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 performance measurements

Each table row shows performance measurements for this Racket program with a particular command-line input value N.

 N  CPU secs Elapsed secs Memory KB Code B ≈ CPU Load
500,0001.361.3617,2441496  1% 1% 1% 100%
5,000,00011.9611.9818,1681496  1% 0% 1% 100%
50,000,000115.98116.0420,7761496  0% 1% 1% 100%

Read the ↓ make, command line, and program output logs to see how this program was run.

Read n-body benchmark to see what this program should do.


Welcome to Racket v6.0.

 n-body Racket program source code

#lang racket/base

;; The Computer Language Benchmarks Game
;; http://benchmarksgame.alioth.debian.org/
;; Imperative-style implementation based on the SBCL implementation by
;; Patrick Frankenberger and Juho Snellman, but using only native Scheme
;; idioms like 'named let' and 'do' special form.
;; Contributed by Anthony Borla, then converted for Racket
;; by Matthew Flatt and Brent Fulgham

Correct output N = 1000 is


(require racket/cmdline

;; ------------------------------
;; define planetary masses, initial positions & velocity

(define +pi+ 3.141592653589793)
(define +days-per-year+ 365.24)

(define +solar-mass+ (* 4 +pi+ +pi+))

(define +dt+ 0.01)

(define-struct body (x y z vx vy vz mass)

(define *sun*
  (make-body 0.0 0.0 0.0 0.0 0.0 0.0 +solar-mass+))

(define *jupiter*
  (make-body 4.84143144246472090
             (* 1.66007664274403694e-3 +days-per-year+)
             (* 7.69901118419740425e-3 +days-per-year+)
             (* -6.90460016972063023e-5 +days-per-year+)
             (* 9.54791938424326609e-4 +solar-mass+)))

(define *saturn*
  (make-body 8.34336671824457987
             (* -2.76742510726862411e-3 +days-per-year+)
             (* 4.99852801234917238e-3 +days-per-year+)
             (* 2.30417297573763929e-5 +days-per-year+)
             (* 2.85885980666130812e-4 +solar-mass+)))

(define *uranus*
  (make-body 1.28943695621391310e1
             (* 2.96460137564761618e-03 +days-per-year+)
             (* 2.37847173959480950e-03 +days-per-year+)
             (* -2.96589568540237556e-05 +days-per-year+)
             (*  4.36624404335156298e-05 +solar-mass+)))

(define *neptune*
  (make-body 1.53796971148509165e+01
             (* 2.68067772490389322e-03 +days-per-year+)
             (* 1.62824170038242295e-03 +days-per-year+)
             (* -9.51592254519715870e-05 +days-per-year+)
             (* 5.15138902046611451e-05 +solar-mass+)))

(define *system* (list *sun* *jupiter* *saturn* *uranus* *neptune*))

;; -------------------------------
(define (offset-momentum)
  (let loop-i ([i *system*] [px 0.0] [py 0.0] [pz 0.0])
    (if (null? i)
        (set-body-vx! (car *system*) (fl/ (fl- 0.0 px) +solar-mass+))
        (set-body-vy! (car *system*) (fl/ (fl- 0.0 py) +solar-mass+))
        (set-body-vz! (car *system*) (fl/ (fl- 0.0 pz) +solar-mass+)))
      (let ([i1 (car i)])
        (loop-i (cdr i)
                (fl+ px (fl* (body-vx i1) (body-mass i1)))
                (fl+ py (fl* (body-vy i1) (body-mass i1)))
                (fl+ pz (fl* (body-vz i1) (body-mass i1))))))))

;; -------------------------------
(define (energy)
  (let loop-o ([o *system*] [e 0.0])
    (if (null? o)
      (let* ([o1 (car o)]
             [e (+ e (fl* 0.5 
                          (fl* (body-mass o1)
                               (fl+ (fl+ (fl* (body-vx o1) (body-vx o1))
                                         (fl* (body-vy o1) (body-vy o1)))
                                    (fl* (body-vz o1) (body-vz o1))))))])
        (let loop-i ([i (cdr o)] [e e])
          (if (null? i)
            (loop-o (cdr o) e)
            (let* ([i1   (car i)]
                   [dx   (fl- (body-x o1) (body-x i1))]
                   [dy   (fl- (body-y o1) (body-y i1))]
                   [dz   (fl- (body-z o1) (body-z i1))]
                   [dist (flsqrt (fl+ (fl+ (fl* dx dx) (fl* dy dy)) (fl* dz dz)))]
                   [e    (fl- e (fl/ (fl* (body-mass o1) (body-mass i1)) dist))])
              (loop-i (cdr i) e))))))))

;; -------------------------------
(define (advance)
  (let loop-o ([o *system*])
    (when (pair? o)
      (let* ([o1  (car o)]
             [o1x (body-x o1)]
             [o1y (body-y o1)]
             [o1z (body-z o1)]
             [om  (body-mass o1)])
        (let loop-i ([i  (cdr o)]
                     [vx (body-vx o1)]
                     [vy (body-vy o1)]
                     [vz (body-vz o1)])
          (if (pair? i)
            (let* ([i1    (car i)]
                   [dx    (fl- o1x (body-x i1))]
                   [dy    (fl- o1y (body-y i1))]
                   [dz    (fl- o1z (body-z i1))]
                   [dist2 (fl+ (fl+ (fl* dx dx) (fl* dy dy)) (fl* dz dz))]
                   [mag   (fl/ +dt+ (fl* dist2 (flsqrt dist2)))]
                   [dxmag (fl* dx mag)]
                   [dymag (fl* dy mag)]
                   [dzmag (fl* dz mag)]
                   [im    (body-mass i1)])
              (set-body-vx! i1 (fl+ (body-vx i1) (fl* dxmag om)))
              (set-body-vy! i1 (fl+ (body-vy i1) (fl* dymag om)))
              (set-body-vz! i1 (fl+ (body-vz i1) (fl* dzmag om)))
              (loop-i (cdr i)
                      (fl- vx (fl* dxmag im))
                      (fl- vy (fl* dymag im))
                      (fl- vz (fl* dzmag im))))
            (begin (set-body-vx! o1 vx)
                   (set-body-vy! o1 vy)
                   (set-body-vz! o1 vz)
                   (set-body-x! o1 (fl+ o1x (fl* +dt+ vx)))
                   (set-body-y! o1 (fl+ o1y (fl* +dt+ vy)))
                   (set-body-z! o1 (fl+ o1z (fl* +dt+ vz)))))))
      (loop-o (cdr o)))))

;; -------------------------------

(let ([n (command-line #:args (n) (string->number n))])
  (printf "~a\n" (real->decimal-string (energy) 9))
  (for ([i (in-range n)]) (advance))
  (printf "~a\n" (real->decimal-string (energy) 9)))

 make, command-line, and program output logs

Fri, 28 Feb 2014 05:40:48 GMT

/usr/local/src/racket-6.0/bin/racket  nbody.racket 50000000


Revised BSD license

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