There can be different approaches to the implementation and each depends on the nature of your application, like what functionality is provided to each user, what per-user data is involved and relationships those data hold, how much per-user data is involved etc.
Approach 1: single application database; multiple tables as per application's functionality/structure but the tables hold data for all users. For example,
pros: simple architecture, easy and quick retrievals and inserts
cons: the database operations might get expensive if the tables grow too large in size or involve complex indexes
Approach 2: single application database; multiple tables as per applications's functionality/structure; each user has its own tables set identified by perhaps the user_id. For example, for user_id = 1, the tables might be
pros: again simple architecture; easy to identify which tables to query for a particular user; since tables will contain data only for a specific user, there be at least one less WHERE clause (where user_id = xx); smaller tables and therefore quicker retrievals; fewer chances for locks conflicts during busy hours
cons: requires more maintenance; adding newer functionality that requires a new column or a table to be added, will need schema changes to all the users table-set;
Approach 3: multiple application databases per user
pros: 100% isolation of data between users; easy to tweak the DB schema should customized functionality be required per user; easy to split databases across multiple servers for load balancing purposes;
cons: complex architecture; requires more maintenance; trickier to store common or shared data - the data might either be replicated to every user database OR a common database can be maintained.
I think if the schema is efficiently designed such that a balance is maintained between quicker SELECTs/INSERTs and amount of data per table, the first approach should work nicely for 100-10000 users. However, it will need much database tuning and smart indexes.
From approach 2 and 3, both work fine but from my perspective, approach 3 is better as it gives you more flexibility. The implementation might need some time but it is not difficult to
Also, SQLite doesn't seem to be appropriate for an implementation like this. I will suggest a relational database like MySQL.
Hope the above provides some insight into the implementation and helps you some in deciding what works best for your application.