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435 results on '"Pleros, Nikos"'

1. Bimodal Plasmonic Refractive Index Sensors Based on SU-8 Waveguides

Author

Bhalerao, Omkar, Suckow, Stephan, Windgassen, Horst, Biller, Harry, Fotiadis, Konstantinos, Simos, Stelios, Chatzianagnostou, Evangelia, Spasopoulos, Dimosthenis, Das, Pratyusha, Markey, Laurent, Weeber, Jean-Claude, Pleros, Nikos, Schirmer, Matthias, and Lemme, Max C.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Plasmonic refractive index sensors are essential for detecting subtle variations in the ambient environment through surface plasmon interactions. Current efforts utilizing CMOS-compatible, plasmo-photonic Mach-Zehnder interferometers with active power balancing exhibit high sensitivities at the cost of fabrication and measurement complexity. Alternatively, passive bimodal plasmonic interferometers based on SU-8 waveguides present a cost-effective solution with a smaller device footprint, though they currently lack opto-mechanical isolation due to exposed photonic waveguides. In this work, we introduce innovative polymer-core and polymer-cladded bimodal plasmonic refractive index sensors with high refractive index contrast. Our sensors feature an aluminum stripe, a bilayer SU-8 photonic waveguide core, and the experimental optical cladding polymer SX AR LWL 2.0. They achieve a sensitivity of (6300 $\pm$ 460) nm/RIU (refractive index unit), surpassing both traditional and polymer-based plasmo-photonic sensors. This approach enables integrated, wafer-scale, CMOS-compatible, and low-cost sensors and facilitates plasmonic refractive index sensing platforms for various applications., Comment: 30 pages

Published
2024

2. Perfect Linear Optics using Silicon Photonics

Author

Moralis-Pegios, Miltiadis, Giamougiannis, George, Tsakyridis, Apostolos, Lazovsky, David, and Pleros, Nikos

Subjects
Physics - Optics, Computer Science - Emerging Technologies
Abstract

In recent years, there has been growing interest in using photonic technology to perform the underlying linear algebra operations required by different applications, including neuromorphic photonics, quantum computing and microwave processing, mainly aiming at taking advantage of the silicon photonics' (SiPho) credentials to support high-speed and energy-efficient operations. Mapping, however, a targeted matrix with absolute accuracy into the optical domain remains a huge challenge in linear optics, since state-of-the-art linear optical circuit architectures are highly sensitive to fabrication imperfections. This leads to reduced fidelity metrics that degrade faster as the insertion losses of the constituent optical matrix node or the matrix dimensions increase. In this work, we present for the first time a novel coherent SiPho crossbar (Xbar) that can support on-chip fidelity restoration while implementing linear algebra operations, realizing the first experimental demonstration of perfect on-chip arbitrary linear optical transformations. We demonstrate the experimental implementation of 10000 arbitrary linear transformations in the photonic domain achieving a record high fidelity of 99.997%+-0.002, limited mainly by the statistical error enforced by the measurement equipment. Our work represents the first integrated universal linear optical circuit that provides almost unity and loss-independent fidelity in the realization of arbitrary matrices, opening new avenues for exploring the use of light in resolving universal computational tasks.

Published
2023

4. An Ultra-Small InP Microdisk Laser Diode for Programmable Non-linear Activation Functions in Neuromorphic Photonics

Author

Pappas, Christos, Demarchi, Andrea, Roumpos, Ioannis, Madiot, Guilhem, Moralis-Pegios, Miltiadis, Giamougiannis, George, Tsakyridis, Apostolos, Bazin, Alexandre, Manegatti, Francesco, Beaudoin, Grégoire, Pantzas, Konstantinos, Sagnes, Isabelle, Raineri, Fabrice, Pleros, Nikos, Witzens, Jeremy, editor, Poon, Joyce, editor, Zimmermann, Lars, editor, and Freude, Wolfgang, editor

Published
2024
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6. Coherent photonic crossbar as a universal linear operator

Author

Giamougiannis, George, Tsakyridis, Apostolos, Ma, Yangjin, Totovic, Angelina, Lazovsky, David, and Pleros, Nikos

Subjects
Computer Science - Emerging Technologies
Abstract

Linear optics aim at realizing any real- and/or complex-valued matrix operator via optical elements, addressing a broad field of applications in the areas of quantum photonics, microwave photonics and optical neural networks. The transfer of linear operators into photonic experimental layouts typically relies on Singular Value Decomposition (SVD) techniques combining meshes of cascaded 2x2 Mach Zehnder Interferometers (MZIs), with the main challenges being the precision in the experimental representation of the targeted matrix, referred to as fidelity, and the overall insertion loss. We demonstrate a novel interferometric coherent photonic crossbar architecture (Xbar) that demarcates from state-of-the-art SVD implementations and can realize any linear operator, supporting full restoration of the loss-induced fidelity. Its novel interferometric design allows for the direct mapping of each matrix element to a single, designated Xbar node, bringing down the number of programming steps to only one. We present the theoretical foundations of the Xbar, proving that its insertion losses scale linearly with the node losses as opposed to the exponential scaling witnessed by the SVD counterparts. This leads to a matrix design with significantly lower overall insertion losses compared to SVD-based schemes when utilizing state-of-the-art silicon photonic fabrication metrics, allowing for alternative node technologies with lower energy consumption and higher operational speed credentials to be employed. Finally, we validate that our Xbar architecture is the first linear operator that supports fidelity restoration, outperforming SVD schemes in loss- and phase-error fidelity performance and forming a significantly more robust layout to loss and phase deviations.

Published
2022
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7. Energy-Proportional Data Center Network Architecture Through OS, Switch and Laser Co-design

Author

Han, Haiyang, Terzenidis, Nikos, Syrivelis, Dimitris, Beldachi, Arash F., Kanellos, George T., Demir, Yigit, Gu, Jie, Kandula, Srikanth, Pleros, Nikos, Bustamante, Fabián, and Hardavellas, Nikos

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Hardware Architecture, C.2
Abstract

Optical interconnects are already the dominant technology in large-scale data center networks. However, the high optical loss of many optical components coupled with the low efficiency of laser sources result in high aggregate power requirements for the thousands of optical transceivers used by these networks. As optical interconnects stay always on even as traffic demands ebb and flow, most of this power is wasted. We present LC/DC, a data center network system architecture in which the operating system, the switch, and the optical components are co-designed to achieve energy proportionality. LC/DC capitalizes on the path divergence of data center networks to turn on and off redundant paths according to traffic demand, while maintaining full connectivity. Turning off redundant paths allows the optical transceivers and their electronic drivers to power down and save energy. Maintaining full connectivity hides the laser turn-on delay. At the node layer, intercepting send requests within the OS allows for the NIC's laser turn-on delay to be fully overlapped with TCP/IP packet processing, and thus egress links can remain powered off until needed with zero performance penalty. We demonstrate the feasibility of LC/DC by i) implementing the necessary modifications in the Linux kernel and device drivers, ii) implementing a 10Gbit/s FPGA switch, and iii) performing physical experiments with optical devices and circuit simulations. Our results on university data center traces and models of Facebook and Microsoft data center traffic show that LC/DC saves on average 60% of the optical transceivers power (68% max) at the cost of 6% higher packet delay., Comment: 12 pages, 11 figures, submitted to The International Symposium on Computer Architecture (ISCA 2022)

Published
2021

8. Analog nanophotonic computing going practical: silicon photonic deep learning engines for tiled optical matrix multiplication with dynamic precision

Author

Giamougiannis George, Tsakyridis Apostolos, Moralis-Pegios Miltiadis, Pappas Christos, Kirtas Manos, Passalis Nikolaos, Lazovsky David, Tefas Anastasios, and Pleros Nikos

Subjects
analog computing, deep learning, dynamic precision inference, photonic computing, silicon photonics, tiled matrix multiplication, Physics, QC1-999
Abstract

Analog photonic computing comprises a promising candidate for accelerating the linear operations of deep neural networks (DNNs), since it provides ultrahigh bandwidth, low footprint and low power consumption computing capabilities. However, the confined photonic hardware size, along with the limited bit precision of high-speed electro-optical components, impose stringent requirements towards surpassing the performance levels of current digital processors. Herein, we propose and experimentally demonstrate a speed-optimized dynamic precision neural network (NN) inference via tiled matrix multiplication (TMM) on a low-radix silicon photonic processor. We introduce a theoretical model that relates the noise figure of a photonic neuron with the bit precision requirements per neural layer. The inference evaluation of an NN trained for the classification of the IRIS dataset is, then, experimentally performed over a silicon coherent photonic neuron that can support optical TMM up to 50 GHz, allowing, simultaneously, for dynamic-precision calculations. Targeting on a high-accuracy and speed-optimized classification performance, we experimentally applied the model-extracted mixed-precision NN inference scheme via the respective alteration of the operational compute rates per neural layer. This dynamic-precision NN inference revealed a 55% decrease in the execution time of the linear operations compared to a fixed-precision scheme, without degrading its accuracy.

Published
2023
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11. Photonic (computational) memories: tunable nanophotonics for data storage and computing

Author

Lian Chuanyu, Vagionas Christos, Alexoudi Theonitsa, Pleros Nikos, Youngblood Nathan, and Ríos Carlos

Subjects
optoelectronics, photonic computing, photonic memory, tunable nanophotonics, Physics, QC1-999
Abstract

The exponential growth of information stored in data centers and computational power required for various data-intensive applications, such as deep learning and AI, call for new strategies to improve or move beyond the traditional von Neumann architecture. Recent achievements in information storage and computation in the optical domain, enabling energy-efficient, fast, and high-bandwidth data processing, show great potential for photonics to overcome the von Neumann bottleneck and reduce the energy wasted to Joule heating. Optically readable memories are fundamental in this process, and while light-based storage has traditionally (and commercially) employed free-space optics, recent developments in photonic integrated circuits (PICs) and optical nano-materials have opened the doors to new opportunities on-chip. Photonic memories have yet to rival their electronic digital counterparts in storage density; however, their inherent analog nature and ultrahigh bandwidth make them ideal for unconventional computing strategies. Here, we review emerging nanophotonic devices that possess memory capabilities by elaborating on their tunable mechanisms and evaluating them in terms of scalability and device performance. Moreover, we discuss the progress on large-scale architectures for photonic memory arrays and optical computing primarily based on memory performance.

Published
2022
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12. A Fiber Wireless A-RoF/IFoF Uplink Transmission of up to 0.6 Gb/s User Data Rate Over a 32-Element 60 GHz Beam-Steering Antenna for 5G Fronthaul Networks

Author

Ruggeri, Eugenio, Tsakyridis, Apostolos, Vagionas, Christos, Kalfas, George, Miliou, Amalia, Pleros, Nikos, Leiba, Yigal, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Auer, Michael E., editor, and Tsiatsos, Thrasyvoulos, editor

Published
2021
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15. A Framework to Support the 5G Densification

Author

Theodoropoulou, Eleni, Mesogiti, Ioanna, Lyberopoulos, George, Kalfas, George, Vagionas, Christos, Pleros, Nikos, Pagano, Annachiara, Agus, Mauro, Neto, Luiz Anet, Psaromanolakis, Nikos, Ropodi, Athina, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Goedicke, Michael, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Tröltzsch, Fredi, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, Kreps, David, Editorial Board Member, Reis, Ricardo, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Maglogiannis, Ilias, editor, Iliadis, Lazaros, editor, and Pimenidis, Elias, editor

Published
2020
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16. Analog IFoF/mmWave 5G Optical Fronthaul Architecture for Hot-Spots Using Multi-channel OFDM-Based WDM Signals

Author

Mitsolidou, Charoula, Vagionas, Christos, Mesodiakaki, Agapi, Maniotis, Pavlos, Kalfas, George, Roeloffzen, Chris G. H., van Dijk, Paulus W. L., Oldenbeuving, Ruud M., Miliou, Amalia, Pleros, Nikos, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tzanakaki, Anna, editor, Varvarigos, Manos, editor, Muñoz, Raul, editor, Nejabati, Reza, editor, Yoshikane, Noboru, editor, Anastasopoulos, Markos, editor, and Marquez-Barja, Johann, editor

Published
2020
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17. A Gated Service MAC Protocol for 5G Fiber-Wireless Cloud-Radio Access Networks

Author

Mesodiakaki, Agapi, Maniotis, Pavlos, Kalfas, Georgios, Vagionas, Christos, Vardakas, John, Kartsakli, Elli, Antonopoulos, Angelos, Datsika, Eftychia, Verikoukis, Christos, Pleros, Nikos, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tzanakaki, Anna, editor, Varvarigos, Manos, editor, Muñoz, Raul, editor, Nejabati, Reza, editor, Yoshikane, Noboru, editor, Anastasopoulos, Markos, editor, and Marquez-Barja, Johann, editor

Published
2020
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18. Dual-Layer Locality-Aware Optical Interconnection Architecture for Latency-Critical Resource Disaggregation Environments

Author

Terzenidis, Nikos, Moralis-Pegios, Miltiadis, Alexoudi, Theoni, Pitris, Stelios, Vyrsokinos, Konstantinos, Pleros, Nikos, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tzanakaki, Anna, editor, Varvarigos, Manos, editor, Muñoz, Raul, editor, Nejabati, Reza, editor, Yoshikane, Noboru, editor, Anastasopoulos, Markos, editor, and Marquez-Barja, Johann, editor

Published
2020
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19. Optics for Disaggregating Data Centers and Disintegrating Computing

Author

Terzenidis, Nikos, Moralis-Pegios, Miltiadis, Pitris, Stelios, Mitsolidou, Charoula, Mourgias-Alexandris, George, Tsakyridis, Apostolis, Vagionas, Christos, Vyrsokinos, Konstantinos, Alexoudi, Theoni, Pleros, Nikos, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tzanakaki, Anna, editor, Varvarigos, Manos, editor, Muñoz, Raul, editor, Nejabati, Reza, editor, Yoshikane, Noboru, editor, Anastasopoulos, Markos, editor, and Marquez-Barja, Johann, editor

Published
2020
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20. Chapter Digital All-Optical Physical-Layer Network Coding

Author

Mitsolidou, Charikleia, Vagionas, Chris, Tsiokos, Dimitris, Pleros, Nikos, and Miliou, Amalia

Subjects
all-optical physical-layer network coding (AOPNC), radio over fiber (ROF), millimeter wave communication, optical logic gates, semiconductor optical amplifier-Mach Zehnder interferometer (SOA-MZI), bic Book Industry Communication::U Computing & information technology
Abstract

Network coding (NC) has recently attracted intense research focus for its potential to provide network throughput enhancements, security and reduced network congestions, improving in this way the overall network performance without requiring additional resources. In this chapter, the all-optical physical-layer network coding (AOPNC) technique is presented, focusing on digital encoding schemes that are based on optical XOR logical gates. It is also discussed how digital AOPNC can be implemented between sub-carrier-modulated (SCM) optical signals in radio-over-fiber (RoF) networks, circumventing the enhanced complexity arising by the use of SCM signals and the asynchrony that might exist between the data arriving at the encoding unit. AOPNC demonstrations are described for simple on/off keyed (OOK)-SCM data signals, as well as for more sophisticated higher-order phase modulation formats aiming to further improve spectrum efficiency and transmission capacity.

Published
2018
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22. Adaptive all-optical sigmoid activation functions for Photonic Neural Networks using Fabry-Perot laser diodes under optical injection

Author

Atanasijević, Petar, primary, Pappas, Christos, additional, Banović, Mladen, additional, Crnjanski, Jasna, additional, Tsakyridis, Apostolos, additional, Moralis-Pegios, Miltiadis, additional, Vyrsokinos, Konstantinos, additional, Krstić, Marko, additional, Mihailović, Peđa, additional, Petričević, Slobodan, additional, Pleros, Nikos, additional, and Gvozdić, Dejan, additional

Published
2024
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26. Coexistence in future optical access networks from an operator’s perspective [Invited]

Author

Saliou, Fabienne, primary, Simon, Gaël, additional, Le Huérou, Stéphane, additional, Chanclou, Philippe, additional, Potet, Jérémy, additional, Gaillard, Georges, additional, Percevault, Ugo, additional, Chevalier, Dylan, additional, Zandueta, Joseph, additional, Yang, Bo, additional, Vagionas, Christos, additional, Gatzianas, Marios, additional, Kalfas, Georgios, additional, Moschos, Theodoros, additional, Miliou, Amalia, additional, and Pleros, Nikos, additional

Published
2023
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27. Transition technologies towards 6G networks

Author

Raddo, Thiago R., Rommel, Simon, Cimoli, Bruno, Vagionas, Chris, Perez-Galacho, Diego, Pikasis, Evangelos, Grivas, Evangelos, Ntontin, Konstantinos, Katsikis, Michael, Kritharidis, Dimitrios, Ruggeri, Eugenio, Spaleniak, Izabela, Dubov, Mykhaylo, Klonidis, Dimitrios, Kalfas, George, Sales, Salvador, Pleros, Nikos, and Tafur Monroy, Idelfonso

Published
2021
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28. A monolithic bipolar CMOS electronic–plasmonic high-speed transmitter

Author

Koch, Ueli, Uhl, Christopher, Hettrich, Horst, Fedoryshyn, Yuriy, Hoessbacher, Claudia, Heni, Wolfgang, Baeuerle, Benedikt, Bitachon, Bertold I., Josten, Arne, Ayata, Masafumi, Xu, Huajun, Elder, Delwin L., Dalton, Larry R., Mentovich, Elad, Bakopoulos, Paraskevas, Lischke, Stefan, Krüger, Andreas, Zimmermann, Lars, Tsiokos, Dimitris, Pleros, Nikos, Möller, Michael, and Leuthold, Juerg

Published
2020
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29. Quality of Service Provisioning in High-Capacity 5G Fronthaul/Backhaul Networks

Author

Vardakas, John S., Kartsakli, Elli, Papaioannou, Sotirios, Kalfas, George, Pleros, Nikos, Antonopoulos, Angelos, Verikoukis, Christos, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Auer, Michael E., editor, and Tsiatsos, Thrasyvoulos, editor

Published
2018
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30. 5G Small-Cell Networks Exploiting Optical Technologies with mmWave Massive MIMO and MT-MAC Protocols

Author

Papaioannou, Sotirios, Kalfas, George, Vagionas, Christos, Mitsolidou, Charoula, Maniotis, Pavlos, Miliou, Amalia, Pleros, Nikos, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Auer, Michael E., editor, and Tsiatsos, Thrasyvoulos, editor

Published
2018
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35. Optics for Disaggregating Data Centers and Disintegrating Computing

Author

Terzenidis, Nikos, primary, Moralis-Pegios, Miltiadis, additional, Pitris, Stelios, additional, Mitsolidou, Charoula, additional, Mourgias-Alexandris, George, additional, Tsakyridis, Apostolis, additional, Vagionas, Christos, additional, Vyrsokinos, Konstantinos, additional, Alexoudi, Theoni, additional, and Pleros, Nikos, additional

Published
2020
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37. A Framework to Support the 5G Densification

Author

Theodoropoulou, Eleni, primary, Mesogiti, Ioanna, additional, Lyberopoulos, George, additional, Kalfas, George, additional, Vagionas, Christos, additional, Pleros, Nikos, additional, Pagano, Annachiara, additional, Agus, Mauro, additional, Neto, Luiz Anet, additional, Psaromanolakis, Nikos, additional, and Ropodi, Athina, additional

Published
2020
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41. High-Sensitivity Bimodal Plasmo-Photonic Refractive Index Sensor

Author

Fotiadis, Konstantinos, primary, Chatzianagnostou, Evangelia, additional, Spasopoulos, Dimosthenis, additional, Simos, Stelios, additional, Bellas, Dimitris V., additional, Bhalerao, Omkar, additional, Suckow, Stephan, additional, Schall-Giesecke, Anna Lena, additional, Lemme, Max, additional, Weeber, Jean-Claude, additional, Das, Pratyusha, additional, Markey, Laurent, additional, Lidorikis, Elefterios, additional, and Pleros, Nikos, additional

Published
2023
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42. (ECOC 2022) Live Demonstration of an SDN-reconfigurable, FPGA-based TxRx for Analog-IFoF/mmWave RAN, in MNO’s infrastructure

Author

Kanta, Konstantina, primary, Toumasis, Panagiotis, additional, Giannoulis, Giannis, additional, Stratakos, Ioannis, additional, Lentaris, George, additional, Papatheofanous, Elissaios Alexios, additional, Mesogiti, Ioanna, additional, Theodoropoulou, Eleni, additional, Margaris, Aristotelis, additional, Syrivelis, Dimitris, additional, Kyriazi, Evrydiki, additional, Brestas, Georgios, additional, Tokas, Kostas, additional, Argyris, Nikos, additional, Vagionas, Christos, additional, Maximidis, Ronis, additional, Bakopoulos, Paraskevas, additional, Mesodiakaki, Agapi, additional, Gatzianas, Marios, additional, Kalfas, George, additional, Tsagkaris, Kostas, additional, Pleros, Nikos, additional, Reisis, Dionisios, additional, Lymperopoulos, George, additional, Apostolopoulos, Dimitris, additional, Soudris, Dimitrios, additional, and Avramopoulos, Hercules, additional

Published
2023
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43. Multi-RAT Fiber-Wireless Technologies towards 6G Networks

Author

Vagionas, Chris, primary, Maximidis, Ronis, additional, Kanta, Konstantina, additional, Toumasis, Panagiotis, additional, Giannoulis, Giannis, additional, Apostolopoulos, Dimitris, additional, Kalfas, George, additional, Gatzianas, Marios, additional, Mesodiakaki, Agapi, additional, Avramopoulos, Hercules, additional, Miliou, Amalia, additional, and Pleros, Nikos, additional

Published
2023
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46. Photonic neural networks and optics-informed deep learning fundamentals.

Author

Tsakyridis, Apostolos, Moralis-Pegios, Miltiadis, Giamougiannis, George, Kirtas, Manos, Passalis, Nikolaos, Tefas, Anastasios, and Pleros, Nikos

Subjects
ARTIFICIAL neural networks, DEEP learning, ARTIFICIAL intelligence, ENERGY consumption, SYNTHETIC fuels, MATHEMATICAL analysis
Abstract

The recent explosive compute growth, mainly fueled by the boost of artificial intelligence (AI) and deep neural networks (DNNs), is currently instigating the demand for a novel computing paradigm that can overcome the insurmountable barriers imposed by conventional electronic computing architectures. Photonic neural networks (PNNs) implemented on silicon integration platforms stand out as a promising candidate to endow neural network (NN) hardware, offering the potential for energy efficient and ultra-fast computations through the utilization of the unique primitives of photonics, i.e., energy efficiency, THz bandwidth, and low-latency. Thus far, several demonstrations have revealed the huge potential of PNNs in performing both linear and non-linear NN operations at unparalleled speed and energy consumption metrics. Transforming this potential into a tangible reality for deep learning (DL) applications requires, however, a deep understanding of the basic PNN principles, requirements, and challenges across all constituent architectural, technological, and training aspects. In this Tutorial, we, initially, review the principles of DNNs along with their fundamental building blocks, analyzing also the key mathematical operations needed for their computation in photonic hardware. Then, we investigate, through an intuitive mathematical analysis, the interdependence of bit precision and energy efficiency in analog photonic circuitry, discussing the opportunities and challenges of PNNs. Followingly, a performance overview of PNN architectures, weight technologies, and activation functions is presented, summarizing their impact in speed, scalability, and power consumption. Finally, we provide a holistic overview of the optics-informed NN training framework that incorporates the physical properties of photonic building blocks into the training process in order to improve the NN classification accuracy and effectively elevate neuromorphic photonic hardware into high-performance DL computational settings. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Demonstration of Low-Complexity D-band Extension of Fiber X-haul for 5G and Beyond Infrastructure

Author

Maximidis, Ronis, primary, Vagionas, Christos, additional, Soukaras, Sotiris, additional, He, Zhongxia Simon, additional, Kanta, Konstantina, additional, Toumasis, Panagiotis, additional, Giannoulis, Giannis, additional, Apostolopoulos, Dimitris, additional, Kalfas, Georgios, additional, Mesοdiakaki, Agapi, additional, Gatzianas, Marios, additional, Avramopoulos, Hercules, additional, Miliou, Amalia, additional, and Pleros, Nikos, additional

Published
2023
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