我运行的时候,怎么老是报错呢,其中报错的文件如下:+ R+ K2 F& M. _2 m F9 G/ E7 E
You lose, fella. The EMTP logic has detected an error condition, and is now going to terminate program execution. The following ) e: Q4 t8 X& M5 S' gmessage summarizes the circumstances leading to this situation. Where an otherwise-unidentified data card is referred to, or where ( O3 c+ l o$ S/ X, W) X$ D* ethe "last" card is mentioned, it is the most recently read card of the input data that is meant. The 80-column image of this card 8 V. x6 h* i1 dis generally the last one printed out prior to this termination message. But possibly this last-read card has not yet been' R+ W# k; g" s! o: r. ?- [# Z
displayed, so a copy follows:! a6 u% h; ~# ^& ]5 ]% O4 E9 O
" LINE1ALINE1BLINE1CTWR4A TWR4B TWR4C TR400ATR400BTR400CPT1A PT1B PT1C ") j3 l- E9 b& o7 M
KILL code number Overlay number Nearby statement number4 m4 Y0 B( B# i& f; {: r( u
1 12 1537 ^: w! e0 O& }7 }+ w7 x4 n( r
KILL = 1. Storage exceeded for EMTP List Number 8. See the dimensioned limit in the case-summary statistics below. The problem x" w: B2 {( v/ M$ w& Tis simply too big for the program as currently dimensioned. If you are using Salford EMTP for Intel 386- or 486-based PCs, you are1 ^4 O: }! t% ^3 G( m% s
fortunate enough to have dynamic dimensioning as described in the Oct., 1993, newsletter. In this case, edit LISTSIZE.DAT to8 G. b& y0 x* f- D8 I& d
increase table sizes, and then try again. Others need a compiler and linker plus the variable-dimensioning program "VARDIM" in3 z' \; N9 P/ A7 h: H
order to increase EMTP tables before trying again. Sometimes the reason for EMTP table overflow is unclear, however, and Program; Y' Z: ~3 g/ `' u$ W
Maintenance might wish to inspect the contents of the error interface vectors LSTAT and FLSTAT. These now follow. First comes 1 L0 n/ h$ I1 p1 o4 j* JLSTAT, using (12I10) encoding; then comes FLSTAT, using (8E15.6) encoding:2 t2 E) |' a8 V' Z6 ?. S. f1 s
LSTAT = -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 11 29 ) ^3 v5 R2 s: o1 Y: |LSTAT = 255 73 -9999 8 256 3100 1537 -9999 135 149 255 40 j J% C7 ]( x: r0 Z w
FLSTAT = 2.810000E-01 2.810000E-01 2.810000E-01 2.810000E-01 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00; N l8 T a* J4 }9 x# }
FLSTAT = 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 5.000000E+01 0.000000E+00 0.000000E+00 0.000000E+00 ! p! A* u7 F$ @! t7 b [FLSTAT = 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+00 0.000000E+009 _3 p% b% F$ |/ O+ A F7 f1 W
Yet maybe the user would like some suggestions as to why the table in question (List Number 8 ) has overflowed. If such further2 c' q/ i6 Z' Q5 ?9 D# x2 I
information is available, it will now follow immediately ....' \. P, v/ c- ~7 u) q
List 7 stores past history points for distributed-parameter transmission circuits (lines or cables) in modal form. Each $ x: k% Z. H2 r; c+ |$ cpropagation mode requires storage, and there are as many modes as there are coupled conductors or phases (e.g., a double-circuit( K$ h. U9 G# l8 p
line will normally have 6 modes). Each mode requires TAU / DELTAT entries, where TAU is the modal travel time of the line, & X+ L) C# Y5 Z/ {( yDELTAT is the time-step size, and the division involves integer truncation followed by the addition of unity.5 U( `/ D! s `, o8 o4 S
In order to effectively trade memory space among the different EMTP tables (EMTP List Sizes), the user must know how many arrays( p' B3 T+ \# V7 D' N
(columns) there are in each table. The following tabulation shows the effective multiplicities that are associated with each7 m# a( L4 j) L2 r8 }( Q
independent EMTP List Size (those lists whose lengths are under user control by means of the EMTP variable-dimensioning program ; w4 p$ \/ l2 a"VARDIM").-%-83643-%-
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