As a general rule of thumb, indexing doesn't make too much sense if the query is going to be pulling more than around 5% of the table. But depending on the properties of the table, there are other things to look into. For example, in Postgres, take a look at partitioning.
Partitioning refers to splitting what is logically one large table
into smaller physical pieces. Partitioning can provide several
Query performance can be improved dramatically in certain situations,
particularly when most of the heavily accessed rows of the table are
in a single partition or a small number of partitions. The
partitioning substitutes for leading columns of indexes, reducing
index size and making it more likely that the heavily-used parts of
the indexes fit in memory.
When queries or updates access a large percentage of a single
partition, performance can be improved by taking advantage of
sequential scan of that partition instead of using an index and random
access reads scattered across the whole table.
Bulk loads and deletes can be accomplished by adding or removing
partitions, if that requirement is planned into the partitioning
design. ALTER TABLE NO INHERIT and DROP TABLE are both far faster than
a bulk operation. These commands also entirely avoid the VACUUM
overhead caused by a bulk DELETE.
Seldom-used data can be migrated to cheaper and slower storage media.
Or say the data is never updated, only insert appends. Something like a bitmap index could make sense.