Following the pointers in an ebay tech blog and a datastax developers blog, I model some event log data in Cassandra 1.2. As a partition key, I use “ddmmyyhh|bucket”, where bucket is any number between 0 and the number of nodes in the cluster.
The Data model
cqlsh:Log> CREATE TABLE transactions (yymmddhh varchar, bucket int, rId int, created timeuuid, data map, PRIMARY KEY((yymmddhh, bucket), created) );
(rId identifies the resource that fired the event.) (map is are key value pairs derived from a JSON; keys change, but not much)
I assume that this translates into a composite primary/row key with X buckets per hours. My column names are than timeuuids. Querying this data model works as expected (I can query time ranges.)
The problem is the performance: the time to insert a new row increases continuously. So I am doing s.th. wrong, but can't pinpoint the problem.
When I use the timeuuid as a part of the row key, the performance remains stable on a high level, but this would prevent me from querying it (a query without the row key of course throws an error message about "filtering").
Any help? Thanks!
Switching from the map data-type to a predefined column names alleviates the problem. Insert times now seem to remain at around <0.005s per insert.
The core question remains: How is my usage of the "map" datatype in efficient? And what would be an efficient way for thousands of inserts with only slight variation in the keys.
My keys I use data into the map mostly remain the same. I understood the datastax documentation (can't post link due to reputation limitations, sorry, but easy to find) to say that each key creates an additional column -- or does it create one new column per "map"?? That would be... hard to believe to me.