I understand you don't want your final solution to expose futures though it is useful to illustrate how to do this with futures, and then wrap them in something that hides this detail:
core> (defn fn1 [input] (java.lang.Thread/sleep 2000) (inc input))
core> (defn fn2 [input] (java.lang.Thread/sleep 3000) (* 2 input))
core> (time (let [f1 (future (fn1 4)) f2 (future (fn2 4))] @f1 @f2))
"Elapsed time: 3000.791021 msecs"
then we can wrap that up in any of the many clojure wrappers around futures. the simplest being just a function which takes two functions and runs them in parallel.
core> (defn conc [fn1 fn2]
(let [f1 (future (fn1))
f2 (future (fn2))] [@f1 @f2]))
core> (time (conc #(fn1 4) #(fn2 4)))
"Elapsed time: 3001.197634 msecs"
This avoids the need to write it as a macro by having conc take the function to run instead of the body to evaluate, and then create the functions to pass to it by putting
# infront of the calls.
This can also be written with map and future-call:
core> (map deref (map future-call [#(fn1 4) #(fn2 42)]))
You can then improce conc until it resembles (as Julien Chastang wisely points out)