bonded photonic structure incorporated into a chip · acknowledgements selete hisatsune watanabe,...
TRANSCRIPT
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Keishi Ohashi*1,*2
Masafumi Nakada*1,*2
Takahiro Nakamura*2
*1MIRAI-Selete*2NEC Corporation
September 20-24, 2009, Vienna, Austria
ECOC 2009 WS3“Optics in Computing – How much is enough?”
Bonded Bonded PPhotonic hotonic SStructure tructure IIncorporated into a ncorporated into a CChiphip
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Acknowledgements
Selete Hisatsune Watanabe, Tohru Mogami, Takanori Shimizu, Jun Ushida, Masao Kinoshita, Nobuo Suzuki, Toshihide Ueno, Kenichi Nishi
NTT Toshifumi Watanabe, Yasushi Tsuchizawa, Kouji Yamada, Seiichi Itabashi
NEC Junich Fujikata, Tsutomu Ishi, Koichi Nose, Toshio Baba, Kikuo Makita, Shigeru Nakamura, Kazuhiko Kurata, Shigeyuki Yanagimachi, Tao Chu, Hirohito Yamada
This work was partly supported by NEDO (New Energy and Industrial Technology Development Organization).
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Outline1. Optical Interconnection2. Interconnect Era3. Nanophotonics4. Si Photonics for Photonic NW:
or vice versa5. Summary
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Outline
1. Optical Interconnection2. Interconnect Era
3. Nanophotonics
4. Si Photonics for Optical NW: or vice versa
5. Summary
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Larger Market
Smaller Distance
Optical Interconnects in Electronics
Penetration of high data capacity optical communication from long-haul to short-distance interconnect.
Between Computers
Between Boards
Between Chips
m
cm
mm
kmTelecommunication
On-Chip Interconnect
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Short Electrical Signal lines
Optical Fibers
Photoelectric Devices
LSI
• 10Gbps x 4 Ch Transceiver
• 14mm x14mm
Courtesy of K. Kurata
On-Bord Optical Interconnection
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Courtesy of K. Kurata
Optical Interconnection between CPU & Memory in HPC
• Small size of 5 mm2, 20 Gbps x 12ch OE/EO converters with a water-cooling module
• ~1000-channel OE converter is attached around CPU
• High reliability VCSEL (λ = 1.07 μm) is developedOptical connectorWater-cooling module is attached here
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Replacement of Electrical Interconnect to Optical One
External EO/OE Module
Optical Interconnect Using Photonic SiP
LSI On-chip Optical Interconnect
LSI
LSI
3D LSI
Optical Layer
EO/OEEO/OEOptical Connector
Optical ConnectorEO/OEEO/OE
Waveguide
Fiber
<5 mm
5-10 mm
50-200 mmOptical Interconnect
Electrical Interconnect
Courtesy of Y. Hashimoto & S. Yanagimachi
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Cross Point for On Board Interconnection
Optics gives lower power consumption for back plane (~1 m)
Optical
Electrical
75 cm @6 Gbps
H. Cho, et al., J. Lightwave Technol. 2004.
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Outline
1. Optical Interconnection
2. Interconnect Era3. Nanophotonics
4. Si Photonics for Optical NW: or vice versa
5. Summary
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Bottleneck of Global Interconnects
In 2012, a 1-mm-long interconnect’s latency will be 100 times larger, and its binary switching energy will be 30 times larger,than a corresponding transistor. J. D. Meindl, Computing in Sci. & Engrng, 2003.
3D-Integration
Shorter Length by Vertical Connection
Optical Signal SiON
waveguide
Nano photodiode
Optical Interconnect
Different Physics for Lateral Connection
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Power Consumption in LSI
Interconnect
Gate
150 130 100 90 80 70 65 45 32 20 [nm]
Dynamic power is larger than heat removal capacityD
ynam
ic P
ower
Global (data)
Global (clock)
Local (data)
Local (clock)
N. Magen et al, SLIP 04
Diffusion
ITRS maximum heat removal capability
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Electrical Interconnect
Electrical Interconnect
M. Mizuno et al., ISSCC 2001
20 mm-interconnects with repeaters
Cu/Low-k, リピーター
電子回路 電子回路Circuit
Cu/Low-k, RepeatersCircuit
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Electrical Interconnect
Cu/Low-k, リピーター
電子回路 電子回路Circuit
Cu/Low-k, RepeatersCircuit
Bill Dally, ISSCC 2005
High Power Consumption by Interconnect
Electrical Interconnect
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Electrical Interconnect
From Electrical To Optical
Cu/Low-k, リピーター
電子回路 電子回路Circuit
Cu/Low-k, RepeatersCircuit
Optical Interconnect
Advantages: No repeaters, Small delay, Small jitter, Immune to EMI, High data capacity, …
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0.1
1
10
100
1000
1 10 100
Electric Interconnecthp65(2007)
Optical Interconnect
(2013)
Wiring Length (mm)
Pow
er D
elay
Pro
duct
(pJ
)
Short Range Optical Interconnection
1pJ/1bit1W/1Tbps
hp22(2016)
Target(2015)
(2009)
Reduce overhead by introducing micro EO and OE devices
@10 Gbps
Current
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Outline
1. Optical Interconnection
2. Interconnect Era
3. Nanophotonics4. Si Photonics for Optical NW: or vice versa
5. Summary
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De Broglie wavelength of electron
Wavelength of light(visible - near IR)
~0.1 nm~1000 nm
Photonic Crystal
Near-Field
Surface Plasmons
1/2 ~ 1/5Si Photonics
1/5 ~ 1/100
Size Comparison: Light vs. Electron
(100 V)
+metamaterialmaterials
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Contour map of light power (in Z direction)
Coupling length ~10μm
Contour map of electric field
Input light (TM polarized)
Si nano-photodiode
Ag electrode embedded in Si)
SiON waveguide1.1μm
Plasmon Antenna Embedded in Si
J. Fujikata, et al.,, APEX, 1. 022001, 2008.
SiON Waveguide
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Optical Interconnect Chip(front side for bonding)
LSI chip
Optical Signal SiON
waveguide
Si nano-photodiode
Bonding Optical Interconnect on LSI
Optical Interconnect Chip(front side for bonding)
T. Shimizu, et al., ICEP 2008, 12B3-3.
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Si nano-photodiodeSi
Si
Cu AuSn10 mm
Bonded Structure (Cross-Section)
T. Shimizu, et al., ICEP 2008, 12B3-3.
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LSI Chip Si
Optical Interconnect
Chip
Si Nano-PhotodiodeSiON Core
Si Cu-via
SiO2
Flip-Chip Bonding with LSI Chip
Flip-Chip Bonding
AuSn Bump
Face-to-face bonding gives short vias
Large tolerance for alignment (±5 μm)
15 μm
Large tolerance for alignment compared with optical via
>10 GHz
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Pulses from Light Source (5GHz)
50 ps100 mV
5 GHz5 GHz
Operation of LSI Using Optical Clock
Output signal from electronic circuit
5-GHz optical pulses triggered the LSI circuits
LSI chip
Optical Interconnect Chip
1mm
100ps
J. Fujikata, et al., APEX, 1. 022001, 2008.
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Outline
1. Optical Interconnection
2. Interconnect Era
3. Nanophotonics
4. Si Photonics for Photonic NW: or vice versa
5. Summary
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50 mm Port 4
Port 3Port 2
Port 1
50 mm Port 4
Port 3Port 2
Port 1
50 mm Port 4
Port 3Port 2
Port 1
50 mm Port 4
Port 3Port 2
Port 1
50 μm Port 4
Port 3Port 2
Port 1
Input light Output light
WorldWorld’’s smallest 1 x 4 Optical Switchs smallest 1 x 4 Optical Switch Chip (Chip (190190××7575 μμmm22))
Optical Switch
1×4 Optical SW Module
Courtesy of T. Chu
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One-Chip Colorless MUX/DEMUX Using Si Photonic Circuit
Moduleport 1
port 2
port 3
port 4
port 5
port 6
S. Nakamura, et al., ECOC2008, Tu.4.C.6
Using Si waveguides, an AWG and switches were integrated into a chip. Low-power and quick reconfiguration of optical paths within a 2-mm device was demonstrated.
500 μm
Circuit
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WDM for Interconnection
Optical Interconnect
More than 50% of production cost for state-of-the-art LSIs comes from interconnect. … T. Shibata (Toshiba) 2008.
On-chip optical WDM (Wavelength Division Multiplexing )
Data transfer rate increase (~one order)Reduction of pin #
On-plain crossing by optical waveguidesLess interconnection layersLess crosstalk
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memory array
SDRAM with opt. I/F
optical clock
multiple wavelength light sources
clock bank1bank2bank3bank4
serial to parallel conversion
clock synchronization
writeread
swsw
sw
sw
div
div
Multi-bank memory I/F
IP’s via NoC
MUX
MUX DEMUX
DEMUX
clock
bank1bank2
bank3
bank4
modmod
modmod
modmod
modmod
Optical Ring Bus Connecting Chip & Memories
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3-D Integration + Optical Interconnect
3-D Integrated LSI
Optical Layer
Input WDM Signal
Output WDM Signal
Integrated Optical Layer / LSI Chip
(Optical Clocking)
On-Chip WDM
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Adjacent Chip
WDM Signal
(Data + Clock)
Functional Block (Core)
On-Chip Optical Network
Waveguide
Micro-node
• Mod/SW• AWG/Filter
• PD
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SiON Waveguide for On-chip WDMBranching Structure
Si Nano Photodiode
WDM Circuit with Si Nano Photodiode
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Si nano PD(photo-diode)
10 GHz signal from WDM signal was extracted by the integrated demultiplexter and Si nano photodiode.Crosstalk noise; less than -10dB.
Extracted 10 GHz signal
Wavelength (nm)
Inte
nsity
(10
dB/d
iv)
Spectrum of input optical signal (3 wavelengths)
SiON demultiplexer(3x4mm2)
10um
Integrated WDM Function with Si Nano PD
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Outline
1. Optical Interconnection
2. Interconnect Era
3. Nanophotonics
4. Si Photonics for Optical NW: or vice versa
5. Summary
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• We proposed an approach for on-chip optical interconnect suitable for 3-D integration.
• Flip-chip bonding of an optical interconnect chip with a LSI reduces the electrical path enough to obtain high speed response of >10 GHz.
Summary