1、Lifecycle System Monitoring with Arms System Monitoring Control Framework(SMCF)and proteanTecsDragon HsuDirector Application EngineeringLifecycle System Monitoring with Arms System Monitoring Control Framework(SMCF)and proteanTecsCHIPLETS AND ADVANCED PACKAGING/PHOTONICSAI is Driving the Need for Cu
2、stom SoC DesignsArtificial IntelligenceEvolving software stacksDiversified for industry needsCustom siliconCompatible ChipletsHigh Power Compute6GSoftware Defined VehiclesPersonal DevicesConcentration of stable and reusable chipletsMarket-specific SoCsChiplets a BuildingBlock for AI SoCsChiplet Mark
3、etplacePhysical re-useSingle die,multiple systemsLate-binding of chipletsProfiles&capabilities“Plug&Play”Single vendorIncrease reusability,lower cost,accelerate time to marketMonolithic SoCReq.IP,Complete System Design,and AccelerationChiplet EcosystemChiplet-based SoCs via Production-Ready IPLower
4、System Design NeedsDifferentiation via AccelerationStandard Partitioning&InterfacesMulti-VendorSemi-CustomWe are here!Reduced fragmentationMarket AccessArming the Future:Scalable Efficiency with Arm CSSIP PortfolioCOMPUTE SUB SYSTEMSINTEGRATED&VALIDATED SYSTEMS PERFORMANCE PER WATTOPTIMIZED ARM CPU
5、CHIPLETSECOSYSTEM COMPUTE CHIPLETSCPUsSystem IPsCMN FabricNeoverse CPUCMN fabricSystem IPCommon FWproteanTecs Multi-Pillar Technology Native solution Ecosystem agnostic Smart integrationIP&EDA On-chip HW monitoring system,integration&implementationSoftware ApplicationsCloud&edge analytics for action
6、able insightsIn-Production TestingIn-FieldOn-Cloud(SW)On-Board(SW)On-Tester(SW)On-Board(SW)In-Chip(FW)Advanced Diagnostics&DebugRemote diagnostics and on-the-ground root cause analysisPredictive MaintenancePerformance degradationmonitoring with historicallogsSystem-Level VisibilityMonitors the chip