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20260219_B-201_Bhargav.PDF

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1、Systematic Verification Strategy for UCIePresentersKatakam Bhargav,Nagendra VarmaContents2Introduction to UCIeComplexities in UCIe.Features used in UCIeIntroduction to JESD 204EChallenges FacedVerification MethodologyTB ArchitectureApproaches usedStrategies helped in Verification Flow.Conclusion3WHA

2、T IS UCIE?Unified Chiplet CommunicationUCIe provides a standard for high-bandwidth,low-latency communication between heterogeneous chiplets across vendors.Layered ArchitectureUCIe architecture includes PHY,Adapter,and Protocol layers ensuring electrical signaling,data mapping,and integrity.Advanced

3、Packaging SupportSupports advanced packaging like 2.5D and 3D integration,emphasizing energy efficiency and reliability.Die to Die Packaging.Modular Ecosystem BenefitsStandardization accelerates SoC development,enabling modular IP block integration from multiple vendors.4WHY IS UCIE COMPLEX?Multi-La

4、yer ArchitectureUCIes multi-layer design demands precise timing and coordination for reliable link training and maintenance.Evolving PHY FeaturesSupport for quadrature clocking and configurable postamble adds timing and signaling variability.Interoperability ChallengesVendor extensions and non-stand

5、ard clock rates complicate interoperability and verification processes.Debugging and VerificationDebugging requires visibility across FDI,RDI,and PHY interfaces with modular scalable methodologies.Protocol LayerAdapter LayerPhysical LayerFlit Data Interface(FDI)Raw Data Interface(RDI)Features Used i

6、n UCIe5FeaturesPurposeWidth DegradeUCIe allows to operate on less lanes if there is an errors or corruption on lanes.Lane ReversalReversed the connection b/w Tx-Rx in each die and sePHYRETRAINRDI/FDI is requesting for Retrain if Higher layers need to do Re-Linkup.Raw FormatUcie 3.0 supports using th

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1. **UCIe概述**:UCIe是统一芯片间通信标准,支持高带宽、低延迟异构芯片互连,采用分层架构(PHY、Adapter、Protocol),支持2.5D/3D先进封装。 2. **核心挑战**:多层架构的时序协调、PHY特性(如四相时钟、可配置后置码)、非标准速率及互操作性难题。 3. **验证方法**:采用分层可扩展验证策略,关键措施包括: - VIP回跑提升效率,状态跳过缩短运行时间50%; - 周期精确计分板确保数据完整性; - 动态配置训练模式、错误插入及覆盖率收集。 4. **解决方案**:通过跳过RXCLKCAL状态、调整时钟抖动容限、绕过特定检查器等,解决设计缺陷(如FIFO有效位错位)和规范模糊问题。 5. **成果**:实现早期验证、快速根因分析,VIP架构支持跨层复用,为UCIe 3.0未来设计提供框架。
**UCIe架构复杂吗?** 直接点出核心挑战,引发对技术难点的兴趣) **JESD204E有何优势?** 聚焦协议层创新,突出技术亮点) **如何高效验证UCIe?** 强调方法论价值,吸引验证工程师关注)
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