Multipurpose silicon photonics signal processor core
Daniel Pérez,Ivana Gasulla,Lee Crudgington,David J. Thomson,Ali Z. Khokhar,Ke Li,Wei Cao,Goran Z. Mashanovich,Goran Z. Mashanovich,José Capmany +9 more
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TLDR
A reconfigurable but simple silicon waveguide mesh with different functionalities with a simple seven hexagonal cell structure is demonstrated, which can be applied to different fields including communications, chemical and biomedical sensing, signal processing, multiprocessor networks, and quantum information systems.Abstract:
Integrated photonics changes the scaling laws of information and communication systems offering architectural choices that combine photonics with electronics to optimize performance, power, footprint, and cost. Application-specific photonic integrated circuits, where particular circuits/chips are designed to optimally perform particular functionalities, require a considerable number of design and fabrication iterations leading to long development times. A different approach inspired by electronic Field Programmable Gate Arrays is the programmable photonic processor, where a common hardware implemented by a two-dimensional photonic waveguide mesh realizes different functionalities through programming. Here, we report the demonstration of such reconfigurable waveguide mesh in silicon. We demonstrate over 20 different functionalities with a simple seven hexagonal cell structure, which can be applied to different fields including communications, chemical and biomedical sensing, signal processing, multiprocessor networks, and quantum information systems. Our work is an important step toward this paradigm.Integrated optical circuits today are typically designed for a few special functionalities and require complex design and development procedures. Here, the authors demonstrate a reconfigurable but simple silicon waveguide mesh with different functionalities.read more
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Integrated microwave photonics
TL;DR: The maturity of high-volume semiconductor processing has finally enabled the complete integration of light sources, modulators and detectors in a single microwave photonic processor chip and has ushered the creation of a complex signal processor with multifunctionality and reconfiguration similar to electronic devices.
Journal ArticleDOI
Programmable photonic circuits.
Wim Bogaerts,Daniel Pérez,José Capmany,David A. B. Miller,Joyce K. S. Poon,Joyce K. S. Poon,Dirk Englund,Francesco Morichetti,Andrea Melloni +8 more
TL;DR: Generic chips can accelerate the development of future photonic circuits by providing a higher-level platform for prototyping novel optical functionalities without the need for custom chip fabrication.
Journal ArticleDOI
Parallel convolutional processing using an integrated photonic tensor core.
Johannes Feldmann,Nathan Youngblood,Nathan Youngblood,Maxim Karpov,Helge Gehring,Xuan Li,Maik Stappers,M. Le Gallo,Xin Fu,Anton Lukashchuk,Arslan S. Raja,Junqiu Liu,C.D. Wright,Abu Sebastian,Tobias J. Kippenberg,Wolfram H. P. Pernice,Harish Bhaskaran +16 more
TL;DR: In this paper, the authors demonstrate a computationally specific integrated photonic hardware accelerator (tensor core) that is capable of operating at speeds of trillions of multiply-accumulate operations per second.
Journal ArticleDOI
Parallel convolution processing using an integrated photonic tensor core
Johannes Feldmann,Nathan Youngblood,Maxim Karpov,Helge Gehring,Xuan Li,Maik Stappers,Manuel Le Gallo,Xin Fu,Anton Lukashchuk,Arslan S. Raja,Junqiu Liu,David Wright,Abu Sebastian,Tobias J. Kippenberg,Wolfram H. P. Pernice,Harish Bhaskaran +15 more
TL;DR: The results indicate the potential of integrated photonics for parallel, fast, and efficient computational hardware in data-heavy AI applications such as autonomous driving, live video processing, and next-generation cloud computing services.
Journal ArticleDOI
A comprehensive review on emerging artificial neuromorphic devices
TL;DR: A comprehensive review on emerging artificial neuromorphic devices and their applications is offered, showing that anion/cation migration-based memristive devices, phase change, and spintronic synapses have been quite mature and possess excellent stability as a memory device, yet they still suffer from challenges in weight updating linearity and symmetry.
References
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