First, please add (declare (block)) and re-compile, this way Gambit won't need to re-look up the procedures in the global namespace that you call, on each invocation. Please report what kind of improvement you got with this.
Now just to make this round of emails complete:
What would be good/very good performance in your view?
Could you send jobs in some kind of batch format to C?
Note that Gambit-internal fxnum variables have a special encoding (the lowermost two(?) bits are object type identifier, which are shifted out when converting them to C int), this takes a little bit of time.
If for instance you make u32vectors/s32vectors/etc. [and send batch ops made on those to C to be performed etc.] then you can just read out the content of those vectors 'raw' in C, there's no interconversion there.
Brgds
2012/11/4 tcl super dude tcleval@gmail.com
Hi everyone,
I have been working on an image processing library that I want to use on android. I know that performance is a bit of a problem on image processing, so I started to study some bit hacking to improve the performance on my integer operations. My problem now is that I don't know why my c-lambdas take so much time to execute. All operations take constant time and there is no branching. Probably is some sort of conversion time between C types and GAMBIT types. I expected min-integer and abs-integer to be a lot faster than min and abs, respectively. Any help is appreciated.
URL REFERENCE: http://graphics.stanford.edu/~seander/bithacks.html#IntegerAbs http://graphics.stanford.edu/~seander/bithacks.html#IntegerMinOrMax
MY ENVIRONMENT: Linux casa 3.6.4-1-ARCH #1 SMP PREEMPT Mon Oct 29 15:13:56 CET 2012 i686 GNU/Linux
gcc -v Using built-in specs. COLLECT_GCC=gcc COLLECT_LTO_WRAPPER=/usr/lib/gcc/i686-pc-linux-gnu/4.7.2/lto-wrapper Target: i686-pc-linux-gnu Configured with: /build/src/gcc-4.7.2/configure --prefix=/usr --libdir=/usr/lib --libexecdir=/usr/lib --mandir=/usr/share/man --infodir=/usr/share/info --with-bugurl=https://bugs.archlinux.org/--enable-languages=c,c++,ada,fortran,go,lto,objc,... --enable-shared --enable-threads=posix --with-system-zlib --enable-__cxa_atexit --disable-libunwind-exceptions --enable-clocale=gnu --disable-libstdcxx-pch --enable-libstdcxx-time --enable-gnu-unique-object --enable-linker-build-id --with-ppl --enable-cloog-backend=isl --disable-ppl-version-check --disable-cloog-version-check --enable-lto --enable-gold --enable-ld=default --enable-plugin --with-plugin-ld=ld.gold --with-linker-hash-style=gnu --disable-multilib --disable-libssp --disable-build-with-cxx --disable-build-poststage1-with-cxx --enable-checking=release Thread model: posix gcc version 4.7.2 (GCC)
Gambit v4.6.6 (SINGLE HOST and GCC extensions enabled)
SCHEME CODE: compiled with ---> gambitc -exe bithacks.scm
;; bithacks.scm
(declare (not safe) (fixnum) (inline) (inline-primitives))
;; INTEGER ABSOLUTE (define abs-integer (c-lambda (int) int "// we want to find the absolute value of arg1 int const mask = ___arg1 >> sizeof(int) * CHAR_BIT - 1; ___result = (___arg1 + mask) ^ mask;"))
(define min-integer (c-lambda (int int) int "// find the smaller of arg1 arg2 ___result = ___arg2 ^ ((___arg1 ^ ___arg2) & -(___arg1 < ___arg2));"))
(define (test-abs) (let ((result 0)) (begin (display "abs:\n") (time (let loop-i ((i 0)) (cond ((fx< i 100000) (set! result (abs i)) (loop-i (fx+ 1 i)))))) (display "abs-integer:\n") (time (let loop-j ((j 0)) (cond ((fx< j 100000) (set! result (abs-integer j)) (loop-j (fx+ 1 j)))))))))
(define (test-min) (let ((result 0)) (begin (display "min:\n") (time (let loop-i ((i 0)) (cond ((fx< i 100000) (set! result (min i result)) (loop-i (fx+ 1 i)))))) (display "min-integer:\n") (time (let loop-j ((j 0)) (cond ((fx< j 100000) (set! result (min-integer j result)) (loop-j (fx+ 1 j)))))))))
;; run tests
(test-abs) (test-min)
;;;;;;;;;;;;;;;;;;;;;; RESULTS;;;;;;;;;;;;;;;;;;;;;
abs: (time (let loop-i ((i 0)) (cond ((fx< i 100000) (set! result (abs i)) (loop-i (fx+ 1 i)))))) 2 ms real time 3 ms cpu time (3 user, 0 system) no collections no bytes allocated no minor faults no major faults abs-integer: (time (let loop-j ((j 0)) (cond ((fx< j 100000) (set! result (abs-integer j)) (loop-j (fx+ 1 j)))))) 22 ms real time 23 ms cpu time (23 user, 0 system) no collections no bytes allocated 2 minor faults no major faults min: (time (let loop-i ((i 0)) (cond ((fx< i 100000) (set! result (min i result)) (loop-i (fx+ 1 i)))))) 2 ms real time 3 ms cpu time (0 user, 3 system) no collections no bytes allocated no minor faults no major faults min-integer: (time (let loop-j ((j 0)) (cond ((fx< j 100000) (set! result (min-integer j result)) (loop-j (fx+ 1 j)))))) 28 ms real time 30 ms cpu time (27 user, 3 system) no collections no bytes allocated no minor faults no major faults
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