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Program of the 1st Workshop
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First Hiroshima International Workshop on Nanoelectronics for Terra-Bit
Information Processing
Hiroshima Univ., March 17, 2003
The forum for discussing future prospects of silicon nanoelectronics & nanodevice
technologies with the experts in the related fields
Recently, the Japanese Ministry of Education, Culture, Sports,
Science and Technology has elected Hiroshima University as a Center
of Excellence (COE) on "Nanoelectronics for Terra-Bit Information
Processing" in its 21st Century COE Program. The scientific
core of this COE is formed by the Research Center for Nanodevices
and Systems (RCNS) and cooperating members from the Graduate School
for Advanced Sciences of Matter.
The purpose of this workshop is to offer the forum for discussing
future prospects of silicon nanoelectronics and nanodevice technologies
with the experts in the related fields.
Our main goals are:
? Unification of silicon-based system, circuit, device-modeling
and device-fabrication research
? Solution of the persistent 3-diminsional-integration problems
by a wireless integration methodology
? Realization of integrated systems with high-level recognition
and learning capabilities by innovative circuits and architectures
Our research fields and present research subjects are summarized
as follows:
I. Electronic circuits and system architecture
1. High frequency analog circuits
Prof. A. Iwata & Assoc. Prof. M. Sasaki
2. Associative-memory-based systems with recognition and learning
capability
Prof. H. J. Mattausch & Assoc. Prof. T. Koide
3. Processing system with highly cognitive level
Prof. A. Iwata
II. Device Modeling
1. Integration of electronic and optical devices
Prof. M. Miura-Mattausch & Res. Assoc. Dr. H. Ueno
2. Three-dimensional SOI-MOS device integration
Prof. M. Miura-Mattausch & Res. Assoc. Dr. H. Ueno
III. Nanodevices and Processes
1. Fundamental miniaturization techniques for Si-MOS transistors
Assoc. Prof. K. Shibahara
2. Three-dimensional ultra-small SOI-MOS transistors
Prof. H. Sunami & Prof. M. Miura-Mattausch
3. Functional devices with nanostructure
Prof. S. Miyazaki & Res. Assoc. H. Murakami
4. Integration technologies for wireless interconnect systems
Prof. T. Kikkawa & Assoc. Prof. M. Sasaki
5. Optoelectronic integrated systems using optical interconnection
on a Si chip
Prof. S. Yokoyama & Assoc. Prof. A. Nakajima
Invited Speakers
*Dr. Masataka Hirose (AIST, MIRAI):
Prospects of the 21st century COE program: Academic view
*Dr. Toyoki Takemoto (STARC):
Prospects of the 21st century COE program: Industry view
*Prof. Tobias G. Noll (Aachen Univ. of Technol.):
Challenges and opportunities in the design of future systems on
chip
*Prof. Kwyro Lee (KAIST):
The impact of nm CMOS technology on wireless circuit and system
*Prof. Kazumi Wada (MIT):
Silicon microphotonics - Photons meet LSIs
CONTENTS
9:00 Opening Address
Univ. President Prof. Taizo Muta
9:05 Overview & Keynote -Targets and research plan of 21st
century COE-
Profs. Atsushi Iwata, Hans Juergen Mattausch, Mitiko Miura-Mattausch
and Hideo Sunami
10:00 (Invited) Industry-Academia Cooperation for Advanced Semiconductor
Technology
Dr. Masataka Hirose (AIST, MIRAI)
11:00 (Invited) Strategic directions of semiconductor consortia
and expectation to COE program
Dr. Toyoki Takemoto (STARC)
13:30 (Invited) Challenges and opportunities in the design of future
systems on chip
Prof. Tobias G. Noll (Aachen Univ. of Technol.)
14:30 (Invited) The impact of nm CMOS technology on wireless circuit
and system
Prof. Kwyro Lee (KAIST)
15:30 (Invited) Silicon microphotonics - Photons meet LSIs
Prof. Kazumi Wada (MIT)
16:30 HiSIM: Present status and future perspective
Prof. Mitiko Miura-Mattausch
17:00 Poster Presentations by COE Members
P-1. 3dimensional global/local wireless interconnection for hierarchical
processing systems
Atsushi Iwata and Mamoru Sasaki
P-2. Image segmentation/extraction using nonlinear pixel-parallel
networks and their VLSI implementation
Hiroshi Ando, Takashi Morie and Atsushi Iwata
P-.3 An analog VLSI chip calculating high-precision spatial and
temporal derivatives of the vertebrate retina
Seiji Kameda and Tetsuya Yagi
P-4. Associative memory -based systems with recognition and learning
capability
Tetsushi Koide and Hans Juergen Mattausch
P-5. Fully-parallel associative memory for fast pattern matching
Yuji Yano, Minoru Honda, Masahiro Misokami, Tetsushi Koide and
Hans Juergen Mattausch
P-6. Digital-CMOS-based real-time color-motion picture segmentation
Takashi Morimoto, Youmei Harada, Tetsushi Koide and Hans Juergen
Mattausch
P-7. HiSIM-SOI: The first surface-potential-based fully-depleted
SOI-MOSFET model for circuit simulation development and future
tasks
Daisuke Kitamaru, Yasuhito Uetsuji and Mitiko Miura-Mattausch
P-8. Electron transport in MOSFET's inversion layer under high
electric field
Masayasu Tanaka, Hiroaki Ueno, Osamu Matsushima and Mitiko Miura-Mattausch
P-9. Optical interconnection technology at RCNS Hiroshima University
Shin Yokoyama, Kazutaka Umeda and Anri Nakajima
P-10. Silicon integrated antennas for wireless interconnects
Takamaro Kikkawa, ABM Harun Rashid and Shinji Watanabe
P-11. Photosensitive low-dielectric-constant films for ULSI interconnects
Shin-ichiro Kuroki and Takamaro Kikkawa
P-12. Proposal of three-dimensional MOS transistors with high drivability
for area-conscious applications
Hideo Sunami and Akira Katakami
P-13. Technology and application of photonic crystal
Anri Nakajima, Masaru Wake and Shin Yokoyama
P-14. Atomic-layer deposition of ZrO2 gate dielectrics with a Si
nitride barrier layer
Hiroyuki Ishii and Anri Nakajima
P-15. Workfunction tuning technique for dual-gate CMOS with single
metal gate
Kentaro Shibarara
P-16. Self-assembling of Si quantum dots and their application
to memory devices
Seiichi Miyazaki
P-17. Multiple-step electron charging in Si quantum-dot floating
gate MOS memories
Mitsuhisa Ikeda, Yusuke Shimizu, Hideki Murakami and Seiichi Miyazaki
P-18. Electronic charged state of single Si quantum dots with and
without Ge core as detected by AFM/Kelvin probe technique
Yudi Darma, Kohei Takeuchi, Hideki Murakami and Seiichi Miyazaki
18:30 Closing Remarks
Prof. Hideo Sunami
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