/SOURCE 14GEN 377. 60. -1. /TACS TACS HYBRID 1FLUX +GEN 1.0 0.0 1.0 90GEN 91GROUND 99CURR -1.0* GROUND 33FLUX GEN GROUNDCURR /OUTPUT GEN /PLOT C Last step: 400 .02 116.4994069 2.765761424 -2.76576141 .9416257618 C Last step continued .....: 116.4994069 2.765761424 -2.76576142 C Final 5 max. : 3.499909256 .9905492104 376.9925583 3.499613141 3.499909256 C Associated times : .0125 .00415 .01665 .00415 .0125 CALCOMP PLOT 2Arbitrary 78-character case title text of which this is an example, I hope. First of two lines of 78-byte graph subheading text. Second and final such line of graph subheading text. 194 2. 0.0 20. TACS CURR ABCDEFGHIJKLMNOP1234567890123456 X-Y PLOT Horizontal Axis label123 10. -1.1 1.1 8. -4.0 4.0 194 4. 0.0 20. TACS FLUX TACS CURR Graph heading---Vertical axis la X-Y PLOT Horizontal Axis label123 9999. -1.1 1.1 "9999." returns to conventional (vs. time) plotting 8. -4.0 4.0 PRINTER PLOT 194 4. 0.0 20. TACS CURR { Axis limits: (-3.500, 3.500) C Now that all plotting is done with, let's illustrate the three declarations C that will choose the destination of any subsequent "CALCOMP PLOT" use: SCREEN PLOT { If a vector plot were to follow, it would go only to the screen PEN PLOT { If a vector plot were to follow, ... go only to CalComp plotter SCREEN PEN { If a vector plot were to follow, .. go to both screen & plotter C The preceding 3 declarations really could only be tested by a user who C had both a vector-graphic screen and a CalComp plotter. Hence no use. C The following active card of DC-33 must be disabled for $INSERT use. The C problem is this. For $INCLUDE, the /LOAD FLOW disappears during data C assembly, leaving just comment cards that have nothing to do with any load C flow. So, they were tolerated. But not so for $INSERT which retains C the data for this non-existent feature. So, remove entire block: C /LOAD FLOW /BRANCH 96GROUNDGEN 8888. 1.E-9 1 1.0 -0.7 2.0 0.9 3.5 1.0 9999. /REQUEST PRINTED NUMBER WIDTH, 13, 2, { Request maximum precision (for 8 output columns) /INITIAL 2GROUND 0. { Node voltage initial condition in fact changes nothing C Initial conditions really are not a part of this problem, although we do want C to illustrate that they, too, can be sorted, and inserted after /LOADFLOW C The preceding redefinition of node voltage at GROUND changes zero to zero. /SWITCH GROUND MEASURING 1