PHENIC REOURCE
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[[Photonic NoC Routing Survey]]
----
//#CONTENTS
*Architecture types [#s657c001]
**Hybrid COLOR(red){please add links - doi} [#a3c1cf95]
4. G. Hendry, S. Kamil, A. Biberman, J. Chan, B. Lee, M. Mohiyuddin, A. Jain, K. Bergman, L. Carloni, J. Kubiatowicz, L. Oliker, and J. Shalf, ¡ÈAnalysis of Photonic Networks for a Chip Multiprocessor using Scientific Applications,¡É in The 3rd ACM/IEEE International Symposium on Networks-on-Chip (NOCS), pp. 104–113, 2009.
3.A.Shacham,K.Bergman,andL.P.Carloni,¡ÈPhotonicNetworks-On-Chipfor Future Generations of Chip Multiprocessors,¡É IEEE Transactions on Computers, vol. 57, no. 9, pp. 1246–1260, 2008
2. A. Shacham, K. Bergman, and L. P. Carloni, ¡ÈOn The Design of a Photonic Network-On-Chip,¡É in The First International Symposium on Networks-onChip (NOCS), pp. 53–64, 2007.
1. A. Shacham, K. Bergman, and L. P. Carloni, ¡ÈPhotonic NoC for DMA Communications in Chip Multiprocessors,¡É in The 15th Annual IEEE Symposium on High-Performance Interconnects, pp. 29–38, 2007.
**Fully Photonic COLOR(red){please add links - doi} [#d7a4e2a6]
9. Y. H. Kao and H. J. Chao, ¡ÈBLOCON: A Bufferless Photonic Clos Network-on-Chip Architecture,¡É in 5th ACM/IEEE International Symposium on Networks-on-Chip (NoCS), pp. 81–88, May 2011.
8. P. Koka, M. O. McCracken, H. Schwetman, X. Zheng, R. Ho, and A. V. Krishnamoorthy, ¡ÈSilicon-Photonic Network Architectures for Scalable, PowerEfficientMulti-ChipSystems,¡Éin37thInternationalSymposiumonComputer Architecture (ISCA), pp. 117–128, 2010.
7. A. Joshi, C. Batten, Y.-J. Kwon, S. Beamer, I. Shamim, K. Asanovic, and V. Stojanovic, ¡ÈSilicon-Photonic Clos Networks for Global On-Chip Communication,¡É in The 2009 3rd ACM/IEEE International Symposium on Networkson-Chip (NOCS), pp. 124–133, 2009.
6. A.Krishnamoorthy,R.Ho,X.Zheng,H.Schwetman,J.Lexau,P.Koka,G.Li, I.Shubin,andJ.Cunningham,¡ÈComputerSystemsBasedonSiliconPhotonic Interconnects,¡É Proceedings of the IEEE, vol. 97, no. 7, pp. 1337–1361, 2009.
5. Y. Pan, J. Kim, and G. Memik, ¡ÈFlexiShare: Channel Sharing for an EnergyEfficientNanophotonicCrossbar,¡ÉinThe16thIEEEInternationalSymposium on High Performance Computer Architecture (HPCA), pp. 1–12, 2010.
4. Y.Pan,P.Kumar,J.Kim,G.Memik,Y.Zhang,andA.Choudhary,¡ÈFirefly:Illuminatingfuturenetwork-on-chipwithnanophotonics,¡Éin 36th International Symposium on Computer Architecture (ISCA), 2009.
3. D. Vantrease, N. Binkert, R. Schreiber, and M. H. Lipasti, ¡ÈLight Speed Arbitration and Flow Control for Nanophotonic Interconnects,¡É in 42nd AnnualIEEE/ACMInternationalSymposiumonmicroarchitecture,pp.304–315, 2009.
2. D. Vantrease, R. Schreiber, M. Monchiero, M. McLaren, N. P. Jouppi, M.Fiorentino,A.Davis,N.Binkert,R.G.Beausoleil,andJ.H.Ahn,¡ÈCorona: SystemImplicationsofEmergingNanophotonicTechnology,¡Éin35thInternational Symposium on Computer Architecture (ISCA), pp. 153–164, 2008.
1. N. Kirman, M. Kirman, R. Dokania, J. Martinez, A. Apsel, M. Watkins, and
D.Albonesi,¡ÈLeveragingOpticalTechnologyinFutureBus-BasedChipMultiprocessors,¡ÉinThe39thAnnualIEEE/ACMInternationalSymposiumonMicroarchitecture (Micro), pp. 492–503, 2006.
----
*Routing, QoS, FT [#r9386a6d]
***Token [#yc815044]
-2009: [[Fire-fly: illuminating future network-on-chip with nanophotonics>http://dl.acm.org/citation.cfm?id=1555808]],Y. Pan, P. Kumar, J. Kim, G. Memik, Y. Zhang, and A. Choudhary, , SIGARCH
Comput. Archit. News, vol. 37, no. 3, pp. 429–440, 2009.
-2006: [[Leveraging optical technology in future bus-based chip multiprocessors>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4041871]], N. Kirman et al., in MICRO 39: Proceedings of the 39th Annual IEEE/ACM International Symposium on Microarchitecture. Washington,
DC, USA: IEEE Computer Society, 2006, pp. 492–503
-2008: [[Corona: System implications of emerging nanophotonic technology>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4556723]], D. Vantrease et al., Computer Architecture, International Symposium on,
vol. 0, pp. 153–164, 2008
***Circuit Switching [#p8ddb931]
-2008: [[Photonic networks-onchip for future generations of chip multiprocessors>http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=4509424]], A. Shacham, K. Bergman, and L. P. Carloni, IEEE Transactions
on Computers, vol. 57, no. 9, pp. 1246–1260, 2008
***TDM [#s20381a7]
- 2010: [[Silicon Nanophotonic Network-on-Chip Using TDM Arbitration>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5577313]], Subrata Banerjee, Jay Yoo, and Chien Chen, High Performance Interconnects (HOTI), 2010 IEEE 18th Annual Symposium on.
-1994: [[Reconfiguration with time division multiplexed mins for multiprocessor communications>http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=273043]], C. Qiao and R. Melhem,IEEE Transactions
on Parallel and Distributed Systems, vol. 5, pp. 337–352, 1994
***Wavelength-selective [#l7fcc560]
- 2014: [["All-Optical Wavelength-Routed Architecture for a Power-Efficient Network on Chip>http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6235952]]," Somayyeh Koohi, Shaahin Hessabi, , IEEE Transactions on Computers, vol. 63, no. 3, pp. 777-792, March, 2014
-2012: [["Photonic Interconnection Network Architectures Using Wavelength-selective Spatial Routing for Chip-Scale Communications">http://lightwave.ee.columbia.edu/files/Chan2012.pdf]], Johnnie Chan and Keren Bergman, VOL. 4, NO. 3/MARCH 2012/J. OPT. COMMUN. NETW.
-2012: [[Power Efficiency of Wavelength-Routed Optical Optical NoC Topologies Topologies for Global for Global Connectivity of 3D Multi Connectivity of 3D Multi-Core Processors>http://dl.acm.org/citation.cfm?id=2401723]], [[Slides>http://www.unikore.it/nocarc/12/slides/ramini.pdf]], Luca Ramini and Davide Bertozzi, NoCArc 2012 — December 1, 2012
-1997: [[Design of Wavelength-Routed Optical Networks for Packet Switched Traffic>http://web.cs.iastate.edu/~ruan/cs686/papers/BYC97.pdf]], Subrata Banerjee, Jay Yoo, and Chien Chen, JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 15, NO. 9, SEPTEMBER 1997
***QoS [#kf641238]
- [[Enabling quality-of-service in nanophotonic network-on-chip>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5722212&tag=1]], Design Automation Conference (ASP-DAC), 2011 16th Asia and South Pacific. [[Slides>https://drive.google.com/file/d/0B2HMlO4p7SuwZWJlUDBCaVZSWWs/view?usp=sharing]]
***Fault-tolerance [#xb683331]
-2015: [[Advanced schemes for all-optical computing, optical error correction, and optical signal processing>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7193635]], Transparent Optical Networks (ICTON), 2015 17th International Conference on, 5-9 July 2015
***Noise Analysis [#f70d26d1]
--Yiyuan Xie, Weihua Xu, Weilun Zhao, Yexiong Huang, Tingting Song, and Min Guo, [[Performance Optimization and Evaluation for Torus-Based Optical Networks-on-Chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7160661]], Journal of Lightwave Technology, 2015.
---Y. Xie, M. Nikdast, J. Xu, X. Wu, W. Zhang, Y. Ye, X. Wang, Z. Wang, and W. Liu, [[Formal worst-case analysis of crosstalk noise in mesh-based optical networks-on-chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6352932]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., vol. 21, no. 10, pp. 1823–1836, Oct. 2013.
---M. Nikdast, J. Xu, X. Wu, Z. Wang, X. Wang, and Z. Wang,[[Fat-tree-based optical interconnection networks under crosstalk noise constraint>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6744606]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., vol. 23, no. 1, pp. 156–169, Feb. 2014.
---M. Nikdast, J. Xu, L. H. K. Duong, X. Wu, X. Wang, Z. Wang, Z. Wang, P. Yang, Y. Ye, and Q. Hao,[[Crosstalk noise in WDM-based optical networks-on-chip: a formal study and comparison>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6977983]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., to be published.
---M. Nikdast, J. Xu, X. Wu, W. Zhang, Y. Ye, X. Wang, Z. Wang, and Z. Wang, [[Systematic analysis of crosstalk noise in folded-torus-based optical networks-on-chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6740052]],¡É IEEE Trans. Comput.-Aided Design Integr. Circuits Syst., vol. 33, no. 3, pp. 437–450, Mar. 2014.
*Miscellaneous [#x69e74be]
***Generic Silicon Photonics PDK & Design Methdology [#g4df16ae]
--[[Download GSiP PDK Library>http://www.siepic.ubc.ca/GSiP]]
...it provides a Generic Silicon Photonics (GSiP) PDK, which is implemented in Mentor Graphics (Pyxis and Calibre) and Lumerical INTERCONNECT tools and is available for download. The purpose of this kit is to demonstrate the functionality of a silicon photonics design flow implementation, with no restrictions to its distribution. This kit can be adapted for different fabrication processes (from the developers).
---[[Paper: Design methodologies for silicon photonic integrated circuits>http://www.mina.ubc.ca/files/2014_SPIE_lukasc_v2b.pdf]]
---[[Slides: Design methodologies for silicon photonic integrated circuits>https://docs.google.com/file/d/0B8N02J5A0d9sMElNdEExNUt1T1k/view]]
--[[Lumerical University Education (CUE)>https://www.lumerical.com/company/cue/program]]
---[[INTERCONNECT>https://www.lumerical.com/tcad-products/interconnect/]]; [[Download>https://www.lumerical.com/downloads/interconnect_evaluation_trial_download.html]]
---[[Integrated Optics Course Outline>https://www.lumerical.com/company/cue/integrated_optics]]
---[[Course - Silicon Nanophotonics Fabrication>http://www.mina.ubc.ca/eece584]]
---[[Optical Transmitter Example: Design Tutorial>https://drive.google.com/file/d/0B2HMlO4p7SuwNndndFhJTjNScEl4bzRFYlpJb0xYNkg2X0Zv/view?usp=sharing]]
***Others [#g1d6ffa0]
-[[PHENIC-LINKS>http://aslweb.u-aizu.ac.jp/aslint/index.php?PHENIC-LINK]]
-Special Issue: Silicon Nanophotonics for Future Multicore Architectures: Opportunities and Challenges, [[IEEE Design & Test, Issue 5, Oct. 2014>http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=6917230]]
-(2011)[[Scalable 3D dense integration of photonics on bulk Silicon>http://nanophotonics.ece.cornell.edu/upload/Scalable%203D%20dense%20integration%20of%20photonics%20on%20bulk%20silicon.pdf]],Nicolás Sherwood-Droz, and Michal Lipson1, School of Electrical and Computer Engineering, Cornell University, Ithaca 14853, New York, USA, Kavli Institute at Cornell for Nanoscale Science, Ithaca 14853, New York, USA
-(2011) [[Vertically stacked microring waveguides for coupling between multiple photonic planes>http://www.opticsinfobase.org/view_article.cfm?gotourl=http%3A%2F%2Fwww%2Eopticsinfobase%2Eorg%2FDirectPDFAccess%2F0B6D0B71-CFEF-92D3-19E7B40FEA8B19C5_222158%2Foe-19-18-17758%2Epdf%3Fda%3D1%26id%3D222158%26seq%3D0%26mobile%3Dno&org=]], Nicolás Sherwood-Droz1, and Michal Lipso.
-[[BRAIN MACHINE>http://aslweb.u-aizu.ac.jp/aslint/index.php?BRAIN%20MACHINE]]
***FSR Calculator [#wb839d24]
-http://www.rp-photonics.com/free_spectral_range.html
***Communication Traffic Patterns [#qa82009d]
Communication traffic patterns are essential for Interconnection networks:
- Architecture exploration
- Performance evaluation
- Comparisons
(1) Random/synthetic traffic patterns
-- Pro: simple to implement, pinpoint specific aspects of networks
-- Con: cannot show overall application performance and power,and application-specific issues
(2) Realistic traffic patterns are based on real applications
-- Pro: show overall application performance and power, and application-specific issues
-- Con: difficult to get
-W. Liu, J. Xu, X. Wu, Y. Ye, X. Wang, W. Zhang, M. Nikdast, Z. Wang, [[¡ÈA NoC Traffic Suite Based on Real Applications¡É>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5992461]], ISVLSI 2011
----
***Common Si-Photonics Design Flow [#f51471a9]
-https://www.lumerical.com/solutions/partners/eda/mentor_graphics/
CENTER:&ref(design-flow.jpg,,80%);
----
***Photonics Labs [#s032fa06]
-''Hong Kong'': ''Photonic Devices Laboratory (PDL)'': http://www.ee.ust.hk/~pdl/
--http://www.ee.ust.hk/~pdl/presentations/
-''China'': Prof. Zhipin Zhou http://spm.pku.edu.cn/spm/People_Prof_Zhou.html
-''Canada'': Dr. Dan Gale http://photonscanada.ca/en/about/cpic-team/
-''Europe'': EPIC- European Photonics Industry Consortium . http://www.epic-assoc.com/
-''Belgium'' : Photonics Research Group in the Department of Information Technology of Ghent University . http://photonics.intec.ugent.be/
--Research Topics http://photonics.intec.ugent.be/contact/vacancies/PRG-thesis%20topics_2013.pdf
--Publicaitons http://photonics.intec.ugent.be/publications/default.htm
-US
--Integrated Photonics Laboratory http://www.bu.edu/ipl/facilities.html
***Fabs [#x8ba716e]
-http://www.epixfab.eu/
***Hardware [#ub4c6c3e]
|&ref(OPTICAL SPECTRUM ANALYZER.jpg,,30%);|&ref(INTENSITY MODULATORS.jpg,,80%);|
|[[OPTICAL SPECTRUM ANALYZER>http://tmi.yokogawa.com/discontinued-products/optical-measuring-instruments/optical-spectrum-analyzer/aq6370b-optical-spectrum-analyzer/]]|[[Mach-Zehnder modulator>http://www.photline.com/lexicon/Mach-Zehnder_modulator/]]|
-Router HW Design Examples:
--[[5-port Optical Router, 2911 (from Optoelectronic System Lab, China>https://drive.google.com/file/d/0B2HMlO4p7SuwXy1zeFFrZDVvN3M/view]]
*Posters [#ebdd3b46]
-POSTER: &ref(http://aslweb.u-aizu.ac.jp/~m5151161/2013/poster/PHENIC_Poster.pdf,,PHENIC Poster "PDF"); , &ref(http://aslweb.u-aizu.ac.jp/~m5151161/2013/poster/PHENIC_Poster.pptx,,PHENIC Poster "PPTX");
* Understanding Light, Wavelengths and Spectrum [#w3d14d41]
*PhD Theses [#o795485b]
-http://gradworks.umi.com/browse/UNIVERSITY_OF_CALIFORNIA_DAVIS/Computer_engineering.html
½ªÎ»¹Ô:
[[Photonic NoC Routing Survey]]
----
//#CONTENTS
*Architecture types [#s657c001]
**Hybrid COLOR(red){please add links - doi} [#a3c1cf95]
4. G. Hendry, S. Kamil, A. Biberman, J. Chan, B. Lee, M. Mohiyuddin, A. Jain, K. Bergman, L. Carloni, J. Kubiatowicz, L. Oliker, and J. Shalf, ¡ÈAnalysis of Photonic Networks for a Chip Multiprocessor using Scientific Applications,¡É in The 3rd ACM/IEEE International Symposium on Networks-on-Chip (NOCS), pp. 104–113, 2009.
3.A.Shacham,K.Bergman,andL.P.Carloni,¡ÈPhotonicNetworks-On-Chipfor Future Generations of Chip Multiprocessors,¡É IEEE Transactions on Computers, vol. 57, no. 9, pp. 1246–1260, 2008
2. A. Shacham, K. Bergman, and L. P. Carloni, ¡ÈOn The Design of a Photonic Network-On-Chip,¡É in The First International Symposium on Networks-onChip (NOCS), pp. 53–64, 2007.
1. A. Shacham, K. Bergman, and L. P. Carloni, ¡ÈPhotonic NoC for DMA Communications in Chip Multiprocessors,¡É in The 15th Annual IEEE Symposium on High-Performance Interconnects, pp. 29–38, 2007.
**Fully Photonic COLOR(red){please add links - doi} [#d7a4e2a6]
9. Y. H. Kao and H. J. Chao, ¡ÈBLOCON: A Bufferless Photonic Clos Network-on-Chip Architecture,¡É in 5th ACM/IEEE International Symposium on Networks-on-Chip (NoCS), pp. 81–88, May 2011.
8. P. Koka, M. O. McCracken, H. Schwetman, X. Zheng, R. Ho, and A. V. Krishnamoorthy, ¡ÈSilicon-Photonic Network Architectures for Scalable, PowerEfficientMulti-ChipSystems,¡Éin37thInternationalSymposiumonComputer Architecture (ISCA), pp. 117–128, 2010.
7. A. Joshi, C. Batten, Y.-J. Kwon, S. Beamer, I. Shamim, K. Asanovic, and V. Stojanovic, ¡ÈSilicon-Photonic Clos Networks for Global On-Chip Communication,¡É in The 2009 3rd ACM/IEEE International Symposium on Networkson-Chip (NOCS), pp. 124–133, 2009.
6. A.Krishnamoorthy,R.Ho,X.Zheng,H.Schwetman,J.Lexau,P.Koka,G.Li, I.Shubin,andJ.Cunningham,¡ÈComputerSystemsBasedonSiliconPhotonic Interconnects,¡É Proceedings of the IEEE, vol. 97, no. 7, pp. 1337–1361, 2009.
5. Y. Pan, J. Kim, and G. Memik, ¡ÈFlexiShare: Channel Sharing for an EnergyEfficientNanophotonicCrossbar,¡ÉinThe16thIEEEInternationalSymposium on High Performance Computer Architecture (HPCA), pp. 1–12, 2010.
4. Y.Pan,P.Kumar,J.Kim,G.Memik,Y.Zhang,andA.Choudhary,¡ÈFirefly:Illuminatingfuturenetwork-on-chipwithnanophotonics,¡Éin 36th International Symposium on Computer Architecture (ISCA), 2009.
3. D. Vantrease, N. Binkert, R. Schreiber, and M. H. Lipasti, ¡ÈLight Speed Arbitration and Flow Control for Nanophotonic Interconnects,¡É in 42nd AnnualIEEE/ACMInternationalSymposiumonmicroarchitecture,pp.304–315, 2009.
2. D. Vantrease, R. Schreiber, M. Monchiero, M. McLaren, N. P. Jouppi, M.Fiorentino,A.Davis,N.Binkert,R.G.Beausoleil,andJ.H.Ahn,¡ÈCorona: SystemImplicationsofEmergingNanophotonicTechnology,¡Éin35thInternational Symposium on Computer Architecture (ISCA), pp. 153–164, 2008.
1. N. Kirman, M. Kirman, R. Dokania, J. Martinez, A. Apsel, M. Watkins, and
D.Albonesi,¡ÈLeveragingOpticalTechnologyinFutureBus-BasedChipMultiprocessors,¡ÉinThe39thAnnualIEEE/ACMInternationalSymposiumonMicroarchitecture (Micro), pp. 492–503, 2006.
----
*Routing, QoS, FT [#r9386a6d]
***Token [#yc815044]
-2009: [[Fire-fly: illuminating future network-on-chip with nanophotonics>http://dl.acm.org/citation.cfm?id=1555808]],Y. Pan, P. Kumar, J. Kim, G. Memik, Y. Zhang, and A. Choudhary, , SIGARCH
Comput. Archit. News, vol. 37, no. 3, pp. 429–440, 2009.
-2006: [[Leveraging optical technology in future bus-based chip multiprocessors>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4041871]], N. Kirman et al., in MICRO 39: Proceedings of the 39th Annual IEEE/ACM International Symposium on Microarchitecture. Washington,
DC, USA: IEEE Computer Society, 2006, pp. 492–503
-2008: [[Corona: System implications of emerging nanophotonic technology>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4556723]], D. Vantrease et al., Computer Architecture, International Symposium on,
vol. 0, pp. 153–164, 2008
***Circuit Switching [#p8ddb931]
-2008: [[Photonic networks-onchip for future generations of chip multiprocessors>http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=4509424]], A. Shacham, K. Bergman, and L. P. Carloni, IEEE Transactions
on Computers, vol. 57, no. 9, pp. 1246–1260, 2008
***TDM [#s20381a7]
- 2010: [[Silicon Nanophotonic Network-on-Chip Using TDM Arbitration>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5577313]], Subrata Banerjee, Jay Yoo, and Chien Chen, High Performance Interconnects (HOTI), 2010 IEEE 18th Annual Symposium on.
-1994: [[Reconfiguration with time division multiplexed mins for multiprocessor communications>http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=273043]], C. Qiao and R. Melhem,IEEE Transactions
on Parallel and Distributed Systems, vol. 5, pp. 337–352, 1994
***Wavelength-selective [#l7fcc560]
- 2014: [["All-Optical Wavelength-Routed Architecture for a Power-Efficient Network on Chip>http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6235952]]," Somayyeh Koohi, Shaahin Hessabi, , IEEE Transactions on Computers, vol. 63, no. 3, pp. 777-792, March, 2014
-2012: [["Photonic Interconnection Network Architectures Using Wavelength-selective Spatial Routing for Chip-Scale Communications">http://lightwave.ee.columbia.edu/files/Chan2012.pdf]], Johnnie Chan and Keren Bergman, VOL. 4, NO. 3/MARCH 2012/J. OPT. COMMUN. NETW.
-2012: [[Power Efficiency of Wavelength-Routed Optical Optical NoC Topologies Topologies for Global for Global Connectivity of 3D Multi Connectivity of 3D Multi-Core Processors>http://dl.acm.org/citation.cfm?id=2401723]], [[Slides>http://www.unikore.it/nocarc/12/slides/ramini.pdf]], Luca Ramini and Davide Bertozzi, NoCArc 2012 — December 1, 2012
-1997: [[Design of Wavelength-Routed Optical Networks for Packet Switched Traffic>http://web.cs.iastate.edu/~ruan/cs686/papers/BYC97.pdf]], Subrata Banerjee, Jay Yoo, and Chien Chen, JOURNAL OF LIGHTWAVE TECHNOLOGY, VOL. 15, NO. 9, SEPTEMBER 1997
***QoS [#kf641238]
- [[Enabling quality-of-service in nanophotonic network-on-chip>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5722212&tag=1]], Design Automation Conference (ASP-DAC), 2011 16th Asia and South Pacific. [[Slides>https://drive.google.com/file/d/0B2HMlO4p7SuwZWJlUDBCaVZSWWs/view?usp=sharing]]
***Fault-tolerance [#xb683331]
-2015: [[Advanced schemes for all-optical computing, optical error correction, and optical signal processing>http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=7193635]], Transparent Optical Networks (ICTON), 2015 17th International Conference on, 5-9 July 2015
***Noise Analysis [#f70d26d1]
--Yiyuan Xie, Weihua Xu, Weilun Zhao, Yexiong Huang, Tingting Song, and Min Guo, [[Performance Optimization and Evaluation for Torus-Based Optical Networks-on-Chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7160661]], Journal of Lightwave Technology, 2015.
---Y. Xie, M. Nikdast, J. Xu, X. Wu, W. Zhang, Y. Ye, X. Wang, Z. Wang, and W. Liu, [[Formal worst-case analysis of crosstalk noise in mesh-based optical networks-on-chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6352932]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., vol. 21, no. 10, pp. 1823–1836, Oct. 2013.
---M. Nikdast, J. Xu, X. Wu, Z. Wang, X. Wang, and Z. Wang,[[Fat-tree-based optical interconnection networks under crosstalk noise constraint>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6744606]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., vol. 23, no. 1, pp. 156–169, Feb. 2014.
---M. Nikdast, J. Xu, L. H. K. Duong, X. Wu, X. Wang, Z. Wang, Z. Wang, P. Yang, Y. Ye, and Q. Hao,[[Crosstalk noise in WDM-based optical networks-on-chip: a formal study and comparison>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6977983]],¡É IEEE Trans. Very Large Scale Integr. (VLSI) Syst., to be published.
---M. Nikdast, J. Xu, X. Wu, W. Zhang, Y. Ye, X. Wang, Z. Wang, and Z. Wang, [[Systematic analysis of crosstalk noise in folded-torus-based optical networks-on-chip>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6740052]],¡É IEEE Trans. Comput.-Aided Design Integr. Circuits Syst., vol. 33, no. 3, pp. 437–450, Mar. 2014.
*Miscellaneous [#x69e74be]
***Generic Silicon Photonics PDK & Design Methdology [#g4df16ae]
--[[Download GSiP PDK Library>http://www.siepic.ubc.ca/GSiP]]
...it provides a Generic Silicon Photonics (GSiP) PDK, which is implemented in Mentor Graphics (Pyxis and Calibre) and Lumerical INTERCONNECT tools and is available for download. The purpose of this kit is to demonstrate the functionality of a silicon photonics design flow implementation, with no restrictions to its distribution. This kit can be adapted for different fabrication processes (from the developers).
---[[Paper: Design methodologies for silicon photonic integrated circuits>http://www.mina.ubc.ca/files/2014_SPIE_lukasc_v2b.pdf]]
---[[Slides: Design methodologies for silicon photonic integrated circuits>https://docs.google.com/file/d/0B8N02J5A0d9sMElNdEExNUt1T1k/view]]
--[[Lumerical University Education (CUE)>https://www.lumerical.com/company/cue/program]]
---[[INTERCONNECT>https://www.lumerical.com/tcad-products/interconnect/]]; [[Download>https://www.lumerical.com/downloads/interconnect_evaluation_trial_download.html]]
---[[Integrated Optics Course Outline>https://www.lumerical.com/company/cue/integrated_optics]]
---[[Course - Silicon Nanophotonics Fabrication>http://www.mina.ubc.ca/eece584]]
---[[Optical Transmitter Example: Design Tutorial>https://drive.google.com/file/d/0B2HMlO4p7SuwNndndFhJTjNScEl4bzRFYlpJb0xYNkg2X0Zv/view?usp=sharing]]
***Others [#g1d6ffa0]
-[[PHENIC-LINKS>http://aslweb.u-aizu.ac.jp/aslint/index.php?PHENIC-LINK]]
-Special Issue: Silicon Nanophotonics for Future Multicore Architectures: Opportunities and Challenges, [[IEEE Design & Test, Issue 5, Oct. 2014>http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=6917230]]
-(2011)[[Scalable 3D dense integration of photonics on bulk Silicon>http://nanophotonics.ece.cornell.edu/upload/Scalable%203D%20dense%20integration%20of%20photonics%20on%20bulk%20silicon.pdf]],Nicolás Sherwood-Droz, and Michal Lipson1, School of Electrical and Computer Engineering, Cornell University, Ithaca 14853, New York, USA, Kavli Institute at Cornell for Nanoscale Science, Ithaca 14853, New York, USA
-(2011) [[Vertically stacked microring waveguides for coupling between multiple photonic planes>http://www.opticsinfobase.org/view_article.cfm?gotourl=http%3A%2F%2Fwww%2Eopticsinfobase%2Eorg%2FDirectPDFAccess%2F0B6D0B71-CFEF-92D3-19E7B40FEA8B19C5_222158%2Foe-19-18-17758%2Epdf%3Fda%3D1%26id%3D222158%26seq%3D0%26mobile%3Dno&org=]], Nicolás Sherwood-Droz1, and Michal Lipso.
-[[BRAIN MACHINE>http://aslweb.u-aizu.ac.jp/aslint/index.php?BRAIN%20MACHINE]]
***FSR Calculator [#wb839d24]
-http://www.rp-photonics.com/free_spectral_range.html
***Communication Traffic Patterns [#qa82009d]
Communication traffic patterns are essential for Interconnection networks:
- Architecture exploration
- Performance evaluation
- Comparisons
(1) Random/synthetic traffic patterns
-- Pro: simple to implement, pinpoint specific aspects of networks
-- Con: cannot show overall application performance and power,and application-specific issues
(2) Realistic traffic patterns are based on real applications
-- Pro: show overall application performance and power, and application-specific issues
-- Con: difficult to get
-W. Liu, J. Xu, X. Wu, Y. Ye, X. Wang, W. Zhang, M. Nikdast, Z. Wang, [[¡ÈA NoC Traffic Suite Based on Real Applications¡É>http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5992461]], ISVLSI 2011
----
***Common Si-Photonics Design Flow [#f51471a9]
-https://www.lumerical.com/solutions/partners/eda/mentor_graphics/
CENTER:&ref(design-flow.jpg,,80%);
----
***Photonics Labs [#s032fa06]
-''Hong Kong'': ''Photonic Devices Laboratory (PDL)'': http://www.ee.ust.hk/~pdl/
--http://www.ee.ust.hk/~pdl/presentations/
-''China'': Prof. Zhipin Zhou http://spm.pku.edu.cn/spm/People_Prof_Zhou.html
-''Canada'': Dr. Dan Gale http://photonscanada.ca/en/about/cpic-team/
-''Europe'': EPIC- European Photonics Industry Consortium . http://www.epic-assoc.com/
-''Belgium'' : Photonics Research Group in the Department of Information Technology of Ghent University . http://photonics.intec.ugent.be/
--Research Topics http://photonics.intec.ugent.be/contact/vacancies/PRG-thesis%20topics_2013.pdf
--Publicaitons http://photonics.intec.ugent.be/publications/default.htm
-US
--Integrated Photonics Laboratory http://www.bu.edu/ipl/facilities.html
***Fabs [#x8ba716e]
-http://www.epixfab.eu/
***Hardware [#ub4c6c3e]
|&ref(OPTICAL SPECTRUM ANALYZER.jpg,,30%);|&ref(INTENSITY MODULATORS.jpg,,80%);|
|[[OPTICAL SPECTRUM ANALYZER>http://tmi.yokogawa.com/discontinued-products/optical-measuring-instruments/optical-spectrum-analyzer/aq6370b-optical-spectrum-analyzer/]]|[[Mach-Zehnder modulator>http://www.photline.com/lexicon/Mach-Zehnder_modulator/]]|
-Router HW Design Examples:
--[[5-port Optical Router, 2911 (from Optoelectronic System Lab, China>https://drive.google.com/file/d/0B2HMlO4p7SuwXy1zeFFrZDVvN3M/view]]
*Posters [#ebdd3b46]
-POSTER: &ref(http://aslweb.u-aizu.ac.jp/~m5151161/2013/poster/PHENIC_Poster.pdf,,PHENIC Poster "PDF"); , &ref(http://aslweb.u-aizu.ac.jp/~m5151161/2013/poster/PHENIC_Poster.pptx,,PHENIC Poster "PPTX");
* Understanding Light, Wavelengths and Spectrum [#w3d14d41]
*PhD Theses [#o795485b]
-http://gradworks.umi.com/browse/UNIVERSITY_OF_CALIFORNIA_DAVIS/Computer_engineering.html
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