Your search keyword '"St Yves A"' showing total 15 results

1. BraggNet: complex photonic integrated circuit reconstruction using deep learning

Author

Cauchon, Jonathan, Vallée, Jean-Michel, St-Yves, Jonathan, Shi, Wei, Cauchon, Jonathan, Vallée, Jean-Michel, St-Yves, Jonathan, and Shi, Wei

Abstract

We propose a deep learning model to reconstruct physical designs of complex coupled photonic systems, such as waveguide Bragg gratings, from their spectral responses for inverse design and fabrication diagnosis. Traditional reconstructing algorithms demand considerable computing resources at every query. Conversely, machine learning algorithms use most of the computing resources during the training process and provide effortless and orders-of-magnitude faster analysis in response to queries. This approach is demonstrated using silicon photonic grating-assisted, contra-directional couplers consisting of thousands of Bragg periods. The contra-directional couplers are modeled as coupled cavities, for which a transfer matrix model is used to generate a synthetic dataset comprising a strategic design parameter space. The free-form, architecture independent model allows to include any geometries to the design parameter space. Upon proper training, the model achieves 1.4% mean absolute percentage error on device reconstruction and thus proves suitable for inverse design applications. To further show its potential for assessment of fabricated devices, another dataset is generated to emulate the fabrication conditions of a nominal design hindered by fabrication imperfections. The model is shown to reconstruct devices from experimental measurements with greater than 600-fold improvement in speed compared to the classical layer-peeling algorithm. This proves promising for data-driven processes required by Industry 4.0.

Published

2021

2. Generative Adversarial Networks Conditioned on Brain Activity Reconstruct Seen Images

Author

St-Yves, Ghislain, primary and Naselaris, Thomas, additional

Published

2018

3. Silicon photonic devices for high-capacity optical interconnects

Author

Jonathan St-Yves, Raphael Dube-Demers, Wei Shi, and Sophie LaRochelle

Subjects

Materials science, Silicon photonics, Hybrid silicon laser, business.industry, Photonic integrated circuit, 02 engineering and technology, Optical performance monitoring, 01 natural sciences, Multiplexer, 010309 optics, 020210 optoelectronics & photonics, Optical modulator, Wavelength-division multiplexing, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Optoelectronics, Photonics, business

Abstract

Low-power, high-speed optical interconnects are essential to future high-performance computers and data centers for the cloud. Using CMOS-compatible silicon photonics processes, we have developed integrated photonic devices, such as 80 Gb/s optical modulators with ultralow power consumption at the level of femtojoule per bit and O-band on-chip wavelength multiplexers. These devices are promising for next-generation 400 Gb/s optical interconnects.

Published

2016

4. Widely tunable microwave photonics notch filter based on a waveguide Bragg grating on silicon

Author

Jonathan St-Yves, Wei Shi, José Azaña, H. Pishvai Bazargani, Lukas Chrostowski, and Maurizio Burla

Subjects

Waveguide (electromagnetism), Waveguide filter, Materials science, Silicon, business.industry, chemistry.chemical_element, Band-stop filter, Optics, Fiber Bragg grating, chemistry, Optoelectronics, Optical filter, business, Microwave photonics

Published

2014

5. Frequency agile microwave photonics notch filter based on a waveguide Bragg grating on silicon

Author

Jonathan St-Yves, Lukas Chrostowski, José Azaña, Wei Shi, Hamed Pishvai Bazargani, and Maurizio Burla

Subjects

PHOSFOS, Waveguide (electromagnetism), Materials science, Silicon, business.industry, chemistry.chemical_element, Band-stop filter, Optics, Fiber Bragg grating, chemistry, Optoelectronics, business, Optical filter, Microwave photonics

Published

2014

6. Analytical modeling for ultra-high-speed microring modulators with electrical and optical dynamics

Author

Wei Shi, David V. Plant, Antoine Bois, Raphael Dube-Demers, Yun Wang, Jonathan St-Yves, Lukas Chrostowski, Sophie LaRochelle, Qiuhang Zhong, and Michael Caverley

Subjects

Ultra high speed, Physics, Resonator, Optics, Optical modulator, Modulation, business.industry, Dynamics (mechanics), Optical modulation amplitude, business

Abstract

We propose an analytical, time-domain model for microring modulators, which encompasses pn-junction and resonator dynamics. It shows excellent agreement with experiment for high frequency operation beyond 20 GHz. Pulse-amplitude modulation is predicted for up to 80 Gb/s.

Published

2014

7. Silicon photonic devices for high-capacity optical interconnects

Author

Shi, Wei, primary, Dube-Demers, Raphael, additional, St-Yves, Jonathan, additional, and LaRochelle, Sophie, additional

Published

2016

8. Supporting predictive change impact analysis: a control call graph based technique

Author

Daniel St-Yves, Linda Badri, and Mourad Badri

Subjects

Shape analysis (program analysis), Computer science, Software sizing, Regression testing, Software reliability testing, Software system, Data mining, Software regression, Change impact analysis, Call graph, computer.software_genre, computer, Reliability engineering

Abstract

Change impact analysis plays an important role in software maintenance. It allows developers assessing the possible effects of a change. We present, in this paper, a new static technique supporting software change impact analysis. The technique uses a new model based on control call graphs. It captures the control related to components calls and generates the different control flow paths in a program. The generated paths, in a compacted form, are used to identify the potential set of components that may be affected by a given change. Furthermore, the tool developed can be used to perform predictive impact analysis. It can also be used to support regression testing. We performed an experimental study on several Java programs. The reported results show that the proposed technique can predict impact sets that are more accurate than those obtained using traditional approaches based on call graphs.

Published

2005

9. Widely tunable microwave photonics notch filter based on a waveguide Bragg grating on silicon

Author

Burla, M., primary, Bazargani, H. Pishvai, additional, St-Yves, J., additional, Shi, W., additional, Chrostowski, L., additional, and Azana, J., additional

Published

2014

10. Frequency agile microwave photonics notch filter based on a waveguide Bragg grating on silicon

Author

Burla, Maurizio, primary, Bazargani, Hamed Pishvai, additional, St-Yves, Jonathan, additional, Shi, Wei, additional, Chrostowski, Lukas, additional, and Azana, Jose, additional

Published

2014

11. Analytical modeling for ultra-high-speed microring modulators with electrical and optical dynamics

Author

Dube-Demers, Raphael, primary, St-Yves, Jonathan, additional, Bois, Antoine, additional, Zhong, Qiuhang, additional, Caverley, Michael, additional, Wang, Yun, additional, Chrostowski, Lukas, additional, LaRochelle, Sophie, additional, Plant, David V., additional, and Shi, Wei, additional

Published

2014

12. Analytical Modeling of Silicon Microring and Microdisk Modulators With Electrical and Optical Dynamics.

Author

Dube-Demers, Raphael, St-Yves, Jonathan, Bois, Antoine, Zhong, Qiuhang, Caverley, Michael, Wang, Yun, Chrostowski, Lukas, LaRochelle, Sophie, Plant, David V., and Shi, Wei

Abstract

We propose an analytical time-domain model for microring and microdisk modulators, which considers both their electrical and optical properties. Theory of the dynamics of microring/microdisk is discussed, and general solutions to the transfer matrix representation are presented. Both static and dynamic predictions from the model are compared to measurement results to demonstrate the accuracy of our model. Static predictions and measurements are presented for power and phase responses, whereas dynamic predictions and measurements are presented for small-signal and large-signal operations. The model verifies that the chirping and modulation bandwidth of the modulators depend on the detuning state. Finally, the accuracy and scalability of several techniques employed in the model are discussed. [ABSTRACT FROM PUBLISHER]

Published

2015

13. Supporting predictive change impact analysis: a control call graph based technique

Author

Badri, L., primary, Badri, M., additional, and St-Yves, D., additional

Published

2005

14. Widely bandwidth-tunable broadband optical filter on silicon.

Author

St-Yves, Jonathan, Bahrami, Hadi, Larochelle, Sophie, and Shi, Wei

Published

2015

15. Polarization transparency for silicon photonics.

Author

Caspers, J. Niklas, St-Yves, Jonathan, Chrostowski, Lukas, Shi, Wei, and Mojahedi, Mo

Published

2015