AutoMOD内附练习问题

GJM

  B" M  f9 s6 A
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

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!
0 k; B: v0 x8 k# a, F: h- [0 B
8 e4 a* ^& M2 Z( u--------------------------------------------
- F2 U# Q8 h6 ]begin P_something arriving
   move into Q_wait
   move into nextof(Q_mA,Q_mB,Q_mC)
& Y! J: F& F" y4 ^% G) z$ q   use nextof(R_mA,R_mB,R_mC) for normal 48, 5 min
   send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
5 `9 ]- q6 W, S& ?" G   send to die
end
) C3 Q; m9 o% O8 m2 A
begin P_mA_down arriving
, G1 b- A! t7 l6 S. q9 a) p   while 1=1 do
6 G7 q" `. T# N* ~, G/ a" W! F' g   begin
0 W# O( \, P+ m# C   wait for e 110 min
   take down R_mA
   wait for e 5 min
3 b* p- M. T" c. X  L   bring up R_mA
; X/ o& R, Q: F7 p. D( G   end
end

/ z3 G7 r5 T' t6 E3 ibegin P_mB_down arriving
   while 1=1 do
6 n+ W& C7 j* a   begin
   wait for e 170 min
1 G. d6 x9 Z# O% e8 Z5 O. G   take down R_mB
   wait for e 10 min
   bring up R_mB
   end
end

; ^1 `5 g( Q) ]  t2 Z! y8 W) }begin P_mC_down arriving
3 ?) E7 s& K7 u/ Z4 j- ]   while 1=1 do
& S+ ]$ J  C+ z% v5 |! G- R5 [   begin
   wait for e 230 min
   take down R_mC
' o8 [) ]; i/ V! T   wait for e 10 min
   bring up R_mC
   end
end
& i- a$ f# e3 J6 N+ {% E
8 H- f; n9 {) f( `begin P_mA_clean arriving
   while 1=1 do
; x* X9 I( n/ H- L3 M) v   begin
9 q  b2 E, F$ j/ K( f" b   wait for 90 min
6 |% k2 v1 H" O+ L  o7 j   take down R_mA
   wait for 5 min
   bring up R_mA
   end
end

begin P_mB_clean arriving
   while 1=1 do
2 L: w) j/ V# c% u5 K5 V   begin
, m% h2 c) D1 G   wait for 90 min
   take down R_mB
/ W* y8 c+ W: F# w; z- J! Y   wait for 5 min
   bring up R_mB
   end
end

. p0 `% w6 i3 q9 p9 t) Rbegin P_mC_clean arriving
6 c( F1 Z' r) s+ P1 I- l   while 1=1 do
   begin
   wait for 90 min
6 }. z8 Y3 x% B4 X   take down R_mC
   wait for 10 min
& b2 F0 \; Z' a! C+ P5 ]" p. x   bring up R_mC
$ V+ \6 v6 `. w% W& T$ t   end
; Z* t0 [& o, J/ ?6 @/ Dend
----------------------------------------

4 A8 @) R- H9 U+ F# JExercise 5.9

# f9 P. l& ?. ]1 \! x. a8 Z3 x4 S
4 K* f- B4 O/ v2 G( mCreate a new model to simulate the following system:
# g9 `, ]* P6 E1 [+ yLoads are created with an interarrival time that is exponentially
distributed with a mean of 20 minutes. Loads wait in an infinite-
capacity queue to be processed by one of three single-capacity,
arrayed machines. Each machine has its own single-capacity queue
( B8 S' a' d* |' M* J& P! F' Rwhere loads are processed. Waiting loads move into one of the three
; d5 ]& ]0 ]9 h6 Kqueues in round-robin order. Each machine has a normally
distributed processing time with a mean of 48 minutes and a standard
deviation of 5 minutes.
$ x, y8 c4 @) C2 Y: K) BThe three machines were purchased at different times and have
different failure rates. The failure and repair times are exponentially
distributed with means as shown in the following table:
Note The solution for this assignment is required to complete
8 {! O. c* ~3 j) o8 kexercise 7.1 (see “Exercise 7.1” on page263); be sure to save a copy of
your model.

1 |8 t9 v5 J" @  AMachineMean time to failMean time to repair
A110 minutes      5 minutes
B 170 minutes     10 minutes
& s8 H; s" a( n2 mC230 minutes      10 minutes
. d' E8 g4 Y1 _! E' i
! R1 T. i2 a# P0 cThe machines also must be cleaned according to the following
7 p* b& p) s% Hschedule. All times are constant:
' R2 T/ G7 m3 c7 ~+ R3 I. G) ^
MachineTime between cleanings Time to clean
, I) ]% l: P- I$ Q; V8 l2 C  dA90 minutes        5 minutes
' c# x' L  [: B1 j. d) [: x: D$ AB 90 minutes       5 minutes
) u0 ]6 K* x  m; xC90 minutes        10 minutes
# C4 {5 }5 P$ P
Place the graphics for the queues and the resources.
Run the simulation for 100 days.
Define all failure and cleaning times using logic (rather than resource
" D  p+ u6 t' y' p: |$ O" Ycycles). Answer the following questions:
a.What was the average number of loads in the waiting queue?
b.What were the current and average number of loads in Space?
6 ~& G) _9 w/ |* NHow do you explain these values?
6 r2 ]! B, K% u) u) g3 k

GJM

如果把逻辑改成底下这样，直觉
6 k: b, @) w1 g7 v7 Usend to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
这行好像也不太对，各位先进觉得如何呢?
' J7 C- H7 U8 ~8 d7 I. _
, A; T; H7 C* v' |! b- @8 x& zbegin P_something arriving
& w, v3 ?& t3 J* j' y   move into Q_wait
   move into nextof(Q_mA,Q_mB,Q_mC)
   use nextof(R_mA,R_mB,R_mC) for n 48,5 min
: Q  O9 z, G& i7 n   send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
8 o: x* T8 n( ]/ mend

begin P_mA_down arriving
   wait for e 110 min
: K+ Q: ^3 V4 l9 A3 i: Z: z' I$ U   take down R_mA
$ {- d- I% b+ E5 Q  s$ J   wait for e 5 min
+ G! q; N* u' P   bring up R_mA
end

begin P_mB_down arriving
; U) M, N: _0 q6 y- B   wait for e 170 min
+ F' J9 F: F+ X5 P5 a0 N$ X5 V   take down R_mB
   wait for e 10 min
   bring up R_mB
end
) o7 p7 H0 ~) s3 u. B$ m
, n2 S, Q4 c* }' |1 Lbegin P_mC_down arriving
: C0 @. }, d9 H& B+ G9 O7 J2 K, T   wait for e 230 min
   take down R_mC
   wait for e 10 min
- F2 s6 S3 h' c   bring up R_mC
4 I5 y* j% o2 [end

" S- ?( M5 _% n; `) ^  e% ybegin P_mA_clean arriving
   wait for 90 min
   take down R_mA
  ~+ [- r' N1 Y5 `# j$ A   wait for 5 min
/ d' k9 r6 E: o2 f; ~6 f   bring up R_mA
end
( F, D8 Z" ]* ]" l  s
begin P_mB_clean arriving
4 I/ X0 m; ?4 J5 G  g) O8 C1 I   wait for 90 min
! N3 a, `; @* Y) C   take down R_mB
  f3 F: r3 d  M  ]1 v: r# n$ F1 X   wait for 5 min
   bring up R_mB
- U0 e$ g9 _: J0 n. Hend

: U! W; u" M7 z% zbegin P_mC_clean arriving
   wait for 90 min
+ p1 |  V7 \( x1 O0 \# X5 D   take down R_mC
, X# B* C* K" Z* I/ Y; X- w   wait for 10 min
   bring up R_mC
end

gohome730

begin P_something arriving
5 U) z, O! A  X- y3 L- Q   move into Q_wait
   set A_q to nextof(Q_m1,Q_m2,Q_m3)
   move into A_ｗ
   if A_ｗ=Q_ｍ1 then use R_m1 for u 48,5 min
' q8 u# \$ c# W7 B$ u" Q   else if ．．．．．then use ．．．．for u 48,5 min
   else if ．．．．．then use ．．．．for u 48,5 min  
% M5 }; g4 w9 j: }1 i0 G   send to die
4 n1 W+ x5 T9 O$ @/ `; {% j7 `5 Mend

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