There is no simple rule for this, it entirely depends on what these threads are doing. If they are burning core then the ideal number is never more than the number of cores the machine has available. Adding more just gives the OS extra work to context-switch between them.
But if they do any I/O then they'll be blocked a lot of time, waiting for the I/O to complete. In which case the ideal can be larger, but entirely depends on the concurrency in the I/O subsystem.
And not infrequently the ideal is just one. Which is the case if the thread execution is entirely bound by a resource your machine only has one of. Like the memory bus or the disk.
You'll have to measure. Review the Wikipedia article for Amdahl's law, pick the number where the curve flattens out. Watch out for caching effects that make it look like your program does better than it really will do in practice. Like running a disk-bound program over and over again and actually getting data from the file system cache instead of the disk.