Attached is a fiddle that lays out my schema with a comment along side each table to indicate the number of rows in each of the aforementioned tables. The query looks like so, in case the fiddle is blocked:
select distinct cat_name,cat_age, co_cat_owners_id,cat_weight,cs_is_alive,os_is_current, cos_is_current, sum(cat_age) over(partition by co_cat_owners_id) running_total from ( select co.cat_owners_id co_cat_owners_id, co.cat_id co_cat_id, co.owner_id co_owner_id, co.vet_id co_vet_id, cos.is_current cos_is_current, os.is_current os_is_current, cs.is_alive cs_is_alive, cat.name cat_name, cat.age cat_age, cat.weight cat_weight from cat_owners co, cat_owner_statuses cos, cat_statuses cs, cats cat, owners o, owner_statuses os where o.owner_id = co.owner_id and cat.cat_id = co.cat_id and cos.last_visit >= sysdate - 4/24 ) where cs_is_alive = '1' and (cos_is_current = '1' OR os_is_current='1') group by cat_name,cat_age,cat_weight,cs_is_alive,os_is_current,co_cat_owners_id,cos_is_current;
In my development environment the explain plan lays out very closely to what is inside the fiddle, in terms of steps, however I do have several steps where Memory size is 15E (exabytes) with a row count of 4000P (petabytes). My question is where along the lines of index creation/bad SQL did I manage to generate a 15 exabyte solution to a problem that should be solvable in far less space and time. I have noticed that tweaking some of the composite index creation steps yields slightly different results, but I am still blocked by an Exabyte space requirement.
In case someone in the future doesn't read all of the comments, running the following function in conjunction with correct joins helped:
analyze table table_name_here compute statistics;