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<span style="color:#444444;font-family:Tahoma, "font-size:14px;background-color:#FFFFFF;">ATP新手,点plotxy后出现The selected file contains no bytes,view LIS file如下,求大神解答$ c0 L$ Y T+ ?! ]5 Q3 q
Alternative Transients Program (ATP), GNU Linux or DOS. All rights reserved by Can/Am user group of Portland, Oregon, USA.. p( `# x9 s; |# E
Date (dd-mth-yy) and time of day (hh.mm.ss) = 02-May-19 23:52:54 Name of disk plot file is jjj1.pl4
7 G4 d! ]1 ^( e Consult the 860-page ATP Rule Book of the Can/Am EMTP User Group in Portland, Oregon, USA. Source code date is 19 September 2003.- Y0 r/ h( |# H8 t. |: D; ]7 @
Total size of LABCOM tables = 9872109 INTEGER words. 31 VARDIM List Sizes follow: 6002 10K 192K 900 420K 1200 15K
% E( q5 V; w( H 120K 2250 3800 720 1200 72800 510 90K 800 90 254 120K 100K 3K 15K 192K 120 30K 160K 600 210K 300 19 200" T# j0 z* ?: \- K9 b# S2 D& J; S
--------------------------------------------------+--------------------------------------------------------------------------------( M, ]1 e. E3 X/ i, } g9 l
Descriptive interpretation of input data cards. | Input data card images are shown below, all 80 columns, character by character
7 [6 K, l, t! @- A7 [$ W& ]1 w 0 1 2 3 4 5 6 7 8
" M8 \( B1 U" O7 ] 0123456789012345678901234567890123456789012345678901234567890123456789012345678909 }( {/ Y0 L: k3 u
--------------------------------------------------+--------------------------------------------------------------------------------
+ X7 U$ S$ L" n; M& k7 v Comment card. KOMPAR > 0. |C data:JJJ1.ATP3 i9 P2 Z% A- C* v
Marker card preceding new EMTP data case. |BEGIN NEW DATA CASE8 U8 i% m4 E2 n/ F
Comment card. KOMPAR > 0. |C --------------------------------------------------------# q& |3 i+ k) w k. g9 ~8 d
Comment card. KOMPAR > 0. |C Generated by ATPDRAW 五月, 星期四 2, 2019* \, z; S9 [$ t* _7 f
Comment card. KOMPAR > 0. |C A Bonneville Power Administration program
1 w e. K2 h1 m! ? Comment card. KOMPAR > 0. |C by H. K. H鴌dalen at SEfAS/NTNU - NORWAY 1994-2015
@+ N- P5 R4 E" c% ~5 c, L: f Comment card. KOMPAR > 0. |C --------------------------------------------------------
k b; k1 q w6 g# `! P Comment card. KOMPAR > 0. |C dT >< Tmax >< Xopt >< Copt ><Epsiln>) p# B+ Q; ~, R5 `8 k
Misc. data. 1.000E-09 1.000E-03 0.000E+00 | 1.E-9 .0015 w+ K! v: B+ ` T
Misc. data. 500 1 1 1 1 0 0 1 0 0 | 500 1 1 1 1 0 0 1 0: [( i0 j9 x( d" y N
Comment card. KOMPAR > 0. |C 1 2 3 4 5 6 7 8* A' q h& k. e0 V- q& e
Comment card. KOMPAR > 0. |C 3456789012345678901234567890123456789012345678901234567890123456789012345678903 K& f6 M3 v: G5 I8 a/ J
Comment card. KOMPAR > 0. |C < n1 >< n2 ><ref1><ref2>< R >< L >< C >
" R i( P' H- ]# I P2 d8 I/ u Comment card. KOMPAR > 0. |C < n1 >< n2 ><ref1><ref2>< R >< A >< B ><Leng><><>0# D% p; R) f- Y, ]
Series R-L-C. 0.000E+00 0.000E+00 2.500E-04 | XX0001 250. 0
; T7 f0 P9 ]4 G# C2 V 4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0001XX0003 4. 60. 3.E8 500. 1 0 0 }$ b3 D- Y$ h
Series R-L-C. 0.000E+00 1.000E-01 0.000E+00 | XX0002XX0001 100. 0
! c- } o* |' [. b% o: C+ l, R 4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0004XX0005 4. 60. 3.E8 500. 1 0 0
% l9 h }! l* X+ A$ ?) U7 D" E 4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0006XX0007 4. 60. 3.E8 500. 1 0 0
" ]- d: K# E4 w* h8 p3 e/ w Series R-L-C. 2.000E+00 5.000E-07 0.000E+00 | XX0003XX0008 2. .0005 0/ r9 y3 Y0 e4 i) Z4 _# ~" m
4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0007XX0009 4. 60. 3.E8 500. 1 0 0
# M" A) j( {3 R8 a0 D 4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0006XX0004 4. 60. 3.E8 500. 1 0 0
& Z: O* w+ I6 K0 T2 a5 v 4.000E+00 6.000E+01 3.000E+08 6.000E+01 1.667E-06|-1XX0010XX0006 4. 60. 3.E8 500. 1 0 0
( v2 c3 q& b* F/ l( v Series R-L-C. 0.000E+00 0.000E+00 2.500E-04 | XX0004 250. 0 R9 ~4 Z. ~3 ~8 V$ o
Series R-L-C. 0.000E+00 0.000E+00 2.000E-03 | XX0005 2.E3 00 s7 i& X7 U* b6 M) i8 f5 H
Series R-L-C. 0.000E+00 1.000E-01 0.000E+00 | XX0005XX0011 100. 0
1 `5 B6 T8 c; Y5 N) U Blank card ending branches. IBR, NTOT = 12 12 |BLANK BRANCH1 C2 Q* f1 {+ J3 y) v
Comment card. KOMPAR > 0. |C < n 1>< n 2>< Tclose ><Top/Tde >< Ie ><Vf/CLOP >< type >5 l, b( y$ F0 Y, F) E3 R, T7 I8 @
Switch. 1.00E-04 1.00E+03 0.00E+00 0.00E+00 | XX0008XX0007 .0001 1.E3 0
* Q0 r. F3 M4 Q; `4 O$ Z7 K/ g Blank card ending switches. KSWTCH = 1. |BLANK SWITCH7 s0 D+ F" q3 K0 D1 R
Comment card. KOMPAR > 0. |C < n 1><>< Ampl. >< Freq. ><Phase/T0>< A1 >< T1 >< TSTART >< TSTOP >* k& O8 Q" U4 ]
Source. -2.20E+05 5.00E+01 0.00E+00 -1.00E+00 |14XX0002 0 -2.2E5 50. -1. 1.
1 `5 _7 @9 Y5 @. I$ [, |$ G* u; T Source. 2.20E+05 5.00E+01 0.00E+00 -1.00E+00 |14XX0011 0 2.2E5 50. -1. 1.4 Y: g" k" T/ ~* I# f: X* z
Blank card ends electric sources. KCONST = 2 |BLANK SOURCE
1 Y2 R8 w* A3 K0 _( @" l n % u6 o# j U/ C" R, r; U
List of input elements that are connected to each node. Only the physical connections of multi-phase lines are shown (capacitive
+ y8 A4 e7 a) E, K) P7 l5 F6 r and inductive coupling are ignored). Repeated entries indicate parallel connections. Switches are included, although sources1 m) W1 J4 ]8 l% e+ q
(including rotating machinery) are omitted -- except that U.M. usage produces extra, internally-defined nodes "UMXXXX".
- K! ]* s) z7 a; i --------------+------------------------------+ Y' Y0 w! h, Y4 S+ G- o1 O6 [9 P
From bus name | Names of all adjacent busses.5 }6 M" Q; T- c0 |2 N2 E% }
--------------+------------------------------/ G' c7 M# T4 A
XX0001 |TERRA *XX0003*XX0002*
. w1 t, E- x# {" P XX0003 |XX0001*XX0008*
7 s: u# c2 _# d- [ XX0002 |XX0001*9 C) t) f$ I& s3 g' R" t% F
XX0004 |TERRA *XX0005*XX0006* u2 f7 Z4 Q0 Q! Z/ k! u
XX0005 |TERRA *XX0004*XX0011*; S: T# x: v' A) M% N! m
XX0006 |XX0004*XX0007*XX0010*
6 |# @6 U9 Z( W8 l+ [ XX0007 |XX0006*XX0008*XX0009*
& K6 j( K2 C$ c& ]; I/ }+ A" D, Q# | XX0008 |XX0003*XX0007*( q5 T$ Q/ ?& j( ?
XX0009 |XX0007*! W( |) F5 F% e2 r6 {$ ]5 L4 c0 R
XX0010 |XX0006*
7 U0 J* V$ y, [( L6 I* f& @& f XX0011 |XX0005*: E: w" Z+ D: `4 L# t4 _6 g- t
TERRA |XX0001*XX0004*XX0005*
* G. m! @( J+ h! w4 o2 O --------------+------------------------------5 |' C. U& c. d
Pi-equivalent branches of distributed circuits are added to the table of List Size 3 between indices 7 and 12.
# l& Y. x' M/ N4 t- D/ a w( ]
6 k" a: I# Z" j& m5 I4 Q. k Sinusoidal steady-state phasor solution, branch by branch. All flows are away from a bus, and the real part, magnitude, or "P"! k% T& Y3 C1 V7 }% o* X1 B* Y
is printed above the imaginary part, the angle, or "Q". The first solution frequency = 5.00000000E+01 Hertz.' Q) ]4 v/ {" J9 V0 s1 g
Bus K Phasor node voltage Phasor branch current Power flow Power loss" `2 C" X/ y }9 z
Bus M Rectangular Polar Rectangular Polar P and Q P and Q- M7 c& W" P: {" g
3 X* ]8 ^& u$ Z$ Y+ W4 B2 G# ]
XX0001 149896.92103882 149896.92103893 -.0143924645304 11772.876648291 -.103916875E-12 -.103916875E-123 ?* D1 U* Z/ O: {% D) K
.18325054986281 0.0000700 11772.876648282 90.0000700 -.88235898067E9 82358980.6749818
2 K+ V8 D$ E; @/ L
" w7 s4 g! O2 S& ]+ k TERRA 0.0 0.0 .01439246453038 11772.876648291 0.06 r: }. M7 U* `# x
0.0 0.0 -11772.87664828 -89.9999300 0.0
& R* p( m( \9 m6 O9 ^: a
; S3 W0 l: S8 T XX0001 149896.92103882 149896.92103893 .00855941836339 1.3080632828924 641.63507836966 641.63507869584
" I; N5 I8 H) Y2 T. Q3 b .18325054986281 0.0000700 1.3080352779679 89.6250777 -98035.22960451 -98035.2296045
% N5 c6 R6 O" L- w
: |- `3 P/ [0 `) I6 ^ XX0003 149886.95534862 149892.66102285 .4352063227E-11 .435222396E-11 .3261832126E-6 {. Q+ ~0 Q" Z! R+ @
-1307.839756983 -0.4999221 -.374041076E-13 -0.4924204 -.427067548E-10$ v" l$ f! S4 V; ~
; K0 a! q* n2 X8 p0 u, H" k! H& D XX0002 -220000. 220000. -.005833046167 11774.184683562 641.63507836944 .4357625372E-13
& x' s& N2 J+ E/ |4 s 0.0 180.0000000 11774.18468356 90.0000284 .12951603152E10 77617331.0962029% M- ^. ?( @" w
4 A. \& e B9 K0 |4 J* J XX0001 149896.92103882 149896.92103893 .00583304616699 11774.184683562 -641.6350783694
, y% H- |/ Q( B! p4 A' e1 i8 z/ ^ .18325054986281 0.0000700 -11774.18468356 -89.9999716 .882457015905E91 S: m6 V+ N6 B# M7 {3 w
7 o) F; L" m, p
XX0004 -.2945521752439 74.70160613923 5.869599743232 5.8696446842568 -.0065488056286 34457.125684739 U Y+ z( B P9 z8 _* W3 x- }
74.701025419982 90.2259207 .02296897199572 0.2242092 219.23594259248 -187.4023329
7 T: h' e# O1 V3 l C: X- ?& _3 w5 ~ * g" q/ e/ N1 L" ]
XX0005 -11739.96572792 11739.969852465 -5.869994505896 5.8704633843495 34457.132233536% D& k7 C ^; R3 Q0 a
-9.840933953513 -179.9519723 -.0741946611597 -179.2758401 -406.63827548495 \5 _7 ?( P! w
# R" U/ Q0 s* s( w8 R3 s# \& d
XX0006 4.2444868775879 74.505595921869 -.0012956034874 .00129986432335 .00116159796287 .00100320278347
, g8 U1 i: e% F1 T; e1 h* Z 74.384596220043 86.7341658 .10516112642E-3 175.3596074 -.0484096486471 -0.0242085+ f5 ?/ i; y+ e- [. Z$ d
4 L" I6 F$ ]* }" ?/ `* o
XX0007 6.1872099859972 74.476565829985 .64729984272E-3 .64991369084E-3 -.1583951794E-3
- y! D2 h, G D 74.219116745063 85.2346076 -.5822988199E-4 -5.1403847 .02420115155163
2 }( Z* R: z/ k/ |* \ - @6 r: J: o. p$ K% T
XX0003 149886.95534862 149892.66102285 0.0 0.0 0.0 0.0* k p3 F6 }8 b9 L
-1307.839756983 -0.4999221 0.0 0.0 0.0 0.04 x4 v7 p) @' P3 {9 M
- V" |! u3 L7 n3 F% v
XX0008 149886.95534862 149892.66102285 0.0 0.0 0.0
& v8 Y/ ?, g1 `/ ]/ S! D L) Z -1307.839756983 -0.4999221 0.0 0.0 0.0
* W6 W9 [# j! @8 i; g3 z3 s 0 ]% P% y8 g [$ ^. U. A
XX0007 6.1872099859972 74.476565829985 -.6472998427E-3 .64991369084E-3 .1583951794E-3 .1583951794E-3' B& a) T7 N+ w6 G4 m
74.219116745063 85.2346076 .58229881992E-4 174.8596153 -.0242011515516 -0.02420129 y2 }$ d' Y! R- c/ R+ H3 f6 Q
$ ~1 M, ]! T3 D, Q5 D% o( q XX0009 6.8344457064696 74.474449233014 -.285397164E-18 .3019492227E-17 -.112437082E-156 }0 L9 C/ X; c5 @
74.160191076116 84.7346155 -.300597435E-17 -95.4235936 -.310469864E-18, ?: p6 {( C2 a& T
/ k3 H3 K3 J; j" ?! K- i
XX0006 4.2444868775879 74.505595921869 .00194445829654 .0019499653913 -.0013201166475 .00522868898108
. {- \/ ^5 z) f. c 74.384596220043 86.7341658 -.1464478074E-3 -4.3071274 .07262967052585 -0.0242678
/ u$ _5 n; W8 O9 I! F4 J
4 o+ h+ C1 _% ?) z XX0004 -.2945521752439 74.70160613923 -.0025949263561 .0026001733368 .006548805628581 @% z$ d# Z `
74.701025419982 90.2259207 .16510175041E-3 176.3594729 -.09689751430384 V& d( T- k L4 f( v
. d8 C {* h, t. ^/ u2 X
XX0010 4.8932957767493 74.503478499874 -.109637827E-18 .2107872404E-17 -.785145561E-16 .15851868463E-3% ^! U6 B5 \9 w2 E: Q9 M Q3 x
74.342612040622 86.2341737 -.210501915E-17 -92.9814996 .1074859433E-17 -0.0242200( s8 C: v, Q/ D0 ]7 M! h! o+ `1 i
/ n+ B V4 u4 e0 t XX0006 4.2444868775879 74.505595921869 -.6488548091E-3 .65016701958E-3 .15851868463E-3& N. X4 ^% T* g& a0 Q3 ~4 Y2 X
74.384596220043 86.7341658 .41286680954E-4 176.3591735 -.0242200218787' ~9 j1 _6 t" o
3 z1 u% } N/ {! S5 U
XX0004 -.2945521752439 74.70160613923 -5.867004816876 5.8670504264591 -.68358947E-16 -.68358947E-16
# D, o8 }# I4 |+ _( k 74.701025419982 90.2259207 -.0231340737461 -179.7740793 -219.1390450782 -219.1390451
, s" b& v- ~& s- m; l 2 B3 ]2 s6 F7 j$ s2 X
TERRA 0.0 0.0 5.867004816876 5.8670504264591 0.0+ s# j* }2 U4 A. Z
0.0 0.0 .02313407374613 0.2259207 0.0
% N" Z {0 }# g5 M( ^; O q& k+ f 9 T' F& u) W; {% {" d& l
XX0005 -11739.96572792 11739.969852465 6.1832411625641 7376.4406083741 .2248867759E-11 .2248867759E-11+ Q- N7 t& X2 X5 B# U$ O5 I
-9.840933953513 -179.9519723 -7376.438016848 -89.9519723 -.4329959518E8 43299595.1804063" q6 J$ U+ }( H2 Y
6 g) L$ d( \/ @- E
TERRA 0.0 0.0 -6.183241162564 7376.4406083741 0.0$ X( i' c/ v o) z
0.0 0.0 7376.4380168479 90.0480277 0.0
* l" R+ h1 A* f % s% H; ?; I! |$ m+ W; ?
XX0005 -11739.96572792 11739.969852465 -.3132466566685 7376.5122181602 -34457.13223354 -.643041176E-12& K% y. W6 |' C& l7 M: s8 A, E
-9.840933953513 -179.9519723 7376.5122115091 90.0024331 .433000018187E8 54716345.0846804
7 i% A t' i9 x+ R
9 m, T8 b; E" x- L$ d, D' g) z XX0011 220000. 220000. .31324665666851 7376.5122181602 34457.132233536' B0 w7 }( L, H6 n4 v* `) D W1 _
0.0 0.0 -7376.512211509 -89.9975669 .811416343266E92 M, u! O3 x6 ]; q
Total network loss P-loss by summing injections = 3.509876731190E+04
8 M' `0 N2 j% e/ f; I1 n. _ 8 j8 ]4 I4 r# M- J# V0 P5 S6 j
Output for steady-state phasor switch currents.7 K3 ^* b! h$ G+ g, I$ O
Node-K Node-M I-real I-imag I-magn Degrees Power Reactive
" v2 ~' F) ^' z, B; K9 l XX0008 XX0007 Open Open Open Open Open Open
; t. y: [% g( J
7 \5 W) w+ W% B% H& }1 L9 G0 E Solution at nodes with known voltage. Nodes that are shorted together by switches are shown as a group of names, with the printed) U, N7 I+ ]" f3 B; ^$ W6 m
result applying to the composite group. The entry "MVA" is SQRT( P**2 + Q**2 ) in units of power, while "P.F." is the
+ ~7 d& I6 W' g/ y. D" q3 q associated power factor.
; }' C( V# W$ Q( ~/ \0 U4 O3 f Node Source node voltage Injected source current Injected source power
9 ~3 ~0 } G! { name Rectangular Polar Rectangular Polar P and Q MVA and P.F.7 p, ~! l8 E& Z3 q
/ r8 [+ v! q# U% R XX0002 -220000. 220000. -.005833046167 11774.184683562 641.63507836944 .12951603152E10+ R4 B: l8 M6 f8 \6 c* F
0.0 180.0000000 11774.18468356 90.0000284 .12951603152E10 0.0000005
! E; P& n1 v0 A* z1 s
# U& S* p4 ?+ F XX0011 220000. 220000. .31324665666851 7376.5122181602 34457.132233536 .811416343998E9
. [0 _) I6 ^! ~+ Z 0.0 0.0 -7376.512211509 -89.9975669 .811416343266E9 0.0000425; b+ c9 z1 L. N+ ?
) V% I' }- I z- U: U; w" Q+ M
1 K1 t$ r5 a; `4 i+ p; K% z$ \ ------------------------------------------------------------------------------------------------------------------------------------
O: D% n: j5 V2 G( P( n3 c ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/; N9 T" @' k3 S- L9 w
ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
! H" N) t( M' ?, F B ------------------------------------------------------------------------------------------------------------------------------------
) |' o- _; N# V/ I2 b2 Z$ g/ W$ H$ { You lose, fella. The EMTP logic has detected an error condition, and is now going to terminate program execution. The following) {; E. N- q5 W' d
message summarizes the circumstances leading to this situation. Where an otherwise-unidentified data card is referred to, or where. K7 U- r) o5 [+ ~4 W9 W# V9 y: r
the "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- Q @9 X9 T+ N) `
is generally the last one printed out prior to this termination message. But possibly this last-read card has not yet been
Q' h/ l2 X; E3 F! ]. |/ C displayed, so a copy follows:4 d: M# p7 P3 B; u% u9 C+ V3 v5 p
" XX0001XX0003XX0008XX0007XX0006XX0009XX0005XX0004 "$ d# v& `4 I8 p( N+ w
KILL code number Overlay number Nearby statement number
& _* M+ B0 [" t3 R 102 12 15364 [8 K5 ?- \8 W3 H+ T
KILL = 102. The total resistance for one particular mode of a constant-parameter, distributed transmission line is too large.
6 \7 p+ y. B- v, A% u: R7 ^8 z This is for linear branch number 2 (in order of data input) which connects bus "XX0001" with bus "XX0003". Resistance is to
2 |9 A L7 K r/ f* z# ~ be lumped, with half in the middle and a quarter at each end (variable IPUNCH of columns 53-54 is equal to -1). The total modal z: p, V2 N0 i, [) `$ y. S# U
resistance of 2.00000000E+03 Ohms is unreasonably large when compared with the surge (characteristic) impedance of
0 p b2 W: w2 ^- M" P4 p6 R 6.00000000E+01 Ohms. Program logic can not handle any resistance that exceeds four times the characteristic impedance. For( B5 f" X) G+ }- ]' f- {( n
normal power lines, such values are absurd, anyway, so no sympathy is accorded.$ x9 L j( ~6 p& S: `4 V0 [6 x/ p
------------------------------------------------------------------------------------------------------------------------------------
' G: ? r* x. }/ f( Z" N ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
6 n/ _( ~; B3 K8 u ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/ERROR/
9 d/ G! i! ^% S2 W! k4 N7 J ------------------------------------------------------------------------------------------------------------------------------------# c0 G' c5 {7 d1 d$ a
8 K& V# s+ l# ? Actual List Sizes for the preceding solution follow. 02-May-19 23:52:54) K" L1 ~4 p( O( e/ A- k$ x
Size 1-10: 12 12 12 2 -9999 1 -9999 -9999 0 0
2 h% _# z2 ]0 Z7 ], U& r Size 11-20: 0 -9999 -9999 -9999 -9999 0 0 0 23 0
5 x( o2 e2 Z1 x, r3 H% Q Size 21-30: 1 -9999 14 -9999 -9999 1 -9999 -9999 -9999 0
0 h c& c& r; \' ^! H0 Y& W, m# l, U4 f Seconds for overlays 1-5 : 0.016 0.000 0.016 -- (CP: Wait; Real)8 [; [# d# Y+ r- F
Seconds for overlays 6-11 : 0.016 0.000 0.016
C! a) Z7 X! m3 D! r; c Seconds for overlays 12-15 : 0.000 0.000 0.000
* o. Y# h" r$ A: K: [4 o# ^ Seconds for time-step loop : 0.000 0.000 0.0005 ?7 i2 @6 ~5 L- U6 u* A7 H5 c
Seconds after DELTAT-loop : 0.000 0.000 0.000
( i% ^8 o( \1 s' V j) x$ m- `4 }$ s _* C ---------------------------% J2 e1 z7 E5 a9 e* w
Totals : 0.031 0.000 0.031
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