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Migrating a PIC Simulation to a System Design [OSA Webinar]

Dr. Jim Farina, Chris Maloney and Eugene Sokolov show how to migrate a PIC simulation to a system design. Modeling and simulation at both the circuit- and system-levels are critical in the design process for optical communication, quantum key distribution, and sensing applications. Seamless migration between these two levels of abstraction will be demonstrated in VPIphotonics Design Suite. This webinar focuses on an optical communication application example by modeling a silicon-photonic modulator at the circuit-level and implementing it for simulation at the system-level in a PAM-4 link. Timeline Migrating a PIC Simulation to a System Design – Silicon-Photonic Modulator in a PAM-4 Link Introduction (by Chris Maloney) 0:43 Part 1 (by Eugene Sokolov) Photonic Circuits Example: "Silicon Micro-Ring Modulator" 5:35 - VPIcomponentMaker Photonic Circuits Overview 7:00 - Micro-Ring Modulator: Circuit-Level Model 9:23 Live Demo: Silicon Micro-Ring Modulator 12:15 - Micro-Ring Modulator Implementation Details 14:24 - Characterization of Micro Ring Modulator: -- Optical Transmission Spectrum Characterization 19:56 -- Electro-Optical Transfer Function (Static) 22:24 -- Electro-Optical Transfer Function (Small-Signal) 25:07 - PAM4 Modulation with Micro Ring Modulator 26:30 Part 2 (by Jim Farina) Merging Device and System Modeling 27:54 - System Modeling Overview 30:11 - Simulation Domains 34:21 - Mixed Boundary Conditions 37:54 Live Demo - 26GBaud Pam-4 link using the Silicon Micro-Ring Modulator 39:45 - Transmitter and Dispersion Eye Closure for PAM-4 (TDECQ) 46:04 - 400Gb/s Transmission based on Dual-Carrier 28Gbaud DP-16QAM 48:55 - ADS-VPI Electrical-Optical-Electrical Co-Simulation 50:40 Related video    • Design Optimization & Sensitivity Ana...