This is a follow-up post in the MySQL Master Replication Crash Safety series. In the previous posts, we explored the consequences of reducing durability on masters (different data inconsistencies after an OS crash depending on replication type) and the performance boost associated with this configuration (benchmark results done on Google Cloud Platform / GCP). The consequences are summarised in the introduction of Part #4, and the tests are the subject of this last post. Also in this last post, I mentioned that my results for high durability are limited by the sync latencies of GCP persistent disks. As I found a system with better latencies, I am able to present new results. And this system is a vm in Amazon Web Services (AWS) with local SSD.
Tuesday, July 16, 2019
MySQL Master Replication Crash Safety Part #5: faster without reducing durability (under the hood)
This post is a sister post to MySQL Master Replication Crash Safety Part #5: making things faster without reducing durability. There is no introduction or conclusion to this post, only landing sections: reading this post without its context is not not recommended. You should start with the main post and come back here for more details.
Tuesday, July 9, 2019
MySQL Master Replication Crash Safety Part #4: benchmarks of high and low durability
This is a follow-up post in the MySQL Master Replication Crash Safety series. In the three previous posts, we explored the consequence of reducing durability on masters (including setting sync_binlog to a value different from 1). But so far, I only quickly presented why a DBA would run MySQL with such configuration. In this post, I present actual benchmark results. I also present a fundamental difference between on-premise servers and cloud virtual machines as my tests are done in Google Cloud Platform (GCP). But before going further, let's summarise the previous posts.
MySQL Master Replication Crash Safety part #4: benchmarks (under the hood)
This post is a sister post to MySQL Master Replication Crash Safety Part #4: benchmarks of high and low durability. There are no introduction or conclusion to this post, only landing sections: reading this post without its context is not recommended. You should start with the main post and come back here for more details.
Subscribe to:
Posts (Atom)