Пример #1
0
n=2
bern = bernstein(psi_flux,n=n)  # set up bezier curves
bPprime = bern.fit(sf.Pprime(psi_flux))[1]
bFFprime = bern.fit(sf.FFprime(psi_flux))[1]
b_norm = np.append(bPprime,bFFprime)
bo = np.ones(len(b_norm))
opp = op.minimize(flux_fit,bo,options={'disp':True},method='L-BFGS-B')
'''

opp = op.minimize(flux_fit, [1e-2, 1e-2],
                  options={'disp': True},
                  method='SLSQP',
                  tol=1e-12)
print('fun:{:1.8f}'.format(opp.fun))
#eq.coreBC()

eq.psi = eq.solve()
eq.set_eq_psi()

eq.plotb()
sf.contour(levels=levels, color=next(color), Xnorm=False)
eq.sf.Bquiver()

fig, ax = pl.subplots(2, sharex=True)
ax[0].plot(psi_flux, sf.Pprime(psi_flux))
ax[0].plot(sf.eq['pnorm'], sf.eq['pprime'], '.')
ax[1].plot(psi_flux, sf.FFprime(psi_flux))
ax[1].plot(sf.eq['pnorm'], sf.eq['ffprim'], '.')
fig.subplots_adjust(hspace=0.1)
sns.despine()
Пример #2
0
        f.write('{:1.6f}\t{:1.6f}\n'.format(R[i],Z[i]))

pl.plot(rb,zb,'r')
pl.plot(R,Z,'bo')
pl.axis('off')
pl.savefig('../Figs/SN_bdry_image.png',dpi=200)

nf = 100
psi_ff = np.linspace(0,1,nf)

pl.figure(figsize=(12,9))
ax1 = pl.subplot(211)
ax2 = pl.subplot(212,sharex=ax1)

FFprime = sf.FFprime(psi_ff)
Pprime = sf.Pprime(psi_ff)

ff=np.polyfit(psi_ff,FFprime,4)
FFfit = np.zeros(np.shape(psi_ff))
for i in range(len(ff)):
    FFfit += ff[-i-1]*psi_ff**i

p=np.polyfit(psi_ff,Pprime,4)
Pfit = np.zeros(np.shape(psi_ff))
for i in range(len(p)):
    Pfit += p[-i-1]*psi_ff**i
    
C = next(Color)
ax1.plot(psi_ff,FFprime,color=C)
ax1.plot(psi_ff,FFfit,'k--')
C = next(Color)