SQL Server does not generally short circuit aggregate queries. Sometimes it can transform a
HAVING COUNT(*) > 0 query to use the same plan as
EXISTS (discussed in the comments here) but that's as far as it goes.
HAVING COUNT(*) > 1 query will always count all rows even though in theory it could stop counting after row no 2.
With that in mind I would use
SELECT * FROM (
SELECT TOP 2 *
WHERE [Fields] = [Values]
TOP 2 iterator will stop requesting rows after the second one is returned and thus allow the inner query to shortcircuit early rather than returning them all and counting them.
Example plans for both versions are below
Regarding the question in the comments about
"How can you tell which one is best? Is it the query cost?"
In the particular case shown in the plans above cost would be a reasonable indication as the estimated and actual row counts are quite accurate and the two plans are very similar except for the addition of the
TOP iterator. So the additional cost shown in the plan is entirely a representation of the fact that additional number of rows need to be scanned (and possibly read in from disc) and counted.
It is quite clear cut in this case that this just represents additional work. In other plans it may not be. The addition of the
TOP 2 may change the query tree underneath it significantly (e.g. disfavouring plans with blocking iterators)
In that case the cost shown in execution plans may not a reliable metric. Even in actual execution plans the cost shown is based on estimates so is only as good as those are and even if the estimated row counts are good the costs shown are still just based on certain modelling assumptions.
SQL Kiwi puts it well in this recent answer on the DBA site
optimizer cost estimates are mainly only useful for internal server
purposes. They are not intended to be used to assess potential
performance, even at a 'high level'. The model is an abstraction that
happens to work reasonably well for the internal purposes it was
designed for. The chances that estimated costs bear any sensible
resemblance to real execution costs on your hardware and configuration
is very small indeed.
Choose other metrics to compare performance, based on whatever real
issues are important to you.
logical reads (shown when
SET STATISTICS IO ON;) are one such metric that can be looked at but again focusing on this exclusively can be misleading. Testing query duration is probably the only reliable way but even that is not an exact science as performance can vary dependent upon concurrent activity on the server (waits for memory grants, DOP available, number of relevant pages in the cache).
In the end it just comes down to getting a query plan that looks to be an efficient use of the resources on your server.