Data integrity is most important.
Computing a result in a view is guaranteed to give you the most up-do-date answer. The trade-off is run-time performance for SELECT statements, especially if the result is used in a WHERE clause. In my experience, the result of computation is rarely if ever used in a WHERE clause. And by computation, I mean not only arithmetic, but string and substring extraction and concatenation, checksum computation, etc.
Storing the result of a calculation in a base table gives you the best SELECT performance. The trade-off is data integrity. If you can write a CHECK() constraint that guarantees the result is always right, you should do that. But CHECK() constraints for complex computations are sometimes impossible to express without using a user-defined function, and not all platforms support user-defined functions in CHECK() constraints.
If you can't write a CHECK() constraint, you still need some kind of procedure to periodically check your data for errors. In the worst case, you can run a report daily or weekly during low demand.
A materialized view might give you the best of both worlds--a computation that can be the target of a sargable WHERE clause, and that is always guaranteed to be right. (The SQL Server equivalent is called an indexed view.) The trade-off is storage space and the CPU cycles needed to keep the materialized view and its indexes up to date following updates to the base tables.
Ordinarily, I'd try a view first. But in your particular case--400k rows per day for 365 days--I think I'd try a materialized view first. It that doesn't work well for whatever reason, you can replace it with a column in the base table, drop the materialized view, and create a new view having the same name. (Logical data independence rocks.)