Whether parallel vs. sequential processing is better is highly task-dependent and you've already done the right thing: You benchmarked both and determined for your task (the one you benchmarked, not necessarily the one you actually want to do) which one is faster.
As a general rule, on a single processor, sequential processing tends to be better for tasks which are CPU-bound, because if you have two tasks each needing five seconds of CPU time to complete, then you'll need ten seconds of CPU time regardless of whether you do them sequentially or in parallel. Setting up multiple threads/processes will, therefore, provide no benefit, but it will create additional task-switching overhead while also preventing you from having any results until all results are available.
CPU-bound tasks on a multi-processor system tend to do better when run in parallel, provided that they can run independently of each other. If not, or if you're using a language/threading model/IPC model/etc. which forces all tasks to run on the same processor, then see "on a single processor" above.
Parallel processing is generally better for tasks which are I/O-bound, regardless of the number of processors available, because CPUs are fast and I/O is slow, so working in parallel allows one task to process its data while the other is waiting for I/O operations to complete. (This is why
make -j2 tends to be significantly faster than a plain
make, even on single-processor machines.)
But, again, these are all generalities and all have cases where they'll be incorrect. Only benchmarking will reveal the truth with certainty.