Depends on the complexity of calculating those common values, and how many work items are able to run in parallel.

Lets say the time to calculate the common values is A, the time to do the rest of the calculation is B, and the overhead for the barrier is AO & BO (A part and B part). We can calculate the time for each option.

- Option 1 and a single thread and 1000 work items: 1000A + 1000B
- Option 2 and a single thread and 1000 work items: A + AO + 1000B + 1000BO
- Option 1 with 1000 threads and 1000 work items : A + B
- Option 2 with 1000 threads and 1000 work items : A + AO + B + BO

When you've got as many threads as work items, option 2 is obviously slower.
When you've got a single thread, if BO is small compared to A, option 2 is probably quicker.

The truth is probably somewhere in the middle.

Option 3 is have the host calculate these values and put the results in constant memory. If you do this, and use a little double buffering you can probably hide the time to calculate the next set of common values whilst you're waiting for OpenCL to do the current calculation.