-20
-10
0
10
20
30
Polar
izatio
n (µ
C /cm
2 )
Voltage (V)
V=1.0V V=1.5V V=2.0V V=2.5V V=3.0V
PWR
BL
WLWL
PL PL
GND BL
FE-HfO2 cap.
WLPWR
GNDPL
N1 N2
BL BL
50nm
TiNHZO
TiN 9nm
Metal 1
Ferroelectric Thin film
Metal 2
2.6x at Vov=0.5V
60mV/dec
60mV/dec
SSmin=21mV/dec
Vg sweep
MFMIS-FET MISFET
Vg (V) Vg (V)
Vd=1V Vd=1V
10x at Vg=0.4V
2.6x at Vg=0.5V
Ferroelectric HfO2 gate insulator
Vg
Ψs
CFE
CS
Vox
Spontaneous polarization
4nm HfZrO2
Si-sub.
HfZrO2
100nm Si-sub.
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