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Data Management Patterns and Guidance

Data Management

Data management is the key element of cloud applications, and influences most of the quality attributes. Data is typically hosted in different locations and across multiple servers for reasons such as performance, scalability or availability, and this can present a range of challenges. For example, data consistency must be maintained, and data will typically need to be synchronized across different locations.

The following patterns and guidance topics are related to data management in cloud-hosted applications.

Cache-aside Pattern

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Load data on demand into a cache from a data store. This pattern can improve performance and also helps to maintain consistency between data held in the cache and the data in the underlying data store.

Cache-aside Pattern

For more info, see the Cache-aside Pattern.

Command and Query Responsibility Segregation (CQRS) Pattern

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Segregate operations that read data from operations that update data by using separate interfaces. This pattern can maximize performance, scalability, and security; support evolution of the system over time through higher flexibility; and prevent update commands from causing merge conflicts at the domain level.

CQRS Pattern

For more info, see the Command and Query Responsibility Segregation (CQRS) Pattern.

Event Sourcing Pattern

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Use an append-only store to record the full series of events that describe actions taken on data in a domain, rather than storing just the current state, so that the store can be used to materialize the domain objects. This pattern can simplify tasks in complex domains by avoiding the requirement to synchronize the data model and the business domain; improve performance, scalability, and responsiveness; provide consistency for transactional data; and maintain full audit trails and history that may enable compensating actions.

Event Sourcing Pattern

For more info, see the Event Sourcing Pattern.

Index Table Pattern

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Create indexes over the fields in data stores that are frequently referenced by query criteria. This pattern can improve query performance by allowing applications to more quickly retrieve data from a data store.

Index Table Pattern

For more info, see the Index Table Pattern.

Materialized View Pattern

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Generate pre-populated views over the data in one or more data stores when the data is formatted in a way that does not favor the required query operations. This pattern can help to support efficient querying and data extraction, and improve application performance.

Materialized View Pattern

For more info, see the Materialized View Pattern.

Sharding Pattern

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Divide a data store into a set of horizontal partitions shards. This pattern can improve scalability when storing and accessing large volumes of data.

Sharding Pattern

For more info, see the Sharding Pattern.

Static Content Hosting Pattern

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Deploy static content to a cloud-based storage service that can deliver these directly to the client. This pattern can reduce the requirement for potentially expensive compute instances.

Static Content Hosting Pattern

For more info, see the Static Content Hosting Pattern.

Valet Key Pattern

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Use a token or key that provides clients with restricted direct access to a specific resource or service in order to offload data transfer operations from the application code. This pattern is particularly useful in applications that use cloud-hosted storage systems or queues, and can minimize cost and maximize scalability and performance.

Valet Key Pattern

For more info, see the Valet Key Pattern.

Caching Guidance

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Caching is a common technique that aims to improve the performance and scalability of a system by temporarily copying frequently accessed data to fast storage located close to the application. Caching is most effective when an application instance repeatedly reads the same data, especially if the original data store is slow relative to the speed of the cache, it is subject to a high level of contention, or it is far away resulting in network latency.

For more info, see Caching Guidance.

Data Consistency Primer

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Cloud applications typically use data that is dispersed across data stores. Managing and maintaining data consistency in this environment can become a critical aspect of the system, particularly in terms of the concurrency and availability issues that can arise. You frequently need to trade strong consistency for performance. This means that you may need to design some aspects of your solutions around the notion of eventual consistency and accept that the data that your applications use might not be completely consistent all of the time.

For more info, see Data Consistency Primer.

Data Partitioning Guidance

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In many large-scale solutions, data is divided into separate partitions that can be managed and accessed separately. The partitioning strategy must be chosen carefully to maximize the benefits while minimizing adverse effects. Partitioning can help to improve scalability, reduce contention, and optimize performance.

For more info, see Data Partitioning Guidance.

Data Replication and Synchronization Guidance

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When you deploy an application to more than one datacenter, such as cloud and on-premises locations, you must consider how you will replicate and synchronize the data each instance of the application uses in order to maximize availability and performance, ensure consistency, and minimize data transfer costs between locations.

For more info, see Data Replication and Synchronization Guidance.

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