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引用次数: 1
摘要
计算和存储的分离已经成为云数据库系统事实上的标准。它于2007年首次提出用于数据库系统[2],现在被所有主要的云提供商(如Amazon Redshift, Google BigQuery和Snowflake)广泛采用。计算和存储的分离为客户增加了巨大的价值。用户可以独立于计算扩展存储,这使得他们只需为他们真正使用的东西付费。考虑这样一个场景,其中数据随时间线性增长,但是大多数查询只访问上个月的数据,这保持相对稳定。如果没有计算和存储的分离,用户将逐渐被迫大幅增加数据库集群的容量。相比之下,现代云数据库系统允许将存储与计算分开扩展;随着时间的推移,计算集群保持不变,而数据存储在便宜的云存储服务上,如Amazon S3。
Technical Perspective for Sherman: A Write-Optimized Distributed B+Tree Index on Disaggregated Memory
Separation of compute and storage has become the defacto standard for cloud database systems. First proposed in 2007 for database systems [2], it is now widely adopted by all major cloud providers such as Amazon Redshift, Google BigQuery, and Snowflake. Separation of compute and storage adds enormous value for the customer. Users can scale storage independently of compute, which enables them to only pay for what they really uses. Consider a scenario in which data grows linearly over time, but most queries only access the last month of data, which remains relatively stable. Without the separation of compute and storage, the user would gradually be forced to significantly increase the database cluster capacity. In contrast, modern cloud database systems allow scaling the storage separately from compute; the compute cluster stays the same over time, whereas the data is stored on cheap cloud storage services, like Amazon S3.
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