AutoMOD内附练习问题

GJM

: _4 M, h7 U" W3 f% X8 S# q4 B4 N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

5 X, [5 J% N& n0 E8 Y8 I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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4 x* k1 ?) ^$ Y8 f) o8 P% O4 K--------------------------------------------
begin P_something arriving
5 I6 b2 @8 j7 H) ?$ L% m0 a! K9 L   move into Q_wait
   move into nextof(Q_mA,Q_mB,Q_mC)
$ j  }( ]: K* i   use nextof(R_mA,R_mB,R_mC) for normal 48, 5 min
/ t4 S/ \$ ^* i! Z! t   send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
% q0 n7 X" {5 ^& R   send to die
) W% a- j0 K9 q( w1 l* {% Mend
# ^% ~/ c6 J0 s, r$ U  [( H
begin P_mA_down arriving
7 G( D( u) \  b+ W. y   while 1=1 do
   begin
   wait for e 110 min
   take down R_mA
   wait for e 5 min
1 z9 r. X1 S, W% Q/ T$ s# E; V   bring up R_mA
   end
, e% k( O( T1 _$ V9 s3 xend
: w) l. L: I( v" {
  _& V4 R' g8 J3 c  n2 |2 a' {: Obegin P_mB_down arriving
   while 1=1 do
   begin
   wait for e 170 min
$ ?6 {8 {2 l; Y   take down R_mB
   wait for e 10 min
   bring up R_mB
0 T' S, o' @, S3 Y: F2 D* S   end
end

# Y1 ^% u6 b* bbegin P_mC_down arriving
   while 1=1 do
6 s; B: C5 D5 W   begin
2 J# H/ H& u  t! i   wait for e 230 min
   take down R_mC
" r. ]1 D2 [# P8 E   wait for e 10 min
% J4 ~+ {- P1 F   bring up R_mC
   end
end
& D6 }+ m4 N, Y
begin P_mA_clean arriving
   while 1=1 do
0 ~( _3 y; q  j/ [; s" F   begin
6 w+ C+ b/ L) i5 M% j# i2 u. C4 k; S   wait for 90 min
   take down R_mA
, q& s7 N! e) R0 m" W' Y   wait for 5 min
6 k- b* b2 s8 M9 z$ d. e   bring up R_mA
3 Y* i* k3 G5 c2 \4 n# t5 u" f   end
end

5 Y% _; d' a6 H$ y; G- Q0 r. Nbegin P_mB_clean arriving
8 b+ d# G4 t. Y$ O# T  h   while 1=1 do
   begin
   wait for 90 min
   take down R_mB
   wait for 5 min
   bring up R_mB
# a: \, w! @, Y2 A8 W) }   end
. W6 n" s' t1 Hend

6 v3 t, _" Y" x  Z0 y8 g  W8 A+ Ibegin P_mC_clean arriving
8 m' l6 ?+ y0 z   while 1=1 do
   begin
% y( X* {- t+ H' |( P5 t   wait for 90 min
4 e( L( B! ^& [" X9 v! e: Y) z   take down R_mC
   wait for 10 min
# X9 S, R2 A6 ?9 q0 C   bring up R_mC
6 m) x7 ~6 c' A6 ~/ l' H   end
end
9 F0 V8 j# n, N1 ~+ S2 }----------------------------------------
  k  }5 s& G" l% v( g
Exercise 5.9
2 ]/ d# @/ A  Q' x4 d; ~  N
6 T. g8 |+ Y/ a3 \
Create a new model to simulate the following system:
Loads are created with an interarrival time that is exponentially
- s# g5 }+ B/ Sdistributed with a mean of 20 minutes. Loads wait in an infinite-
capacity queue to be processed by one of three single-capacity,
( c" y* ?, F' @! v/ qarrayed machines. Each machine has its own single-capacity queue
where loads are processed. Waiting loads move into one of the three
- X- y! E' e/ s" ?5 Y; aqueues in round-robin order. Each machine has a normally
distributed processing time with a mean of 48 minutes and a standard
: C0 `1 b5 I$ x6 jdeviation of 5 minutes.
The three machines were purchased at different times and have
+ p7 F1 T( A; z6 O! t; Vdifferent failure rates. The failure and repair times are exponentially
+ @# n9 o' z4 idistributed with means as shown in the following table:
Note The solution for this assignment is required to complete
exercise 7.1 (see “Exercise 7.1” on page263); be sure to save a copy of
your model.

MachineMean time to failMean time to repair
( e8 i( M1 d' [# b' bA110 minutes      5 minutes
B 170 minutes     10 minutes
; l9 |  f9 v5 {' x+ O' M  _" }9 bC230 minutes      10 minutes
5 w1 Z' `1 C, c' ]- r, G$ a
The machines also must be cleaned according to the following
schedule. All times are constant:

MachineTime between cleanings Time to clean
6 M8 l9 N7 `0 z+ A: N; r+ G3 JA90 minutes        5 minutes
B 90 minutes       5 minutes
C90 minutes        10 minutes
  N7 b" S% r( v. V+ q! Y
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
/ h( F9 V8 M) C* j2 tcycles). Answer the following questions:
' t; G7 B; |0 ^2 R- Ta.What was the average number of loads in the waiting queue?
b.What were the current and average number of loads in Space?
How do you explain these values?
' X2 }4 G( F" A: A! [+ a# B

GJM

如果把逻辑改成底下这样，直觉
send 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?
% T5 R6 y1 C/ H
begin P_something arriving
/ c! w. S: U+ K0 T, s& n1 X   move into Q_wait
/ _: T. B7 e) ?3 R   move into nextof(Q_mA,Q_mB,Q_mC)
" t/ [8 K. D8 \* J# ~8 E3 m   use nextof(R_mA,R_mB,R_mC) for n 48,5 min
6 v% g" J" J0 ~; t1 Z   send to nextof(P_mA_down,P_mB_down,P_mC_down,P_mA_clean,P_mB_clean,P_mC_clean)
end
$ _4 k; O: h- K: A
begin P_mA_down arriving
4 x! V4 O+ e' }: n; K9 @8 d   wait for e 110 min
, N/ Z9 I& l' o7 ~2 s, M   take down R_mA
   wait for e 5 min
8 l& z" u: d2 [) J# P3 n   bring up R_mA
end
' o3 l6 G/ ?4 d- V: H% j! x% o
begin P_mB_down arriving
+ w( P6 v) e3 J( f3 x( [' L/ d   wait for e 170 min
   take down R_mB
" S/ Z  y; Q$ ^   wait for e 10 min
3 l; [: }1 x. K   bring up R_mB
end
: \# v' `: g( E
begin P_mC_down arriving
   wait for e 230 min
   take down R_mC
   wait for e 10 min
: \' `1 i' v( w7 O9 F   bring up R_mC
' O( Q$ m& A& `, u" N- R" R) Y5 {* send
0 P% w3 i* Z; D0 {& H
, n3 _6 w2 H5 q9 j6 F# o/ g; G6 M5 vbegin P_mA_clean arriving
   wait for 90 min
   take down R_mA
+ V+ }- ~3 i5 r2 ^. Q7 S6 ~9 b   wait for 5 min
   bring up R_mA
end

begin P_mB_clean arriving
   wait for 90 min
" b, h" p6 x% t8 m2 G' h   take down R_mB
   wait for 5 min
   bring up R_mB
9 S9 Z) {7 {* gend
3 X0 |+ r* P5 D) Z" \" W
begin P_mC_clean arriving
  s! j  E- D5 V$ N5 f/ c   wait for 90 min
0 a/ V3 h. z# S' y   take down R_mC
   wait for 10 min
   bring up R_mC
1 I9 u+ R! @+ t+ H: ]/ C. \end

gohome730

begin P_something arriving
   move into Q_wait
   set A_q to nextof(Q_m1,Q_m2,Q_m3)
   move into A_ｗ
* n2 W+ q, d7 t1 f/ X$ {   if A_ｗ=Q_ｍ1 then use R_m1 for u 48,5 min
   else if ．．．．．then use ．．．．for u 48,5 min
   else if ．．．．．then use ．．．．for u 48,5 min  
" {/ g0 g# t- L" n4 ]* F   send to die
end
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- c8 J1 z7 {0 S% m供您參考看看～