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BEGIN:VEVENT
UID:20260524T113759Z - 7832@eupp208
DTSTART;TZID=Europe/Brussels:20250211T150000
DTEND;TZID=Europe/Brussels:20250211T160000
CREATED:20260524T113759Z
DESCRIPTION:<a href="https://www.lucedaphotonics.com/event/pic-based-switch
 -design-and-system-level-analysis-139/register">PIC-Based Switch Design an
 d System-Level Analysis</a>\nSpeakers Nirav Annavarapu Application Enginee
 r at Luceda Photonics Ahmad Atieh VP\, Optical Systems at Optiwave Systems
  Moderator Craig Godbold Application Engineer at Luceda Photonics Photonic
  Integrated Circuits (PICs) switches play a crucial role in datacenters en
 abling fast and energy-efficient communication between the different nodes
 . Integrating many subsystem modules into a single PIC improves the overal
 l footprint\, reduces energy consumption\, and lowers costs. However\, ens
 uring optimal performance requires thorough PIC analysis at both the chip 
 and system levels. Join us for an engaging webinar where Luceda Photonics 
 and Optiwave Systems will showcase how their advanced tools make this proc
 ess seamless. Discover how the Luceda Photonic Design Platform and Optiwav
 e’s OptiSystem software empower designers to fully design\, analyze and 
 characterize PICs from chip level up to system level. By combining Luceda 
 IPKISS and Optiwave’s OptiSystem\, designers can easily investigate the 
 interaction between different subsystems and identify the tolerances of th
 e PIC to noise and interference of other modules. Moreover\, with simulati
 on analysis designers can conduct investigations that could not be possibl
 e in the measurement lab. In this webinar\, Luceda Photonics will demonstr
 ate how to synthesize\, analyze and tape-out a PIC cross-connect switch la
 yout using Luceda IPKISS. Through this demonstration\, you’ll learn how 
 to analyze PIC device non-idealities\, such as optical crosstalk\, and ass
 ess their impact on the performance of the PIC circuit. Optiwave Systems w
 ill then showcase how the PIC can be embedded in a black box and analyzed 
 in OptiSystem software\, the leading system simulation platform from Optiw
 ave. With this\, you’ll explore different modulation schemes and various
  test scenarios. By the end of this webinar\, you’ll gain insights into 
 how the integration of [...]
DTSTAMP:20260524T113759Z
LOCATION:Online event
SUMMARY:PIC-Based Switch Design and System-Level Analysis
X-ALT-DESC;FMTTYPE=text/html:<a href="https://www.lucedaphotonics.com/event
 /pic-based-switch-design-and-system-level-analysis-139/register">PIC-Based
  Switch Design and System-Level Analysis</a>\nSpeakers Nirav Annavarapu Ap
 plication Engineer at Luceda Photonics Ahmad Atieh VP\, Optical Systems at
  Optiwave Systems Moderator Craig Godbold Application Engineer at Luceda P
 hotonics Photonic Integrated Circuits (PICs) switches play a crucial role 
 in datacenters enabling fast and energy-efficient communication between th
 e different nodes. Integrating many subsystem modules into a single PIC im
 proves the overall footprint\, reduces energy consumption\, and lowers cos
 ts. However\, ensuring optimal performance requires thorough PIC analysis 
 at both the chip and system levels. Join us for an engaging webinar where 
 Luceda Photonics and Optiwave Systems will showcase how their advanced too
 ls make this process seamless. Discover how the Luceda Photonic Design Pla
 tform and Optiwave’s OptiSystem software empower designers to fully desi
 gn\, analyze and characterize PICs from chip level up to system level. By 
 combining Luceda IPKISS and Optiwave’s OptiSystem\, designers can easily
  investigate the interaction between different subsystems and identify the
  tolerances of the PIC to noise and interference of other modules. Moreove
 r\, with simulation analysis designers can conduct investigations that cou
 ld not be possible in the measurement lab. In this webinar\, Luceda Photon
 ics will demonstrate how to synthesize\, analyze and tape-out a PIC cross-
 connect switch layout using Luceda IPKISS. Through this demonstration\, yo
 u’ll learn how to analyze PIC device non-idealities\, such as optical cr
 osstalk\, and assess their impact on the performance of the PIC circuit. O
 ptiwave Systems will then showcase how the PIC can be embedded in a black 
 box and analyzed in OptiSystem software\, the leading system simulation pl
 atform from Optiwave. With this\, you’ll explore different modulation sc
 hemes and various test scenarios. By the end of this webinar\, you’ll ga
 in insights into how the integration of [...]
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