Silicon Photonics for High-Performance Computing and Beyond (eBook, ePUB)

Redaktion: Nikdast, Mahdi; Liang, Di; Seyedi, Ashkan; Nicolescu, Gabriela; Pasricha, Sudeep

• Format: ePub

Produktbeschreibung

This book presents a comprehensive overview of the current state-of-the-art technology and research achievements in applying silicon photonics for communication and computation. It focuses on various design, development, and integration challenges, reviews the latest advances spanning materials, devices, circuits, systems, and applications.

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Produktdetails

• Verlag: Taylor & Francis
• Seitenzahl: 408
• Erscheinungstermin: 16. November 2021
• Englisch
• ISBN-13: 9781000480146
• Artikelnr.: 62733328

Autorenporträt

Mahdi Nikdast is an Assistant Professor in the Department of Electrical and Computer Engineering at Colorado State University (CSU), Fort Collins. Sudeep Pasricha is currently a Walter Scott Jr. College of Engineering Professor in the Department of Electrical and Computer Engineering, at Colorado State University (CSU). Gabriela Nicolescu is a full professor at Polytechnique Montréal, Candra in the Department of Software and Computer Engineering. Ashkan Seyedi is a research scientist at Hewlett Packard Enterprise and has been working on developing high-bandwidth, efficient optical interconnects for exascale and high-performance computing applications. Di Liang is currently a Distinguished Technologist and Research Manager at Hewlett Packard Labs in Hewlett Packard Enterprise.

Inhaltsangabe

Section 1: High
Performance Computing Interconnect Requirements and Advances. 1. Silicon Photonic Modulation for High Performance Computing. 2. Laser Modulation Schemes for Minimizing Static Power Dissipation. 3. Scalable Low
Power High
Performance Optical Network for Rack
Scale Computers. 4. Network
in
Package for Low
Power and High
Performance Computing. Section 2: Device
and System
Level Challenges and Improvements . 5. System
Level Management of Silicon
Photonic Networks in 2.5D Systems. 6. Thermal Reliability and Communication Performance Co
optimization for WDM
Based Optical Networks
on
Chip. 7. Exploring Aging Effects in Photonic Interconnects for High
Performance Manycore Architectures. 8. Improving Energy Efficiency in Silicon Photonic Networks
on
Chip with Approximation Techniques. Section 3: Novel Design Solutions and Automation. 9. Automated, Scalable Silicon Photonics Design and Verification. 10. Inverse
Design for High
Performance Computing Photonics. 11. Efficiency
Oriented Design of Wavelength
Routed Optical Network
on
Chip. Section 4: Novel Materials, Devices, and Photonic Integrated Circuits. 12. Innovative DWDM Silicon Photonics for High Performance Computing. 13. Silicon Photonic Bragg Grating Devices. 14. Silicon Photonic Integrated Circuits for OAM Generation and Multiplexing. 15. Novel Materials for Active Silicon Photonics. Section 5: Emerging Computing Technologies and Applications. 16. Neuromorphic Silicon Photonics. 17. Logic Computing and Neural Network on Photonic Integrated Circuit. 18. High
Performance Programmable MZI
Based Optical Processors. 19. High Performance Deep Learning Acceleration with Silicon Photonics.