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用于规模化生产的光学器件.pdf

上传人: 明**** 编号:1011922 2025-12-21 14页 1.10MB

1、Rang-Chen(Ryan)YuTeraHopOptics for AI Scale UpOptics for AI Scale UpRang-Chen(Ryan)YuTeraHopOPTICSAI Data Center Networking NICGPUScale Up 10 x BWScale OutScale AcrossGPU SuperPodScale Up RequirementxPUScale UpGPU SuperPodScale Up SwitchBandwidth:Scale-up requires 10 x higher bandwidthe.g.,for NV GB

2、200,scale-up bandwidth per GPU 7.2Tbps,vs.Scale out NIC ConnectX-8 800Gbps Reach and connectivity typeGoing from 1 rack to multiple rackCopper cable is liming,need to go opticalReliabilityLarge number of GPUs as one memory coherent domain,reliability critical for high GPU utilization rateLatencyLow

3、latency important to optimize GPU Super Pod performanceHigh performance with low BER with low latency FECPowerHigh bandwidth optics power 40Bilion device hours deployed with PLO,PIC FIT 0.1FITDevice-HoursOptical Transceiver Based on Silicon PhotonicsSilicon Photonics Tx Eye-200G PAM4Silicon photonic

4、s based 1.6T optical transceivers with proven performance at 200G-PAM4Hybrid silicon photonics with TFLN promising to scale to 400G-PAM4TFLN Tx Eye at 400G PAM4BER for a 1.6T-2x DR4 TransceiverBER=10-10Ch.#1Ch.#2Ch.#3Ch.#41.6T-RTLR reduce power to 16 W with 3nm DSPEarly testing with commercial switc

5、h showing promising results with low BER floorOIF ECOC25 Interop Demo Silicon Photonics Supporting Linear OpticsPluggable Optics(PLO)Power Trend0510152025303520162018202020222024202620282030400G-FRO800G-FRO1.6T-FRO400G-LPO800G-LPO1.6T-TRO1.6T-LPODSP progress towards 2nm CMOS will drive 1.6T-TRO 7.5p

6、j/b1.6T-LPO may reach 5pj/bPLO trending to 10Tbps/moduleNPO(Near Package Optics):Closer to ASIC to Reduce e-channel loss“open box repair/replaceOption supporting“open socket”for healthy eco-systemCPO(Co-Package Optics):Lowest e-channel loss with optics on same

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根据报告的内容,全文主要内容概括如下: 1. **AI规模扩展机遇**:AI规模扩展为光学技术提供了重大机遇。 2. **硅光子学作为关键技术平台**:硅光子学在实现更高速度和可靠性方面展现出巨大潜力。 3. **速度提升**:硅光子技术已实现超过40倍带宽增加。 4. **可靠性**:硅光子技术在大量现场部署中证明了其可靠性。 5. **可插拔光学(PLO)**:PLO持续扩展,成本持续降低,预计到2030年1.6T TRO的PLO成本将低于0.1美元。 6. **高容量PLO**:开发中的高容量PLO可支持超过10Tbps的模块。 7. **近封装光学(NPO)和封装光学(CPO)**:NPO和CPO在早期开发和部署中,CPO具有潜在的低成本修复/更换可能性。 8. **开放生态系统**:“开放插座NPO”和“开放CPO”有望成为下一阶段的光学技术进化,提供更灵活的生态系统。
AI加速的秘密武器?" "如何用光学技术实现数据中心带宽飞跃?" 未来数据中心的光速升级之路?"
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