Abstract

Silicon photonics based switches offer an effective option for the delivery of dynamic bandwidth for future large-scale Datacom systems while maintaining scalable energy efficiency. The integration of a silicon photonics-based optical switching fabric within electronic Datacom architectures requires novel network topologies and arbitration strategies to effectively manage the active elements in the network. We present a scalable software-defined networking control plane to integrate silicon photonic based switches with conventional Ethernet or InfiniBand networks. Our software-defined control plane manages both electronic packet switches and multiple silicon photonic switches for simultaneous packet and circuit switching. We built an experimental Dragonfly network testbed with 16 electronic packet switches and 2 silicon photonic switches to evaluate our control plane. Observed latencies occupied by each step of the switching procedure demonstrate a total of 344 µs control plane latency for data-center and high performance computing platforms.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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2017 (3)

2016 (4)

2015 (5)

2014 (2)

2013 (2)

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Abrams, N. C.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Abts, D.

J. Kim, W. J. Dally, S. Scott, and D. Abts, “Technology-Driven, Highly-Scalable Dragonfly Topology,” in Proceedings of International Symposium on Computer Architecture, Beijing, 2008, pp. 77–88.

Aguinaldo, R.

Alexander, D. R.

Alloatti, L.

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

Anderson, E.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Ardey, A.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Azodolmolky, S.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Bahadori, M.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

Q. Cheng, M. Bahadori, S. Rumley, and K. Bergman, “Highly-scalable, low-crosstalk architecture for ring-based optical space switch fabrics,” in Proceedings of IEEE Optical Interconnects Conference (IEEE, 2017), pp. 41–42.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Q. Cheng, M. Bahadori, and K. Bergman, “Advanced path mapping for silicon photonic switch fabrics,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optical Society of America, 2017), paper SW1O.5.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Baks, C.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Barry, L.

Beakes, M.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Bergman, K.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

Q. Cheng, M. Bahadori, and K. Bergman, “Advanced path mapping for silicon photonic switch fabrics,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optical Society of America, 2017), paper SW1O.5.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Q. Cheng, M. Bahadori, S. Rumley, and K. Bergman, “Highly-scalable, low-crosstalk architecture for ring-based optical space switch fabrics,” in Proceedings of IEEE Optical Interconnects Conference (IEEE, 2017), pp. 41–42.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Bowers, J. E.

Browning, C.

Bulzhacchelli, J.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Calhoun, D.

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Casellas, R.

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Chen, C.

Z. Zhu, C. Chen, X. Chen, S. Ma, L. Liu, X. Feng, and S. J. B. Yoo, “Demonstration of cooperative resource allocation in an OpenFlow-controlled multidomain and multinational SD-EON testbed,” J. Lightwave Technol. 33(8), 1508–1514 (2015).
[Crossref]

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Chen, H.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Chen, J.

Chen, X.

Cheng, Q.

Q. Cheng, M. Bahadori, S. Rumley, and K. Bergman, “Highly-scalable, low-crosstalk architecture for ring-based optical space switch fabrics,” in Proceedings of IEEE Optical Interconnects Conference (IEEE, 2017), pp. 41–42.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Q. Cheng, M. Bahadori, and K. Bergman, “Advanced path mapping for silicon photonic switch fabrics,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optical Society of America, 2017), paper SW1O.5.

Chu, D. P.

Chu, T.

L. Qiao, W. Tang, and T. Chu, “32 × 32 silicon electro-optic switch with built-in monitors and balanced-status units,” Sci. Rep. 7, 42306 (2017)
[Crossref]

Collings, N.

Cong, G.

Crossland, W. A.

Dally, W. J.

J. Kim, W. J. Dally, S. Scott, and D. Abts, “Technology-Driven, Highly-Scalable Dragonfly Topology,” in Proceedings of International Symposium on Computer Architecture, Beijing, 2008, pp. 77–88.

Davenport, M.

Deogun, J. S.

DeRose, C.

Ding, R.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Fainman, Y.

Feng, X.

Fontaine, N. K.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Forencich, A.

Gazman, A.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Guo, J.

Hamza, A. S.

Han, S.

Hattink, M.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Hendry, R.

Hochberg, M.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Huang, B.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Huang, Y.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Hulme, J.

Ikeda, K.

Inoue, T.

K. Ishii, T. Inoue, and S. Namiki, “Toward exa-scale optical circuit switch interconnect networks for future datacenter/HPC,” in Proceedings of 2016 Tenth IEEE/ACM International Symposium on Networks-on-Chip (SPIE, 2016), pp. 1–5.

Ishii, K.

K. Ishii, T. Inoue, and S. Namiki, “Toward exa-scale optical circuit switch interconnect networks for future datacenter/HPC,” in Proceedings of 2016 Tenth IEEE/ACM International Symposium on Networks-on-Chip (SPIE, 2016), pp. 1–5.

Jeziorska-Chapman, A. M.

Jones, T.B.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Kawashima, H.

Kim, J.

J. Kim, W. J. Dally, S. Scott, and D. Abts, “Technology-Driven, Highly-Scalable Dragonfly Topology,” in Proceedings of International Symposium on Computer Architecture, Beijing, 2008, pp. 77–88.

Kimura, T.

Komljenovic, T.

Kong, B.

Koshino, K.

Kreutz, D.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Lee, B.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Lee, S.

Lentine, A.

Li, D.

Li, Q.

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Li, X.

Li, Z.

Lipson, M.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Liu, A. Y.

Liu, J.

Liu, L.

Liu, Y.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Lu, L.

Luo, L.W.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Ma, S.

Martinez, R.

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

Matsumaro, K.

Meghelli, M.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Mookherjea, S.

Moore, J. R.

Morita, I.

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Muller, R. S.

Munoz, R.

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Namiki, S.

K. Tanizawa, K. Suzuki, M. Toyama, M. Ohtsuka, N. Yokoyama, K. Matsumaro, M. Seki, K. Koshino, T. Sugaya, S. Suda, G. Cong, T. Kimura, K. Ikeda, S. Namiki, and H. Kawashima, “Ultra-compact 32 × 32 strictly-non-blocking Si-wire optical switch with fan-out LGA interposer,” Opt. Express 23(13), 17599–17606 (2015).
[Crossref] [PubMed]

K. Ishii, T. Inoue, and S. Namiki, “Toward exa-scale optical circuit switch interconnect networks for future datacenter/HPC,” in Proceedings of 2016 Tenth IEEE/ACM International Symposium on Networks-on-Chip (SPIE, 2016), pp. 1–5.

Neilson, D. T.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Nikolova, D.

Ohtsuka, M.

Padmaraju, K.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Papen, G.

Parker, B.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Pivnenko, M.

Popovic, M.

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

Porter, G.

Proesel, J.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Qiao, L.

L. Qiao, W. Tang, and T. Chu, “32 × 32 silicon electro-optic switch with built-in monitors and balanced-status units,” Sci. Rep. 7, 42306 (2017)
[Crossref]

Quack, N.

Ram, R. J.

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

Ramos, F. M. V.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Redmond, M. M.

Robertson, B.

Rothenberg, C. E.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Rumley, S.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Q. Cheng, M. Bahadori, S. Rumley, and K. Bergman, “Highly-scalable, low-crosstalk architecture for ring-based optical space switch fabrics,” in Proceedings of IEEE Optical Interconnects Conference (IEEE, 2017), pp. 41–42.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Ryf, R.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Rylov, S.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Rylyakof, A.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Samadi, P.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Santis, C. T.

Schow, C.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Scott, S.

J. Kim, W. J. Dally, S. Scott, and D. Abts, “Technology-Driven, Highly-Scalable Dragonfly Topology,” in Proceedings of International Symposium on Computer Architecture, Beijing, 2008, pp. 77–88.

Seki, M.

Seok, T. J.

Shen, Y.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Shiraishi, T.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Spott, A.

Srinivasan, S.

Stanimirovic, I.

I. Stanimirovic and Z. Stanimirovic, Advances in Micro/Nano Electromechanical Systems and Fabrication Technologies (InTech, 2013), Chap. 4.

Stanimirovic, Z.

I. Stanimirovic and Z. Stanimirovic, Advances in Micro/Nano Electromechanical Systems and Fabrication Technologies (InTech, 2013), Chap. 4.

Stanton, E. J.

Stojanovic, V.

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

Suda, S.

Sugaya, T.

Suzuki, K.

Tang, W.

L. Qiao, W. Tang, and T. Chu, “32 × 32 silicon electro-optic switch with built-in monitors and balanced-status units,” Sci. Rep. 7, 42306 (2017)
[Crossref]

Tanizawa, K.

Teh, M. Y.

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Toyama, M.

Trotter, D.

Tsuritani, T.

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Uhlig, S.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Verissimo, P. E.

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Vilalta, R.

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Vujicic, V.

Wade, M.

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

Wang, M.

Wen, K.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

White, I. H.

Wilke, J.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

Wonfor, A.

Wu, M. C.

Xiao, X.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

Yang, H.

Yin, H.

Yin, J.

Yokoyama, N.

Yoo, S. J. B.

Zhang, C.

Zhao, S.

Zhou, J.

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Zhou, L.

Zhu, X.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

Zhu, Z.

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

J. Yin, J. Guo, B. Kong, H. Yin, and Z. Zhu, “Experimental demonstration of building and operating QoS-aware survivable vSD-EONs with transparent resiliency,” Opt. Express 25, 15468–15480 (2017).
[Crossref] [PubMed]

Z. Zhu, C. Chen, X. Chen, S. Ma, L. Liu, X. Feng, and S. J. B. Yoo, “Demonstration of cooperative resource allocation in an OpenFlow-controlled multidomain and multinational SD-EON testbed,” J. Lightwave Technol. 33(8), 1508–1514 (2015).
[Crossref]

Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

IET Optoelectron. (1)

L. Alloatti, M. Wade, V. Stojanovic, M. Popovic, and R. J. Ram, “Photonics design tool for advanced CMOS nodes,” IET Optoelectron. 9(4), 163–167 (2015).
[Crossref]

J. Lightwave Technol. (3)

J. Opt. Commun. Netw. (1)

Opt. Commun. Netw. (1)

R. Casellas, R. Martinez, R. Munoz, R. Vilalta, L. Liu, T. Tsuritani, and I. Morita, “Control and management of flexi-grid optical networks with an integrated stateful path computation element and OpenFlow controller [invited],” J. Opt. Commun. Netw. 5(10), A57–A65 (2013).
[Crossref]

Opt. Express (7)

J. Yin, J. Guo, B. Kong, H. Yin, and Z. Zhu, “Experimental demonstration of building and operating QoS-aware survivable vSD-EONs with transparent resiliency,” Opt. Express 25, 15468–15480 (2017).
[Crossref] [PubMed]

R. Aguinaldo, A. Forencich, C. DeRose, A. Lentine, D. Trotter, Y. Fainman, G. Porter, G. Papen, and S. Mookherjea, “Wideband silicon-photonic thermo-optic switch in a wavelength-division multiplexed ring network,” Opt. Express 22(7), 8205–8218 (2014).
[Crossref] [PubMed]

A. Gazman, C. Browning, M. Bahadori, Z. Zhu, P. Samadi, S. Rumley, V. Vujicic, L. Barry, and K. Bergman, “Software-defined control-plane for wavelength selective unicast and multicast of optical data in a silicon photonic platform,” Opt. Express 25(1), 232–242 (2017).
[Crossref] [PubMed]

L. Liu, R. Munoz, R. Casellas, T. Tsuritani, R. Martinez, and I. Morita, “OpenSlice: An OpenFlow-based control plane for spectrum sliced elastic optical path networks,” Opt. Express 21(4), 4194–4204 (2013).
[Crossref] [PubMed]

K. Tanizawa, K. Suzuki, M. Toyama, M. Ohtsuka, N. Yokoyama, K. Matsumaro, M. Seki, K. Koshino, T. Sugaya, S. Suda, G. Cong, T. Kimura, K. Ikeda, S. Namiki, and H. Kawashima, “Ultra-compact 32 × 32 strictly-non-blocking Si-wire optical switch with fan-out LGA interposer,” Opt. Express 23(13), 17599–17606 (2015).
[Crossref] [PubMed]

L. Lu, S. Zhao, L. Zhou, D. Li, Z. Li, M. Wang, X. Li, and J. Chen, “16 × 16 non-blocking silicon optical switch based on electro-optic Mach-Zehnder interferometers,” Opt. Express 24(9), 9295–9307 (2016).
[Crossref] [PubMed]

D. Nikolova, S. Rumley, D. Calhoun, Q. Li, R. Hendry, P. Samadi, and K. Bergman, “Scaling silicon photonic switch fabrics for data center interconnection networks,” Opt. Express 23(2), 1159–1175 (2015).
[Crossref] [PubMed]

Optica (1)

Proc. IEEE (1)

D. Kreutz, F. M. V. Ramos, P. E. Verissimo, C. E. Rothenberg, S. Azodolmolky, and S. Uhlig, “Software-defined networking: a comprehensive survey,” Proc. IEEE 103(1), 14–76 (2015).
[Crossref]

Sci. Rep. (1)

L. Qiao, W. Tang, and T. Chu, “32 × 32 silicon electro-optic switch with built-in monitors and balanced-status units,” Sci. Rep. 7, 42306 (2017)
[Crossref]

Other (20)

K. Ishii, T. Inoue, and S. Namiki, “Toward exa-scale optical circuit switch interconnect networks for future datacenter/HPC,” in Proceedings of 2016 Tenth IEEE/ACM International Symposium on Networks-on-Chip (SPIE, 2016), pp. 1–5.

T. Shiraishi, Q. Li, Y. Liu, X. Zhu, K. Padmaraju, R. Ding, M. Hochberg, and K. Bergman, “A reconfigurable and redundant optically-connected memory system using a silicon photonic switch,” in Optical Fiber Communication Conference (Optical Society of America, 2014), paper Th2A.10.

Y. Shen, P. Samadi, Z. Zhu, A. Gazman, E. Anderson, D. Calhoun, M. Hattink, and K. Bergman, “Software-defined networking control plane for seamless integration of silicon photonics in Datacom networks,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Ryu SDN ControllerURL: “ https://osrg.github.io/ryu/ ”

J. Kim, W. J. Dally, S. Scott, and D. Abts, “Technology-Driven, Highly-Scalable Dragonfly Topology,” in Proceedings of International Symposium on Computer Architecture, Beijing, 2008, pp. 77–88.

H. Chen, N. K. Fontaine, B. Huang, X. Xiao, R. Ryf, and D. T. Neilson, “Wavelength Selective Switch for Dynamic VCSEL-Based Data Centers,” presented at ECOC 2016 - Post Deadline Paper; 42nd European Conference on Optical Communication (IEEE, 2016), pp. 1–3.

I. Stanimirovic and Z. Stanimirovic, Advances in Micro/Nano Electromechanical Systems and Fabrication Technologies (InTech, 2013), Chap. 4.

Q. Cheng, M. Bahadori, S. Rumley, and K. Bergman, “Highly-scalable, low-crosstalk architecture for ring-based optical space switch fabrics,” in Proceedings of IEEE Optical Interconnects Conference (IEEE, 2017), pp. 41–42.

K. Wen, P. Samadi, S. Rumley, C. Chen, Y. Shen, M. Bahadori, K. Bergman, and J. Wilke, “Flexfly: enabling a reconfigurable Dragonfly through silicon hotonics,” in Proceedings of SC16: International Conference for High Performance Computing, Networking, Storage and Analysis, (IEEE, 2016), pp. 166–177.

K. Wen, D. Calhoun, S. Rumley, X. Zhu, Y. Liu, L.W. Luo, R. Ding, T.B. Jones, M. Hochberg, and M. Lipson, “Reuse distance based circuit replacement in silicon photonic interconnection networks for HPC,” in Proceedings of IEEE 22nd Annual Symposium on High-Performance Interconnects, Mountain View, CA, (IEEE, 2014) pp. 49–56.

WiresharkURL: https://www.wireshark.org/

FlowModURL: http://flowgrammable.org/sdn/openflow/messagelayer/flowmod/#tab_ofp_1_3_1

Y. Huang, Q. Cheng, N. C. Abrams, J. Zhou, S. Rumley, and K. Bergman, “Automated calibration and characterization for scalable integrated optical switch fabrics without built-in power monitors,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

Q. Cheng, M. Bahadori, Y. Huang, S. Rumley, and K. Bergman, “Smart routing tables for integrated photonic switch fabrics,” presented at ECOC 2017, 43rd European Conference and Exhibition on Optical Communications, Gothenburg, Sweden, Sept.2017.

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Y. Shen, A. Gazman, Z. Zhu, M. Y. Teh, M. Hattink, S. Rumley, P. Samadi, and K. Bergman, “Autonomous dynamic bandwidth steering with silicon photonic-based wavelength and spatial switching for Datacom networks,” in Optical Fiber Communication Conference, OSA Technical Digest (online) (Optical Society of America, 2018), paper Tu3F.2.

A. Rylyakof, J. Proesel, S. Rylov, B. Lee, J. Bulzhacchelli, A. Ardey, B. Parker, M. Beakes, C. Baks, C. Schow, and M. Meghelli, “22.1 A 25Gb/s burst-mode receiver for rapidly reconfigurable optical networks,” in Proceedings of International Solid-State Circuits Conference-(ISSCC) Digest of Technical Papers, (IEEE, 2015) pp. 1–3.

Q. Cheng, M. Bahadori, and K. Bergman, “Advanced path mapping for silicon photonic switch fabrics,” in Conference on Lasers and Electro-Optics, OSA Technical Digest (online) (Optical Society of America, 2017), paper SW1O.5.

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Figures (9)

Fig. 1
Fig. 1 Network architecture divided into the control plane and data plane.
Fig. 2
Fig. 2 FPGA operation for handling an incoming flow update packet.
Fig. 3
Fig. 3 (a) Topology of the network testbed, (b) snapshot of the testbed hardware.
Fig. 4
Fig. 4 Bar and cross configurations for both SiP switches.
Fig. 5
Fig. 5 Timeline showing control plane and hardware latencies.
Fig. 6
Fig. 6 Real-time delay between four electronic signals sent simultaneously.
Fig. 7
Fig. 7 (a) Flow insertion time on an OpenFlow-enabled EPS, (b) end-to-end switching time.
Fig. 8
Fig. 8 MZI SiP ON and OFF switching time for switch 1 (a, b) and switch 2 (c, d).
Fig. 9
Fig. 9 Throughput increase by bandwidth steering.

Tables (3)

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Table 1 FPGA Ethernet Protocol

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Table 2 Register Ethernet Protocol

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Table 3 List of all software and hardware latencies

Metrics