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Disaster Recovery Sites on AWS: Minimal Cost, Maximum Efficiency

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Implementation of a disaster recovery (DR) site is crucial for the business continuity of any enterprise. Due to the fundamental nature of features like elasticity, scalability, and geographic distribution, DR implementation on AWS can be done at 10-50% of the conventional cost. In this session, we do a deep dive into proven DR architectures on AWS and the best practices, tools and techniques to get the most out of them.

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Disaster Recovery Sites on AWS: Minimal Cost, Maximum Efficiency

  1. 1. © 2014 Amazon.com, Inc. and its affiliates. All rights reserved. May not be copied, modified, or distributed in whole or in part without the express consent of Amazon.com, Inc.© 2014 Amazon.com, Inc. and its affiliates. All rights reserved. May not be copied, modified, or distributed in whole or in part without the express consent of Amazon.com, Inc. Disaster Recovery Site on AWS: Minimal Cost Maximum Efficiency Abdul Sathar Sait, AWS March 26, 2014
  2. 2. What You Will Learn • Disaster Recovery and Business Continuity • Why AWS for disaster recovery? • Common DR architectures • Backup and restore • Pilot light • Warm Standby • Hot Standby • Customer case study • Where to go next
  3. 3. Disruptions to Business Continuity Caused by outage of IT infrastructure Affects businesses of all kinds and sizes Can be very expensive
  4. 4. Downtime Natural Disaster Security Incidence Equipment Failure Human Error What causes downtime
  5. 5. Business Continuity
  6. 6. Conventional Disaster Recovery Sites • High cost • Low ROI • Implemented only for most critical systems • Usually scaled down to 50% of production • Systems in a remote region challenging • Costly software licenses based on hardware usage
  7. 7. Disaster Recovery on AWS • Unprecedented capabilities to implement DR sites • Easily set up DR sites on different geographic regions • Cut down DR site cost by up to 70% • Substantial savings on software licenses
  8. 8. Global Reach from Your Desktop
  9. 9. Common DR architectures Each architecture differs from the other In terms of RTO, RPO and Cost
  10. 10. AWS Storage Options Simple Storage Service Highly scalable object storage 1 byte to 5TB in size 99.999999999% durability Elastic Block Store High performance block storage device 1GB to 1TB in size Mount as drives to instances with snapshot/cloning functionalities Glacier Long term object archive Extremely low cost per gigabyte 99.999999999% durability
  11. 11. Simple to get started Easy starting point for exploring the AWS cloud Low technical barrier to entry Focus on incorporating cloud into your DR strategy, not on complex technical issues related to hot-hot systems Lowest cost Very high levels of data durability at low price Cost of storing snapshots in Amazon S3 Archiving possibilities beyond tape using Amazon Glacier Backup & Restore Architecture
  12. 12. Back up and restore Create instances from AMIs Restore data from backups
  13. 13. Many Ways to Back Up
  14. 14. Build resources around replicated dataset Keep ‘pilot light’ on by replicating core databases Build AWS resources around dataset and leave in stopped state Pilot Light Architecture
  15. 15. Build resources around replicated dataset Keep ‘pilot light’ on by replicating core databases Build AWS resources around dataset and leave in stopped state Scale resources in AWS in response to a DR event Start up pool of resources in AWS when events dictate Scale up the database instance to handle production capacity Pilot Light Architecture
  16. 16. Switchover to AWS Make necessary DNS changes to redirect traffic to the DR site on AWS Pilot Light Architecture
  17. 17. Pilot Light Architecture
  18. 18. Create instances from AMIs Pilot Light Architecture
  19. 19. Build a environment similar to production at a reduced scale Keep data and files synchronized between production and DR site by replication Use smaller and fewer instances than Production. Use RI (Reserved Instances) for capacity reservation and cost savings Scale resources in AWS in response to a DR event Scale out the environment by adding more instance Scale up the instances to handle production capacity Warm Standby Architecture
  20. 20. Switchover to AWS Make necessary DNS changes to redirect traffic to the DR site on AWS Warm Standby Architecture
  21. 21. Warm Standby Architecture
  22. 22. Warm Standby Architecture
  23. 23. Build DR site as mirror image of Production Keep all data and files synchronized between production and DR site by synchronous replication if possible Pick the size and number of instances based on acceptable level of performance without any change in case of a DR event. Use RI (Reserved Instances) for capacity reservation and cost savings Multi-site Architecture
  24. 24. Load balance between production and DR If latency and error propagation risk between production and DR sites are acceptable Multi-site Architecture If DR site is isolated then Switch over to AWS Make necessary DNS changes to redirect traffic to the DR site on AWS
  25. 25. Multi-site Architecture
  26. 26. DR site on AWS can be for • Primary site on customer data center • Primary on AWS itself
  27. 27. Primary and DR Sites on AWS
  28. 28. What enabled this? • Eight isolated S3 regions • AWS CloudFormation allows quick bootstrap of another region. • Route 53 latency based routing and failover
  29. 29. User in San Francisco eu-west-1 (Ireland) us-east-1 (Northern Virginia) us-west-1 (Northern California)us-west-1 (Northern California) DNS Failover
  30. 30. What didn’t go wrong • Official NYC evacuation map stayed up • USA TODAY Weather map stayed up • Thousands of other maps used for weather reporting, data visualization and coordination around the event all stayed up
  31. 31. © 2014 Amazon.com, Inc. and its affiliates. All rights reserved. May not be copied, modified, or distributed in whole or in part without the express consent of Amazon.com, Inc.© 2014 Amazon.com, Inc. and its affiliates. All rights reserved. May not be copied, modified, or distributed in whole or in part without the express consent of Amazon.com, Inc. Disaster Recovery Site on AWS: Minimal Cost Maximum Efficiency Abdul Sathar Sait, AWS March 26, 2014 Thank you!

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