# Timing analysis of Clojure code

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Hello Clojure experts,

I am trying to do some timing tests in Clojure 1.3 and I thought I'd ask a question based on an existing piece of code that solves a differential equation that is adapted from this blog post.

Code follows:

``````;; the differential equation is
;; dy/dt = f(y,t) = t - y

(defn f [t y] (- t y))

;; solve using Euler's method
(defn solveEuler [t0 y0 h iter]
(if (> iter 0)
(let [t1 (+ t0 h)
y1 (+ y0 (* h (f t0 y0)))]
(recur t1 y1 h (dec iter)))
[t0 y0 h iter]))

(defn multipleSolveEuler []
(let [steps '(1 10 100 1000 10000 100000)
results (map #(second (solveEuler 0.0 0.0 (/ 1.0 %) %)) steps)
errors  (map #(- (Math/exp -1) %) results)]
(partition 3 (interleave steps results errors))))

(def *cpuspeed* 2.0)

(defmacro cyclesperit [expr its]
`(let [start# (. System (nanoTime))
ret# ( ~@expr (/ 1.0 ~its) ~its )
finish# (. System (nanoTime))]
(int (/ (* *cpuspeed* (- finish# start#)) ~its))))

(defn solveEuler-2 [t0 y0 h its]
(let [zero (int 0)]
(loop [t0 (double t0), y0 (double y0), h (double h), its (int its)]
(if (> its zero)
(let [t1 (+ t0 h)
y1 (+ y0 (* h (- t0 y0)))]
(recur t1 y1 h (dec its)))
[t0 y0 h its]))))
``````

So when I say

``````(time solveItEuler-2 0.0 1.0 (/ 1.0 1000000000) 1000000000))
``````

I get a time 6004.184 msecs on a 6 month old Macbook pro. I issue the command again, and I get around the same time. But when I run it 3 other times I get times in the range of 3500 msec. I have noticed this before for other code snippets, and was wondering why this is so. I suppose I would expect a roughly similar execution time across successive runs.

Is it my lack of understanding how "time" works, something I am missing, or some kind of caching happening under the hood?

Thanks.

-
i think that you should simplify your question and provide a much simpler code snippet. – viebel Mar 10 '12 at 17:31
Although my question wasn't really about a particular code snippet, but about the results of doing a timing analysis on the JVM, the example above has a "big enough" runtime to see dramatic differences - which is why I chose it. – endbegin Mar 11 '12 at 19:53

It's not `time` that's relevant, but rather the JVM optimizing the code at runtime. What you observe is typical; execution time will drop and then stabilize after about 3 invocations.

-
I see. Therefore, in order to do a fairly accurate timing analysis, does one have to run a piece of code multiple times before saying something like "this code takes X secs to run"? – endbegin Mar 9 '12 at 20:27
Precisely. This goes for all languages running on the JVM. Just keep running it until you get stable values. – Alex Taggart Mar 9 '12 at 20:28
could you please provide some material about this behavior of the JVM? – viebel Mar 10 '12 at 17:32
@Yehonathan One ref. anoth. You want to search on "JVM warmup", "hotspot inlining", -XX:MaxInlineSize" – Gene T Mar 12 '12 at 10:13

I recommend using the Criterium library for benchmarking. It is designed to deal with the pitfalls of benchmarking code that runs on the JVM.

-
 Thanks for the tip. – endbegin Mar 11 '12 at 19:50

(This is response to Viebel request for more info, which became too many chars for a single comment, This is not answer to orig. Q).

There are quite a few degrees of freedom: JVM GC and heap settings, startup time, number of warmup runs, data structures used, size of inlined methods.