I need to do computations using multi-threading. I use SBCL and portability is not a concern. I am aware that
lparallel exist but I want to implement something at the relatively low level provided by the specific SBCL threading implementation. I need maximal speed, even at the expense of readability/programming effort.
Example of computation intensive operation
We can define a sufficiently computation-intensive function that will benefit from multi-threading.
(defun intensive-sqrt (x) "Dummy calculation for intensive algorithm. Approx 50 ms for 1e6 iterations." (let ((y x)) (dotimes (it 1000000 t) (if (> y 1.01d0) (setf y (sqrt y)) (setf y (* y y y)))) y))
Mapping each computation to a thread and execute
Given a list of argument-lists
llarg and a function
fun, we want to compute
nthreads results and return the list of results
res-list. Here is what I came up with using the resources I found (see below).
(defmacro splice-arglist-help (fun arglist) "Helper macro. Splices a list 'arglist' (arg1 arg2 ...) into the function call of 'fun' Returns (funcall fun arg1 arg2 ...)" `(funcall ,fun ,@arglist)) (defun splice-arglist (fun arglist) (eval `(splice-arglist-help ,fun ,arglist))) (defun maplist-fun-multi (fun llarg nthreads) "Maps 'fun' over list of argument lists 'llarg' using multithreading. Breaks up llarg and feeds it to each thread. Appends all the result lists at the end." (let ((thread-list nil) (res-list nil)) ;; Create and run threads (dotimes (it nthreads t) (let ((larg-temp (elt llarg it))) (setf thread-list (append thread-list (list (sb-thread:make-thread (lambda () (splice-arglist fun larg-temp)))))))) ;; Join threads ;; Threads are joined in order, not optimal for speed. ;; Should be joined when finished ? (dotimes (it (list-length thread-list) t) (setf res-list (append res-list (list (sb-thread:join-thread (elt thread-list it)))))) res-list))
nthreads does not necessarily match the length of
llarg, but I avoid the extra book-keeping just for the example simplicity's sake. I also omitted the various
declare used for optimization.
We can test the multi-threading and compare timings using :
(defparameter *test-args-sqrt-long* nil) (dotimes (it 10000 t) (push (list (+ 3d0 it)) *test-args-sqrt-long*)) (time (intensive-sqrt 5d0)) (time (maplist-fun-multi #'intensive-sqrt *test-args-sqrt-long* 100))
The number of threads is quite high. I think the optimum would be to use as many threads as the CPU has, but I noticed the performance drop-off is barely noticeable in terms of time/operations. Doing more operations would involve breaking up the input lists into smaller pieces.
The above code outputs, on a 2 cores/4 threads machine :
Evaluation took: 0.029 seconds of real time 0.015625 seconds of total run time (0.015625 user, 0.000000 system) 55.17% CPU 71,972,879 processor cycles 22,151,168 bytes consed Evaluation took: 1.415 seconds of real time 4.703125 seconds of total run time (4.437500 user, 0.265625 system) [ Run times consist of 0.205 seconds GC time, and 4.499 seconds non-GC time. ] 332.37% CPU 3,530,632,834 processor cycles 2,215,345,584 bytes consed
What's bugging me
The example I've given works very well and is robust (ie results don't get mixed up between threads, and I experience no crash). The speed gain is also there and the computations do use several cores/threads on the machines I've tested this code on. But there are a few things that I'd like an opinion/help on :
- The use of the argument list
larg-temp. Is this really necessary ? Is there any way to avoid manipulating potentially huge lists ?
- Threads are joined in the order in which they are stored in the
thread-list. I imagine this would not be optimal if operations each took a different time to complete. Is there a way to join each thread when it is finished, instead of waiting ?
The answers should be in the resources I already found, but I find the more advanced stuff hard to grapple with.