当前位置:首页 > 报告详情

20260218_E-103_Mastroianni.PDF

上传人: 彩旗 编号:1158867 2026-03-02 15页 1.93MB

1、CPO:Enabling the path to I/O Density and EfficiencyTony MastroianniSenior Director 3D IC Solutions EngineeringSiemens EDAUnrestricted|Siemens 2026|Siemens Digital Industries SoftwareIndustry TrendsAI is quickly becoming the defining technology of our timesTechnical challenges are stressing the semic

2、onductor industryUnprecedented Industry,R&D and Government investmentsIntegrated Co-Packaged Optics(CPO)is a path forwardEnables reduced GPU/CPU Memory and Switch IO PowerEnables increased I/O DensityScalable to full panel level 3D IC IntegrationTechnical ChallengesCompute PerformanceMemory Capacity

3、 I/O BandwithPowerScalability Design tools and workflows3D IC Design enables the advancement of AI Hardware DesignsUnrestricted|Siemens 2026|Siemens Digital Industries SoftwareASIC/SoC with External Memory Interface Replicated Processor Core arrayExternal DDR InterfaceSerdes interfaces on N/SMaximiz

4、e(reticle)die sizeTypical Monolithic Micro-architectureASIC/SoC DiePackage SubstrateDDR SIMASIC/SOCPackage SubstrateASIC/SOCPackage SubstrateProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreProce

5、ssor CoreProcessor CoreProcessor CoreProcessor CoreProcessor CoreLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesLR SerdesDDR PHYDDR PHYDDR PHYDDR PHYPCBUnrestricted|Siemens 2026|Siemens Digital Industries Softwar

6、eASIC/SoC with External Memory Interface Replicated Processor Core arrayExternal DDR InterfaceSerdes interfaces on N/SMaximize(reticle)die sizeTypical Monolithic Micro-architectureASIC/SoC DiePackage SubstrateDDR SIMASIC/SOCPackage SubstrateASIC/SOCPackage SubstrateProcessor CoreProcessor CoreProces

word格式文档无特别注明外均可编辑修改,预览文件经过压缩,下载原文更清晰!
三个皮匠报告文库所有资源均是客户上传分享,仅供网友学习交流,未经上传用户书面授权,请勿作商用。
1. **行业趋势**:AI成为主导技术,半导体行业面临算力、内存、I/O带宽、功耗等挑战,需通过3D IC集成提升效率。 2. **CPO技术优势**:集成共封装光学(CPO)可降低GPU/CPU内存与交换机I/O功耗,提升I/O密度,目标实现亚pJ/bit能耗。 3. **架构演进**:从2.5D(HBM+硅中介层)到3D芯片堆叠(如UCIE 2.0接口),支持更高集成度与性能,如6个CPU芯片堆叠。 4. **关键挑战**:需解决供电、散热、可靠性及AI驱动的设计工具(如STCO系统级协同优化)。 5. ** substrate创新**:面板级封装(300mm/200mm)及新材料(如液冷、光波导)推动大规模集成。
**CPO如何提升I/O效率?** **3D集成如何解决AI硬件挑战?** **光学接口能否降低功耗?**
客服
商务合作
小程序
服务号
折叠