本帖最后由 GJM 于 2009-12-5 21:43 编辑 % L6 G M' S/ L1 @" Y" k
' x* w# \- H8 }; Q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+ j" K! }( f! O) A- d3 y, v2 r! _
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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!
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begin P_something arriving
) Z. K) v6 s, A0 _- d: ^ move into Q_wait
3 s6 M9 Z5 F n& _- r5 Z. O move into nextof(Q_mA,Q_mB,Q_mC)
5 u; N, V" f+ R7 s1 `& }7 W. H use nextof(R_mA,R_mB,R_mC) for normal 48, 5 min, c: z" u; t4 L, o3 z4 b9 ~. k
send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
0 r T* @: G* a B! } send to die/ @3 H/ P6 \4 l. `- K
end
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- a: Z* J& d9 D7 F2 L9 K8 ?9 ~, Cbegin P_mA_down arriving- k$ r2 ?5 m" z: ` l# j
while 1=1 do , q `2 \6 x m: K L6 l
begin
' D; g! J/ s# [! c wait for e 110 min# i* i& z, I2 \3 H3 u
take down R_mA" e' e, L/ w0 k$ |, o& k
wait for e 5 min
+ }- V0 H% E; [% P+ W( H! P V bring up R_mA1 A: Q0 w5 D0 Y
end4 f0 {# r) O' q( |0 [. k
end j6 W; p# Y; B# f5 m6 x
2 m+ ?, R2 ^0 \% V# K/ U, Dbegin P_mB_down arriving( ]& f9 B; W% Q% \& Q4 ~' U
while 1=1 do# q- z" @" d; H' d
begin
- A; g. O# n' m, v+ T+ R wait for e 170 min! F3 Z8 P" p1 t2 q2 r' o: P
take down R_mB1 _. F' L3 W6 L2 G; U3 i1 t2 P
wait for e 10 min
& K. L( u, a9 M bring up R_mB" P) l+ |, F+ ^4 D
end
1 t/ \7 B T' _- \3 B5 d- wend; ^6 d: a+ q1 q, I: C6 h( X# i" m
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begin P_mC_down arriving4 \% Z; Q8 [3 q J4 u8 k
while 1=1 do . `# C. c$ |; w0 ^2 M: k& a( y, Q
begin
# n; P. X$ e, e1 y& L- } O$ K3 |! b wait for e 230 min- \( O- o5 |+ z$ v$ C8 b/ |8 k
take down R_mC' y+ {* W9 t. E' J7 h( D
wait for e 10 min
: m7 e U# f; n9 A/ x: R' U bring up R_mC
4 Q" J; i$ A3 w; i- j end) d! w" _/ e! w6 w3 v! C
end
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; n/ p( M8 e. {+ T4 y& _begin P_mA_clean arriving/ s2 i& W' h9 {" c
while 1=1 do5 O4 \9 A: W6 e2 R
begin! c: M! V- \) J6 B$ n2 U7 A8 {
wait for 90 min
4 D: H/ d( R4 y X! Q take down R_mA
) W4 u" C2 d! ?% H0 C& e% C1 G, m wait for 5 min# Y; [: H* W- S. H/ X0 {
bring up R_mA
4 ?+ V6 f# G( t t Q1 ?0 b6 e end
( g1 V% T' b2 d% ?% Y; f. V# kend9 Y6 u0 B# H3 ^
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begin P_mB_clean arriving
& q; \/ L+ F* J while 1=1 do5 g. M v; t3 K7 ?3 o' y$ @
begin4 K( j' U+ r' G! X% J. \1 T' O
wait for 90 min
5 I: ~% X- {5 H0 S take down R_mB7 v: O0 J, g0 u% _) Y, C& s
wait for 5 min0 h1 Z" M0 d% P4 S- x: T8 O
bring up R_mB' j) V5 X5 _/ Q! u, ^) W
end
& S* s7 k. E. O1 ^% J' yend8 a5 m9 N3 Z3 W: k0 Q9 c9 r( k; A
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begin P_mC_clean arriving x7 I+ a( {' q7 ~3 u' E
while 1=1 do9 T! i6 O/ S Y! F+ b- I) y( D' ?; `% F6 r
begin% A) B" L# M( x+ s( {
wait for 90 min1 @" q2 k9 X8 t- c# z' A- a. |) q- C% p
take down R_mC
6 x0 |" G: u; l5 s c wait for 10 min# M5 ^, }- C7 C4 J6 ]/ E8 C8 u2 ?
bring up R_mC% S. E8 F7 H7 J
end
# t& I) T k% c* Z% {) Lend4 O- K; @! O: s! H1 M5 e
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Exercise 5.9& K/ |$ E& P! @
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E l! W8 l" ACreate a new model to simulate the following system:
+ k5 H6 j$ q7 J' r4 Z6 B8 K mLoads are created with an interarrival time that is exponentially
3 G; M7 B; ?2 s+ G/ @distributed with a mean of 20 minutes. Loads wait in an infinite-- ` }( i# o& r1 C( A
capacity queue to be processed by one of three single-capacity,
" s; o* v- Y, ]arrayed machines. Each machine has its own single-capacity queue
( Q: O" L2 K' o7 I1 p5 l3 s% ?where loads are processed. Waiting loads move into one of the three W* ?; P, j) a4 i
queues in round-robin order. Each machine has a normally 7 y- T+ q) J6 C( X- K# p9 J$ M) k9 F
distributed processing time with a mean of 48 minutes and a standard
+ n" f z u; d5 Wdeviation of 5 minutes.
3 J+ {8 h2 i6 H, j; R: vThe three machines were purchased at different times and have - Q1 d3 Q7 ^7 e, s
different failure rates. The failure and repair times are exponentially
2 X0 e; ?& _5 N0 cdistributed with means as shown in the following table: 7 e$ o" |% M. x2 D+ x) H
Note The solution for this assignment is required to complete
1 j( c, W% J( }8 _2 g# aexercise 7.1 (see “Exercise 7.1” on page263); be sure to save a copy of , v5 F" C3 D9 s. \. y7 u2 e$ s6 Q1 o
your model. $ v; X3 W. H, E3 e$ N1 p! w
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MachineMean time to failMean time to repair
: [5 f6 M' m7 V% _7 }' {. \A110 minutes 5 minutes- _4 {& p3 z4 H, Q
B 170 minutes 10 minutes
3 I" j! {$ b1 \2 E8 u6 ~C230 minutes 10 minutes) D! M# d9 M! T. ~8 O
5 N( t" B2 i7 W. wThe machines also must be cleaned according to the following & B5 m( J5 S% ^2 \7 V0 [# b
schedule. All times are constant:
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' R0 w7 D* L) J1 PMachineTime between cleanings Time to clean
7 w( Z2 l1 r+ T5 l/ Y! xA90 minutes 5 minutes
, W: N6 C! B2 n- h. ], W, V5 WB 90 minutes 5 minutes
: z, z& q! i7 i& s3 s2 nC90 minutes 10 minutes
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Place the graphics for the queues and the resources.
' D* r3 B* N9 Y( D f% N6 HRun the simulation for 100 days.
9 ?% P/ o/ R+ V" PDefine all failure and cleaning times using logic (rather than resource
( f7 k$ I; Z/ e; J# e8 W7 xcycles). Answer the following questions:
/ g& `" h4 P* H% u: g4 b E$ ma.What was the average number of loads in the waiting queue?
7 j2 w+ \& `4 C7 Mb.What were the current and average number of loads in Space?
& A3 V: M: U8 ]/ r% YHow do you explain these values? 4 i8 T0 \# r# @: g0 }6 ]* J. a( O
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发表于 2009-12-5 15:47:37
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