sw.output()
for ends,name in zip([0,-1],['SOF','EOF']):
inv.solve_slsqp(inv.swing['flux'][ends])
eq.run(update=False)
sf.eqwrite(pf,config='SXex_{}'.format(name))
'''
rb.write_json(tf=shp.tf)
loops.plot_variables(inv.Io, scale=1, postfix='MA')
loops.plot_variables(inv.Lo, scale=1)
sf.eqwrite(pf, config='SXex')
pkl.write(data={'sf': sf, 'eq': eq, 'inv': inv}) # pickle data
'''
eq.gen_opp()
#rb.firstwall(calc=False,plot=True,debug=False)
inv = INV(sf,eq,tf)
Lpf = inv.grid_PF(nPF=5)
Lcs = inv.grid_CS(nCS=3,Zbound=[-12,8],gap=0.1)
Lo = np.append(Lpf,Lcs)
inv.update_coils()
inv.fit_PF(offset=0.3) # fit PF coils to TF
inv.fix_boundary_psi(N=31,alpha=1-1e-4,factor=1) # add boundary points
tf = TF(
Profile(config['TF'],
family='S',
part='TF',
nTF=config['nTF'],
obj='L',
load=True))
tf.fill()
eq = EQ(sf,
pf,
dCoil=1.0,
sigma=0,
n=1e4,
boundary=sf.get_sep(expand=1.1),
zmin=sf.Xpoint[1] - 2)
eq.gen_opp()
inv = INV(sf, eq, tf)
#L = inv.grid_coils()
Lpf = inv.grid_PF(nPF=config['nPF'])
Lcs = inv.grid_CS(nCS=config['nCS'], Zbound=[-8, 8], gap=0.1, fdr=1)
L = np.append(Lpf, Lcs)
inv.update_coils()
inv.fit_PF(offset=0.3)
inv.fix_boundary_psi(N=25, alpha=1 - 1e-4, factor=1) # add boundary points
inv.fix_boundary_feild(N=25, alpha=1 - 1e-4, factor=1) # add boundary points
inv.add_null(factor=1, point=sf.Xpoint)
inv.set_swing()
