云计算架构t

jacky_liu8

贡献于2016-09-23

字数:10165 关键词: 分布式/云计算/大数据 HTTP Scala SQL ini

© 2016, Amazon Web Services, Inc. or its Affiliates. All rights reserved. Marc Trimuschat, Head of Global Storage Business Development September 7, 2016 Getting Started with the Hybrid Cloud: Enterprise Backup and Recovery Backup and recovery before the cloud Application servers Local disk Media server Tape storage Data bunker Why AWS for Backup? You might be able to: Business & Technical Drivers Reduce costs Slash storage & archive budgets Reduce on-premise Eliminate on premise equipment to manage archives Change processes Remove the need to do capacity planning Remove aging technologies Eliminate tape for backup and archive You might be able to: Reduce costs Slash storage & archive budgets by up to 50% Reduce on-premise Eliminate on premise equipment to manage archives Change processes Remove the need to do capacity planning Reduce CAPEX while dramatically increasing scalability Eliminate the need for secondary sites Remove aging technologies Eliminate tape for backup and archive Business & Technical Drivers You might be able to: Reduce costs Slash storage & archive budgets by up to 50% Reduce on-premise Eliminate on premise equipment to manage archives Change processes Remove the need to do capacity planning Reduce CAPEX while dramatically increasing scalability Eliminate the need for secondary sites Eliminate 30%+ of your storage footprint Consolidate on-premise and augment with cloud Remove aging technologies Eliminate tape for backup and archive Business & Technical Drivers You might be able to: Reduce costs Slash storage & archive budgets by up to 50% Reduce on-premise Eliminate on premise equipment to manage archives Change processes Remove the need to do capacity planning Reduce CAPEX while dramatically increasing scalability Eliminate the need for secondary sites Eliminate 30%+ of your storage footprint Consolidate on-premise and augment with cloud Eliminate capacity planning Eliminate provisioning for peak demand Remove aging technologies Eliminate tape for backup and archive Business & Technical Drivers You might be able to: Reduce costs Slash storage & archive budgets by up to 50% Reduce on-premise Eliminate on premise equipment to manage archives Change processes Remove the need to do capacity planning Reduce CAPEX while dramatically increasing scalability Eliminate the need for secondary sites Eliminate 30%+ of your storage footprint Consolidate on-premise and augment with cloud Eliminate capacity planning Eliminate provisioning for peak demand Remove aging technologies Eliminate tape for backup and Remove tape archives Cycle out aging disk arrays Business & Technical Drivers Backup Scenarios with AWS • Cloud Native: Workloads have already migrated to AWS • Hybrid 1: Workloads on-premises – SaaS Backup • Hybrid 2: Workloads on-premises – Enterprise ISV Cloud: Backup of EC2 AWS workloads Hybrid 1: Backup as a Service Hybrid 2: Backup and recovery to the cloud Amazon S3 Amazon Glacier AWS Direct Connect Internet Amazon S3-IA Application servers Cloud Gateway Local disk Media server Cloud Gateway Application servers Cloud Connector Local disk Media server with cloud connector What should I use and when? Economics Easy to use Reduce risk Agility, scale . Pay as you go . No upfront investment . No commitment . No risky capacity planning . Self service administration . SDKs for simple integration . Durable and secure . Avoid risks of physical media handling . Reduce time to market . Focus on your business, not your infrastructure Amazon S3 Durable object storage for all types of data Amazon EBS Block storage for use with Amazon EC2 Amazon Glacier Archival storage for infrequently accessed data Amazon EFS File storage for use with Amazon EC2 Cloud Gateway: AWS Storage Gateway Amazon EBS snapshots Amazon S3 Amazon Glacier AWS Storage Gateway appliance Application server AWS Storage Gateway back end AWS Direct Connect Internet Customer premises iSCSI AWS Storage Gateway VM Upload buffer volume Volume storage TARGET Client Users INITIATOR Application servers INITIATOR iSCSI Amazon EBS snapshots AWS Storage Gateway service Customer data center GATEWAY-STORED VOLUME ARCHITECTURE Cloud Gateway: AWS Storage Gateway iSCSI AWS Storage Gateway VM Upload buffer Cache storage TARGET Client Users INITIATOR Application servers INITIATOR iSCSI Amazon EBS snapshots AWS Storage Gateway service Customer Data Center HTTPS Volume storage backed by Amazon S3 GATEWAY-CACHED VOLUME ARCHITECTURE Cloud Gateway: AWS Storage Gateway AWS Storage Gateway VM Upload buffer Cache storage MEDIA CHANGE R Backup server INITIATOR Virtual tape shelf backed by Amazon Glacier AWS Storage Gateway service Customer data center HTTPS Gateway-VTL storage backed by Amazon S3 TAPE DRIVE VT S GATEWAY-VIRTUAL TAPE LIBRARY ARCHITECTURE Cloud Gateway: AWS Storage Gateway Gateway-VTL benefits • Minimize data center foot print • Eliminates management overhead of physical tape • Tape l ifecycle management • Periodic verification of tapes • Tape migrations • Labor, logistics, maintaining old version of HW/SW • Secure . Encrypted in transit and rest . Eliminates manual tape handling of (with intentional/unintentional data loss) • Durable . 11 9’s of durability backed by Amazon S3 and Glacier • Scalable . Scales limitlessly Customer Stories AWS Storage Gateway is used in a variety of ways… Jollibee (JFC) is using the AWS Storage Gateway to backup and mirror their Oracle SQL server database from their on- premises data center to AWS. JFC is the largest fast food chain in the Philippines with revenues well over 2 Billion USD. The operational simplicity of the Storage Gateway to backup multiple TB- sized database snapshots to AWS was just easy and super efficient. The Storage Gateway also provides us access to the same database snapshots for use in Amazon EC2, providing a cost-effective in-cloud DR solution. AWS Storage Gateway provided us the most cost effective way to backup our SAP workloads to AWS, it is helped us perform SAP System ‘refresh’ much faster and in a more convenient way, backing up to S3 has also helped us to prepare for DR & also run SAP Dev/QA restores easily on EC2 “Amazon Web Services and AWS Storage Gateway are great assets that help us scale fast, store data in an ultra-secure environment, spend more time on product development (rather than disaster recovery & backup) …By using AWS Storage Gateway, we went to just hours instead of days to restore from backup.” The large Japanese Retail chain uses AWS Storage Gateway to share & store files in S3 and drastically cut down it’s spend on premise NAS footprint. Amazon Storage Partners for Backup & Archive** Gateway/NAS Data Management Sync and Share Backup/DR Content and Acceleration Archive File System **Not all support BJS Endpoints Active archive What is AWS Snowball? Petabyte-scale data transport E-ink shipping label Ruggedized case “8.5G impact” All data encrypted end-to-end Rain- and dust- resistant Tamper-resistant case and electronics 80 TB 10 GE network How it works How fast is Snowball? . Less than 1 day to transfer 250 TB through 5 x 10G connections with 5 Snowballs, less than 1 week, including shipping . Number of days to transfer 250 TB through the Internet at typical utilizations Internet connection speed Utilization 1 Gbps 500 Mbps 300 Mbps 150 Mbps 25% 95 190 316 632 50% 47 95 158 316 75% 32 63 105 211 Use cases: AWS Import/Export Snowball Cloud Migration Disaster Recovery Data Center Decommission Content Distribution Amazon S3 Transfer Acceleration S3 Bucket AWS Edge Location Uploader Optimized Throughput! Typically 50%–300% faster Change your endpoint, not your code 54 global edge locations No firewall exceptions No client software required Rio De Janeiro Warsaw New York Atlanta Madrid Virginia Melbourne Paris Los Angeles Seattle Tokyo Singapore Time [hrs] 500 GB upload from these edge locations to a bucket in Singapore Public Internet How fast is S3 transfer acceleration? S3 Transfer Acceleration AWS Snowball Transfer Acceleration When to use Snowball vs. Transfer Acceleration? .Large, infrequent uploads .5–10 day tolerance . Supports large data transfers, from TBs to PBs .Recurring, frequent uploads .GBs or TBs of upload from distributed locations .Long geographic distances .Supports accelerating transfers into and out of S3, using AWS edge locations Use Amazon Glacier for lowest-cost, durable cold storage of archival data Use Amazon S3 for reliable, durable primary storage Use Amazon S3 Infrequent Access Storage for secondary backups at a lower cost S3-IA Tiering on AWS: optimize your storage spend Key prefix “logs/” Transition objects to Amazon Glacier 30 days after creation Delete 365 days after creation date archive-in-30-days logs/ Enabled 30 GLACIER 365

下载文档,方便阅读与编辑

文档的实际排版效果,会与网站的显示效果略有不同!!

需要 10 金币 [ 分享文档获得金币 ] 0 人已下载

下载文档

相关文档