Mathematics is the art of giving the same name to different things.
1. Life’s most persistent question
The question is: how to compute distribution of states of clustered nodes in a large distributed cluster running a steady workload? The cluster is fully distributed, and:None of this is uncommon. For one thing, we live at a time of ever-exploding problem sizes. Bigger problems lead to bigger clusters with nodes that, when failed, get replaced wholesale.
And small stuff. For instance, eventually consistent storage is fairly common knowledge today. It is spreading fast, with clumps of apps (including venerable big data and NoSQL apps) growing and stacking on top.
Those software stacks enjoy minimal centralized processing (and often none at all), which causes CAP-imposed scalability limits to get crushed. This further leads to even bigger clusters, where nodes run complex stateful software, etcetera.
Why complex and stateful, by the way? The most generic sentiment is that the software must constantly evolve, and as it evolves its complexity and stateful-ness increases. Version (n+1) is always more complex and more stateful than the (n) – and if there are any exceptions that I’m not aware of, they only confirm the rule. Which fully applies to storage, especially due to the fact that this particular software must keep up with the avalanche of hardware changes. There’s a revolution going on. The SSD revolution is still in full swing and raging, with SCM revolution right around the corner. The result is millions of lines of code, and counting. It’s a mess.