*Heading
 Uncomment the amplitude TABULAR definition for the reference solution
 250 element truss along global x-axis modeled using user defined element.
 Geometrically Nonlinear, with mass scaling
*Parameter
 CsArea=1.002
 YoungsMod=2.1E7
 PoissonRatio=0.0
 Density=7200.0
**------------------------------------------------
*restart,write
*Node
 1, 0.0, 0.0, 0.0
 251, 10.0, 0.0, 0.0
*Ngen, Nset=AllNodes
 1, 251, 1
*Nset, Nset=LeftNode
 1,
*nset, nset=qa_test_leftnode
 1,
*Nset, Nset=RightNode
 251,
*nset, nset=qa_test_rightnode
 251,
*Element, Type=T3D2
 1, 1, 2
*Elgen, Elset=AllElements
 1, 250, 1, 1
*Solid section, Elset=AllElements, material=elas
 <CsArea>,
*Boundary
 LeftNode, 1, 3, 0.0
 RightNode, 2, 3, 0.0
*Amplitude, Name=LoadAmp, Definition=Tabular
0,0,1,1
**------------------------------------------------
*Node
 1001, 0.0, 1.0, 0.0
 1251, 10.0, 1.0, 0.0
*Ngen, Nset=AllNodes2
 1001, 1251, 1
*Nset, Nset=LeftNode2
 1001,
*nset, nset=qa_test_leftnode2
 1001,
*Nset, Nset=RightNode2
 1251,
*nset, nset=qa_test_rightnode2
 1251,
*Element, Type=T3D2
 1001, 1001, 1002
*Elgen, Elset=AllElements2
 1001, 250, 1, 1
*Solid section, Elset=AllElements2, material=elas
 <CsArea>,
*Boundary
 LeftNode2, 1, 3, 0.0
 RightNode2, 2, 3, 0.0
*Amplitude, Name=LoadAmp2, Definition=User
**------------------------------------------------
*Material, name=elas
*Elastic
 <YoungsMod>, <PoissonRatio>
*Density
 <Density>,
**------------------------------------------------
*filter, type=butterworth, name=sae60
100.0,
**------------------------------------------------
*Step,Nlgeom=Yes
*Dynamic, Explicit, Element
 , 1.0
*Variable Mass Scaling, type=below min, Dt=1.0e-3, freq=2
*Boundary,type=displacement, Amplitude=LoadAmp
 RightNode, 1,1, 1.0
*Boundary,type=displacement, Amplitude=LoadAmp2
 RightNode2, 1,1, 1.0
**--------------------
*Output, Field, Var=Preselect
**--------------------
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1_Sensor_U1
*NODE OUTPUT, NSET=LeftNode
u1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N251_Sensor_U1
*NODE OUTPUT, NSET=RightNode
u1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1001_Sensor_U1
*NODE OUTPUT, NSET=LeftNode2
u1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1251_Sensor_U1
*NODE OUTPUT, NSET=RightNode2
u1,
**--------------------
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1_Sensor_RF1
*NODE OUTPUT, NSET=LeftNode
rf1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N251_Sensor_RF1
*NODE OUTPUT, NSET=RightNode
rf1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1001_Sensor_RF1
*NODE OUTPUT, NSET=LeftNode2
rf1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1251_Sensor_RF1
*NODE OUTPUT, NSET=RightNode2
rf1,
**--------------------
*nset,nset=n100
1,
*nset,nset=n1100
1001,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N100_Sensor_V1, filter=sae60
*NODE OUTPUT, NSET=n100
V1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1100_Sensor_V1, filter=sae60
*NODE OUTPUT, NSET=N1100
V1,	
**--------------------
*nset,nset=n200
251,
*nset,nset=n1200
1251,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N200_Sensor_A1, filter=sae60
*NODE OUTPUT, NSET=N200
A1,
*OUTPUT,HISTORY,TIME INT=1.e-2, SENSOR, name=N1200_Sensor_A1, filter=sae60
*NODE OUTPUT, NSET=n1200
A1,	
**--------------------
*Output, History, Freq=1
*Node Output, Nset=qa_test_leftNode
 RF1,
*Node Output, Nset=qa_test_leftNode2
 RF1,
*Node Output, Nset=RightNode
 U1, V1, A1
*Node Output, Nset=RightNode2
 U1, V1, A1
*node output, nset=qa_test_rightnode
 u1,RF1
*node output, nset=qa_test_rightnode2
 u1,RF1
*Energy Output
*End Step