当前位置:首页 > 报告详情

陶瓷纳米存储器使人工智能成为可能.pdf

上传人: 王** 编号:171090 2024-07-23 31页 9.85MB

1、Christian Pflaum,CEO,Cerabyte GmbHSteffen Hellmold,Director,Cerabyte,Inc.Ceramic Nano Memory Enabling the AI Dataverse 70%+of all data is cold rarely retrieved after 90 days but stored for more than a decadeBusinessDataConsumer DataAI Generated DataGovernment DataScientificDataAI IMPACT Cold data ch

2、allenge ScientificDataData storage explosion203020502040InstalledBaseAnnualDemandYottabyteYottabyte123AIAI&other digitalinnovations likely to drive installed base&demand in 2040s beyond1 Yottabyte 1 Yottabyte Source:Furthur Market Research 2022-2030 Assumption:25%CAGR 2030-50Data storage explosion20

3、3020502040InstalledBaseAnnualDemandYottabyteYottabyte123Source:Furthur Market Research 2022-2030 Assumption:25%CAGR 2030-50Requiring100 x-Storage Capacity-TCO Cost per PB-Energy Efficiency-Performance and-Media Longevityimprovement ofAI-Impact 20252030CPU PerformanceAI-ClusterMainstream Storage Medi

4、aProjected Performance ImprovementAIAI-ClusterClusterperformance improvement outpaces CPU and mainstreamstorage media 20252030CPU PerformanceAI-ClusterMainstream Storage MediaProjected Performance ImprovementCeramic Nano Memory Ceramic Nano Memory redefines cold data storage&initiates a new scaling

5、S-curveNew S-CurveCeramic Nano Memory CeramicCeramic on Glass Sheetson Glass Sheets 100%recyclable glass media Sclable production process No rare earth components100 mCeramic Punch Cards at Nanoscale 300 nmPhysical BitsData MatrixCeramic-on-glass Media3 days 300C-air Before AgingAfter Aging3 days 50

6、0C SO2-273 C(80 mK)EMP,UV&radiationDurabilitySecond PrincipleLeverage Existing ScaleSecond PrincipleLeverage Existing ScaleFlexible ultra-thin glassRibbon glass100 m5 m200 x=1 mm10 x=1 mmFurther scaling options Substrate type extends field of application&volume density330 m3 x=1 mmThin display glass

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。
Cerabyte公司推出了一种名为Ceramic Nano Memory的新技术,旨在重新定义冷数据存储,并启动一个新的S曲线。这项技术基于100%可回收的玻璃介质,具有可扩展的生产过程和无稀土元素的特点。与传统的存储介质相比,Ceramic Nano Memory在性能、能源效率和介质寿命方面取得了显著改进。据估计,到2040年代,人工智能和其他数字技术将使数据存储基础和需求增长。Ceramic Nano Memory能够实现高数据吞吐量率,并且具有无需电源的持久存储能力。此外,它还具有抗电磁脉冲、抗紫外线和抗辐射的特性。Cerabyte公司正在寻求测试和试点合作伙伴,以推进这项技术的 pilot 项目。预计到2030年,Ceramic Nano Memory将实现每TB每月1美元的成本。
"如何实现数据存储的革命性突破?" Ceramic Nano Memory将如何改变存储行业?" Cerabyte的技术革新将如何影响数据中心的运营?"
客服
商务合作
小程序
服务号
折叠