Here is my code, where you know g already.
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n = 100 # number of points
Lx = 100 # extension in x
Ly = 100 # extension in x
dx = n/Lx # Step in x
dy = n/Ly # Step in x
c=4
d=4
x=np.arange(-Lx,Lx)
y=np.arange(-Ly,Ly)
g = np.zeros((2*Lx,2*Ly))
lapg = np.zeros((2*Lx,2*Ly))
lapg[:,:] = c + d
g = (1/2)*c*x[None, :]**2 + (1/2)*d*y[:, None]**2
kxpad = 2*np.pi*np.fft.fftfreq(2*Lx)
kypad = 2*np.pi*np.fft.fftfreq(2*Ly)
lapgFFT = np.real(np.fft.ifft2(np.fft.fft2(g) * (-kxpad[None, :]**2 - kypad[:, None]**2)))