I don't have any performance stats at hand, but maybe a word of warning when using connection pooling: you might end up with too many small pools, instead of one large one.
ADO.NET will create a new connection pool for
each connection string; it is very picky about this, too - if you have two connection strings that are different by even just a single space or something, those are considered two separate connection strings, and will lead to separate connection pools being created
for each Windows credentials if using the "integrated security" (trusted connection) setting
So if you have a connection string something like
one connection pool for each distinguishable user will be created - that's rather counter-intuitive, but that's the way it is (and it cannot be influenced / turned off).
Check out the MSDN docs on ADO.NET connection pooling for details:
When a connection is first opened, a
connection pool is created based on an
exact matching algorithm that
associates the pool with the
connection string in the connection.
Each connection pool is associated
with a distinct connection string.
When a new connection is opened, if
the connection string is not an exact
match to an existing pool, a new pool
is created. Connections are pooled per
process, per application domain, per
connection string and when integrated
*security is used, per Windows*
identity. Connection strings must also
be an exact match; keywords supplied
in a different order for the same
connection will be pooled separately.
Also, if you have these two connection strings:
server=MyDBServer;database=MyDatabase;user id=tom; pwd=top$secret;
those are considered different connection strings, and thus two separate connection pools will be created.
When attempting to measure the effect of connection pooling, this is something to be aware of!