APSUNY PDK: Overview and Future Trends

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1 APSUNY PDK: Overview and Future Trends Erman Timurdogan Analog Photonics, 1 Marina Park Drive, Suite 205, Boston, MA, erman@analogphotonics.com

2 Silicon Photonics Integrated Circuit Process Design Kits APSUNY PDK Academy Feedback Ideas Feedback Industry Design APSUNY PDK Release Model Optimize Layout Fab EPDA Abstracts Design Guide DRC deck EPDA models Documentation Verify Risk Time Cost High Low High Low $$$ $

3 APSUNY PDK - Organization Silicon Photonic Integrated Circuit (PIC) PDK Interface Optical I/O, Polarization Diversity Passives Actives Digital Analog Resonant Broadband Generic PDK enables prototyping/manufacturing on many focus areas. Focus area based hierarchy; Datacenter (Interface+Digital Resonant+Passive) Telecommunications (Interface+Digital Broadband+Passive) RF/MW Analog Communications (Interface+Analog+Passive) Sensors/IoT 2

4 APSUNY PDK What is inside? Interface + Passives <1.5dB loss/facet couplers Polarization MUX with <0.35dB PDL 1db/cm loss waveguides 3dB splitters (std. 0.7%) Crossings with low crosstalk Actives O+C+L Band operation Low Voltage Modulators (<1Vpp) High BW (>45GHz) detectors Efficient Filters and Switches High Dynamic Range Analog Devices

5 Interface Library Current and Upcoming PDK PDKv2.0 Edge Coupler 3.5um MFD Fiber Upcoming O Band 3.5um MFD PDKv2.0 Polarization Splitter & Rotator C+L Band SMF28 TM input TE input 5 3

6 Passives Library Highlights 5 Waveguides Waveguiding and Routing Seamless Multi-Layer Transitions Power Distribution 3dB Splitters Low Loss Waveguides (Available Now) Waveguide Crossing 1%/10% Power Taps 6 6 4

7 Transmission Transmission Digital Broadband Mach-Zehnder Modulators 1 50Gb/s PDK v Gb/s Under Dev. High bandwidth; 34GHz, 48GHz -> 64Gbaud capable Low insertion loss; 3dB Low V π L=0.9V.cm, <1Vpp for >5dB extinction ratio

8 Digital O,C and L Band Detectors O Band (PDKv2.5) C+L Band (Now) PD C pd R s O Band 11fF 45Ω C Band 13fF 50Ω C+L Band 19fF 100Ω High Responsivity ~0.85A/W (O band), 1A/W (C Band), 1.1A/W (C+L Band) High OE Bandwidth; >45GHz (O and C bands), >35GHz (C+L Band) Low Dark Current; <15nA (O and C bands), <40nA (C+L Band) Low capacitance and resistance (f elec BW>80GHz) 8 6

9 Digital Resonant Microdisk Modulators O Band (PDKv2.5) C+L Band (Available Now) TX 50Gbps 0.75Vpp TX 25Gbps 0.75Vpp TX 25Gbps 0.75Vpp TX 25Gbaud 0.75Vpp Vpp Transmission Penalty Extinction Ratio Insertion Loss O-Band C+L Band O-Band C+L Band O-Band C+L Band dB 8.8dB 3.7dB 3.9dB 3.1dB 3.5dB dB 6.5dB 5.1dB 6.7dB 2.2dB 2.3dB 9 7

10 Reconfigurable WDM Ecosystem λ 2 λ 0 Cavity-based WDM System λ 0 λ 2 λ 1 λ 3 Filter Modulator Switch λ 3 λ 1 4λ Wavelength Division Multiplexed System (±1nm from target wavelength) Tunable Filters (MUX/DEMUX), Modulators, Switches, all compatible Reconfigure to cover in between wavelengths or increase number of channels. 10

11 Laser Fiber Based Communication Links λ=1310nm PC Transmitter AC Coupled 0.7Vpp PC Component Loss Power Receiver BiasTee -1V PPG Clock DCA Laser 0dB 13dBm PC+Setup 0.5dB 12.5dBm Edge Coupler 1dB 11.5dBm Modulator TP 9.5dB 2.0dBm Edge Coupler 1dB 1.0dBm PC+Setup 0.5dB 0.5dBm Edge Coupler 1dB -0.5dBm Detector OE 0.7dB 38mVpp TX 25Gbps 0.7Vpp TX/RX 25Gbps 0.7Vpp TX/RX 32Gbps 0.7Vpp O Band (~1310nm) NRZ modulation format support up to 32Gbps (PDKv2.5a). 100G+ Datacenter module compatible TX/RX E-O/O-E demonstration at ~1310nm.

12 100G/200G/400G IEEE Standard, MSA Compatibility Standards/MSA Wavelength [nm] Format Rate [Gbaud] Extinction Ratio [db] Power per λ [dbm] Electrical Interface 100G-LR to to G-ER to to G-CWDM to to G-CLR to to 2.5 NRZ 100G-4WDM to to G-4WDM to to 6.5 Open Optics 1504 to G-CWDM to to G-FR to > to G-LR to PAM > to G-FR8/LR to > to 5.3 CAUI-n CEI-28R-VSR GAUI-n APSUNY PDK: Support for O,C and L band with large power per lane variation. NRZ, PAM4 modulation formats at 50Gbps and 25Gbaud signaling rates. Coherent modulation and detection ready up to 64Gbaud (>45GHz) ~1Vpp drive, high extinction ratio -> CAUI/GAUI/CEI-28R-VSR electrical interface <900mVpp, minimal driver power. 12

13 Analog RF/MW Communication Links Analog Link Testing Setup Analog Link Performance 102.8dB Hz 2/3 Full link demonstration using an analog silicon photonic modulator and detector. High Power, Linear, High Dynamic range analog link with 102.8dB Hz 2/3 SFDR Component Laser Power Modulator TP Responsivity Photocurrent Power dBm >11.35dB ~0.95A/W <2.40mA 13 9

14 Optical Phased Array (OPA) Based Free-Space Comms Mirror TX OPA RX OPA 10Gb/s Link at 50m Propagation High element counts (128) for mm-scale aperture Enabled through PIC Array KTMA 14

15 Conclusions Upcoming Capability For more information, visit us at Booth #6130 or contact Job Applications: 15 10

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