本帖最后由 GJM 于 2009-12-5 21:43 编辑 $ n! Z# k, n4 u9 Q% h( q
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底下是小弟做AutoMOD里面PDF练习的(Exercise 5.9)逻辑文件但问题是,程序只Run到Machine A和Machine B就没继续下去' a' j3 f% f3 b) t' G2 f4 t/ E1 E; a3 Z
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不知道是哪里出错,另外这题和Exercise7.1的题型类似,请问若要符合Exercise7.1的题意又该如何修改呢?请各位先进指导,谢谢!8 [) L3 |( o/ O; F! y, E& v( L
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3 Q1 G2 R5 D* a: {4 |3 t% A, [begin P_something arriving
8 j8 `; [5 w: P) \% R/ [ move into Q_wait/ P0 [7 k% `+ |; ~$ [7 l
move into nextof(Q_mA,Q_mB,Q_mC)
+ B" J, n* I9 Y2 `7 S" W use nextof(R_mA,R_mB,R_mC) for normal 48, 5 min
7 U0 @0 U# J9 U7 a send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean). k& R3 v/ C) n/ \, H' b$ @% i3 R2 w
send to die
3 P& _0 A% D2 `; ]! M3 c8 A2 wend
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( C3 z/ ~8 G/ {begin P_mA_down arriving
( B9 Q$ ^2 q( s3 T7 T while 1=1 do + r7 z1 ?% `8 Q8 {; @1 ~/ B
begin$ c& ~& w( A$ {" l
wait for e 110 min$ r: V) |% ~4 R% t, K
take down R_mA
) T6 v- M3 |9 h# I( h) o wait for e 5 min9 c" T h. m1 O+ y' z4 \, O
bring up R_mA
1 d2 X0 o; V* F1 P9 d; U: q9 H end
, B! v3 E+ z! Y l5 @( W# Uend
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begin P_mB_down arriving
, h. ?; L/ Z3 J while 1=1 do/ V% e1 D7 |! y& M$ c% Q
begin$ ~4 J) H* N2 B# p8 G( o
wait for e 170 min& q& I& G7 i y, v
take down R_mB' e# P$ n3 m+ m4 |; I: S
wait for e 10 min& Z0 e) i# _+ Z% k
bring up R_mB) y, F6 v. f2 N: T2 n
end
$ F% J- c8 J! {" [6 q: b- W4 tend8 O7 F# p( t! P' @7 p
K4 { a/ f. H0 s! Z: d6 Dbegin P_mC_down arriving
& @* R" |' u# x; M" y" E1 z while 1=1 do
9 B$ d" q/ b5 t begin
" h) M: y8 k& F ?* L0 S wait for e 230 min9 y4 C6 T3 V1 o. e: y7 k- U
take down R_mC
" r- o6 i+ n/ e3 C, o' ~6 b5 v' w' X wait for e 10 min
/ u6 X; V Z I3 A bring up R_mC
& |6 z5 |4 P2 n: x" b" a! t, Y end6 \4 K% v. l2 r+ _
end. H' r! v K! s+ j+ K+ N; n6 m) `
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begin P_mA_clean arriving! J6 D H: J/ L+ U
while 1=1 do
5 C8 [" L# ?, F begin
: \1 X$ Z/ c# i% H9 I% { wait for 90 min
5 s6 A, N0 {+ W5 W& V6 M take down R_mA% l: B3 G; |" W: ?- j& x9 d
wait for 5 min
( U! H8 V; f7 J! i! V+ Q bring up R_mA$ z$ o$ e+ Z9 |5 r9 b& d
end! {! V$ k+ v: L6 o/ O
end& x4 R! @1 B8 Q" {; g, g) Z; w5 G& P
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begin P_mB_clean arriving
" Z0 d% l1 P4 o1 e while 1=1 do, \% [! `6 ~) I$ `; v
begin
3 n* Z0 B$ ^& m: S$ L# ?9 Y( [ wait for 90 min
/ O( K2 R0 ~" |. t4 r9 T take down R_mB* ?. S& N: S. z* h1 {
wait for 5 min
( ^4 |) ]5 a+ N" o% } bring up R_mB
; n+ D# r3 t' C! @/ R2 O end
; t, `7 [9 g. W7 h3 |7 rend' }, x/ H+ H% P; g" M s0 Q6 V& ^
/ I/ y* Y4 s) ^' pbegin P_mC_clean arriving( n& y4 K. q4 M4 K
while 1=1 do
) f( X# X0 d$ y2 j6 {6 d4 p. z) V+ a begin
% e1 A, {/ L/ T wait for 90 min0 o1 a. t+ g$ [; a+ q: b
take down R_mC
' M; {9 Q7 J0 Z: c; B) c2 T wait for 10 min
) a7 U! T% U# Q6 A" O bring up R_mC
7 s; @/ ^' u! {& Y3 V9 T R6 v. b- S+ D end. S* l( \ f5 }8 Z7 H' x
end& `" Q* \$ a8 z3 H- G
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Exercise 5.9
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Create a new model to simulate the following system:3 z ?+ M( ^3 ]0 D2 x& ?, }
Loads are created with an interarrival time that is exponentially
( w7 ^ q* U6 i, G1 Ldistributed with a mean of 20 minutes. Loads wait in an infinite-1 y$ f2 h/ Q5 K! U$ J8 \% ]
capacity queue to be processed by one of three single-capacity,
' p/ p! q& U/ |2 jarrayed machines. Each machine has its own single-capacity queue
- Z" D4 ^) ^5 y0 b! W( }- S! H5 }$ M- uwhere loads are processed. Waiting loads move into one of the three
, s0 Q9 }" f* U0 ?, Cqueues in round-robin order. Each machine has a normally % f, h" w- _5 H2 i
distributed processing time with a mean of 48 minutes and a standard
y" F/ r6 D3 q0 n2 gdeviation of 5 minutes.
. `+ C7 U& Z$ H1 V) \# v: vThe three machines were purchased at different times and have
, W+ ~* R, M# [% N/ l% wdifferent failure rates. The failure and repair times are exponentially + P ]6 J% ]/ M3 E$ Y |
distributed with means as shown in the following table:
- P" y: d, h8 @Note The solution for this assignment is required to complete
' P5 U8 B3 {# [. w, ^1 Cexercise 7.1 (see “Exercise 7.1” on page263); be sure to save a copy of
1 N9 i0 f: f" R& M# ]your model. 9 _! p& x) B. ^0 M
6 e" {9 ^4 I8 `- o2 x2 S# iMachineMean time to failMean time to repair2 q4 g; x/ o3 f- }" `- q
A110 minutes 5 minutes
; S! A' y1 Q: A- y' pB 170 minutes 10 minutes: ~4 s! I0 g5 B- ~
C230 minutes 10 minutes: J8 E. @. D g2 e4 j8 r2 v3 B
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The machines also must be cleaned according to the following
5 E! x3 f7 `% I0 f: X; c; {% Jschedule. All times are constant: - a( H( J K$ @# a8 O4 S7 q
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MachineTime between cleanings Time to clean
, \" r) W, {/ zA90 minutes 5 minutes9 b& R, j5 [' f n [
B 90 minutes 5 minutes
& C; A- `6 O9 O* ^9 [6 ~) @6 X! QC90 minutes 10 minutes
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9 i+ g4 p5 Q& T5 ^( r2 iPlace the graphics for the queues and the resources.
$ Q% J2 n9 H fRun the simulation for 100 days., b6 n3 q" K; o) `4 \3 z' E7 C
Define all failure and cleaning times using logic (rather than resource % s; {$ _8 D/ U5 V. ~! y
cycles). Answer the following questions:
9 k; L! c* u. X; ^7 qa.What was the average number of loads in the waiting queue?
* ~0 P5 W- w$ x* L1 z7 h @/ Z1 Pb.What were the current and average number of loads in Space?
2 M, G4 o- q, _1 DHow do you explain these values?
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发表于 2009-12-5 15:47:37
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