本帖最后由 GJM 于 2009-12-5 21:43 编辑 . H" E8 X) R* @* A& _2 j) \: B8 Y7 [
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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
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# W2 p7 t* U- e7 A ?5 ~) o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!) K% b: ^( R( g1 e# D+ m% K# I* h
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: b* z, a! B( V3 _: qbegin P_something arriving, T( A5 L' P# Y( E9 ]" J* e9 i
move into Q_wait
# N. Y2 M' k$ b$ d) t( {" L move into nextof(Q_mA,Q_mB,Q_mC)
8 K) _8 S/ U& X+ B* k, m3 Y3 l use nextof(R_mA,R_mB,R_mC) for normal 48, 5 min' i2 g2 p$ ?% d" Z
send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)1 { F; ?( {. q$ ]% M
send to die' ]- k" a( _" j& Z: G2 I" ~. o1 S
end; c6 d1 D' l0 N: f+ u
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begin P_mA_down arriving; i3 K x( Y9 Z+ M7 h* {
while 1=1 do : |( S2 m: T) m% S! s& s: j
begin
. X- j( ?9 d$ h! f5 f3 @ wait for e 110 min
, d! I3 m% A5 g; k0 f8 E take down R_mA: U* c' r. u( E- |4 b
wait for e 5 min, a" {. e) ]& E: Z8 U
bring up R_mA
5 l" W5 n; A2 s4 O& d4 U end
+ L/ M" ~2 y: z0 D% v5 Q6 x" T9 E) ?end ^3 C y: b- u# w8 Q5 ~( Z
9 h7 j2 `' d) G0 Z# ]begin P_mB_down arriving
. n1 e2 h5 A, k8 ]0 u$ K9 d7 A while 1=1 do
: a1 p S+ t' q1 p2 N7 r begin
, D$ T( _' p. H O* ^" f6 L wait for e 170 min9 c/ h5 }# C" \# l
take down R_mB
* F, O8 n0 b# [) [8 m wait for e 10 min! {$ C5 @7 K9 _7 Q) Q4 Y
bring up R_mB" [1 k4 F' ~% h% l, j6 p6 |
end
6 {% X* L Q0 X0 `: l+ Uend! ]- |0 Z9 q4 Q: U: b- R
8 p# A( h' g$ Ubegin P_mC_down arriving
4 f. C# }4 O) G5 K8 F4 T+ S while 1=1 do
, G7 P7 m$ |# w$ }, A begin
" M2 {3 g# A& s6 ]. `3 G% l; f wait for e 230 min& N8 c' f2 D" A
take down R_mC
; P& v- g m. n, b4 s( j. s wait for e 10 min( B- `, u1 F) p4 S$ e! C9 H, h2 |& |
bring up R_mC6 r" Y6 I/ u6 n3 J; S4 j O s
end
. D7 U. k- ]1 y2 g e `" c3 Oend
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begin P_mA_clean arriving
4 w8 ?( u* B+ z while 1=1 do: i$ _, V2 h5 [2 L( z
begin8 T- Z4 j" k# k% }% S
wait for 90 min2 d5 l, m' D. ~9 [
take down R_mA
- e5 [% d0 G/ a8 [5 R* j wait for 5 min! N( u: d7 b( O) W5 q" S
bring up R_mA, i+ X& n z. `
end
& ?$ o: A. n/ G# Send
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, n3 r/ q) K4 b& n: W/ e1 sbegin P_mB_clean arriving' N9 @. @+ ]) r7 _
while 1=1 do
y6 u' n w! U& ?) g( O begin0 m: d6 b+ @8 {6 v4 X/ R
wait for 90 min
( a1 J3 O2 }' y$ j& ^! F5 j8 L take down R_mB& t8 g! M; R1 ?- C4 v0 s2 i
wait for 5 min
" G* X% _: g1 A) T9 Q4 m+ G3 } bring up R_mB
; n9 |) m& ^- t& V& O' F end
8 p8 r# H6 y2 i# l: R1 Jend, h: r8 j# H/ i1 o6 |( v
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begin P_mC_clean arriving( ?" x. A7 r( M9 _% o A5 B
while 1=1 do2 e9 }0 D2 e. k
begin
7 p: \: p5 k7 i wait for 90 min4 O/ j: q" P! X ~1 u- X8 J
take down R_mC
2 n0 s1 J& M. a2 M5 l; ]) s! K wait for 10 min
. _$ T( _: z2 f# T bring up R_mC' U3 }0 R0 T& O7 v9 h$ G
end
5 H1 }( I+ i7 I$ eend6 z8 E( l! o8 x/ V+ X$ [9 u5 H
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Exercise 5.93 b9 Q) r4 Q m$ a) w2 Y. q
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Create a new model to simulate the following system:2 \: |" ~' p% Q6 W+ B' }
Loads are created with an interarrival time that is exponentially ! _2 I& C" s3 \0 Q1 k/ b
distributed with a mean of 20 minutes. Loads wait in an infinite- D2 a! s. D* H! \% v. q+ l
capacity queue to be processed by one of three single-capacity, / T0 v* J. p+ F) {: L# i0 u
arrayed machines. Each machine has its own single-capacity queue $ P! n# c! J" ?( C0 d3 ~& y) z
where loads are processed. Waiting loads move into one of the three
# _* e. @$ J& b }$ s* Oqueues in round-robin order. Each machine has a normally 7 w# S. A. I* Z
distributed processing time with a mean of 48 minutes and a standard 7 Z2 e5 c( v8 K. E2 A9 x
deviation of 5 minutes.
& v/ B+ R* k% w3 L6 t$ MThe three machines were purchased at different times and have : a3 ]; j" Z7 s- ~8 v; z
different failure rates. The failure and repair times are exponentially 6 @" w! h; a: P
distributed with means as shown in the following table: / Z! h3 w) i+ G: k: \3 h R
Note The solution for this assignment is required to complete * y" e& N- U& ?6 }% n9 J
exercise 7.1 (see “Exercise 7.1” on page263); be sure to save a copy of ( {1 @$ ~/ Q# R X) U5 y( h/ K
your model. 5 ^/ ^* e# `- J3 V9 c- x
" f: x$ `: U% A, fMachineMean time to failMean time to repair3 m; j% j+ x3 F |1 U+ G
A110 minutes 5 minutes: {0 g; l$ M# q* H& o
B 170 minutes 10 minutes
, O5 u4 n# V2 @4 z( GC230 minutes 10 minutes1 p! ?7 ~6 `8 Q2 N/ X; G! t# y
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The machines also must be cleaned according to the following $ D' b# z. C4 e* g
schedule. All times are constant: 2 y, B7 o. w, {5 w
7 S% j4 j6 I- H. gMachineTime between cleanings Time to clean; m* E1 ]5 |. b" t, x4 {0 V# t6 Q
A90 minutes 5 minutes% `$ q( @/ z$ g2 C
B 90 minutes 5 minutes
2 C3 [- C( U( j: h/ D7 MC90 minutes 10 minutes
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Place the graphics for the queues and the resources. # Y; _2 B: x, h) K
Run the simulation for 100 days., ~ t: j1 V" v& N4 \# o
Define all failure and cleaning times using logic (rather than resource
3 i! g, t5 t ]# I' Ncycles). Answer the following questions:; p3 A t! M- w8 s
a.What was the average number of loads in the waiting queue?0 N: {: L1 K; o$ P2 u7 |2 J
b.What were the current and average number of loads in Space?
0 k& C( z1 i/ lHow do you explain these values? . d9 S$ e( m+ j. g( i B% E) p' i, f
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发表于 2009-12-5 15:47:37
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