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James Hensman 2015-05-28 07:42:55 +01:00
parent fc07abed20
commit dade88ea36
1 changed files with 24 additions and 22 deletions
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46
GPy/inference/latent_function_inference/svgp.py
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@ -44,59 +44,61 @@ class SVGP(LatentFunctionInference):
#compute the KL term #compute the KL term
KL = -0.5*logdetS.sum() + 0.5*np.sum(np.square(q_v_mean)) + 0.5*traceS.sum() KL = -0.5*logdetS.sum() + 0.5*np.sum(np.square(q_v_mean)) + 0.5*traceS.sum()
dL_dmv = q_v_mean*1 dL_dmv = -q_v_mean*1
dL_dL = np.zeros_like(Lv) dL_dL = np.zeros_like(Lv)
for k in range(num_outputs): for i in range(num_outputs):
Lii = np.diagonal(Lv[i]) Lii = np.diagonal(Lv[i])
diag = np.diagonal(dL_dL[i]) dL_dL[i] -= np.diag(Lii - 1./Lii)
diag = Lii - 1./Lii # write in place, need numpy 1.9+
#quadrature for the likelihood #quadrature for the likelihood
F, dF_dmu, dF_dv, dF_dthetaL = likelihood.variational_expectations(Y, mu, var, Y_metadata=Y_metadata) F, dF_dmu, dF_dv, dF_dthetaL = likelihood.variational_expectations(Y, mu, var, Y_metadata=Y_metadata)
#rescale the F term if working on a batch #rescale the F term if working on a batch
F, dF_dmu, dF_dv = F*batch_scale, dF_dmu*batch_scale, dF_dv*batch_scale F, dF_dmu, dF_dv = F*batch_scale, dF_dmu*batch_scale, dF_dv*batch_scale
#sum over the data for the gradients of the likelihood parameters
if dF_dthetaL is not None: if dF_dthetaL is not None:
dF_dthetaL = dF_dthetaL.sum(1).sum(1)*batch_scale dF_dthetaL = dF_dthetaL.sum(1).sum(1)*batch_scale
#mv #mv
dL_dmv += A.T.dot(dF_dmu) dL_dmv += A.T.dot(dF_dmu)
# A
dL_dA_via_v = np.zeros(A.shape)
for i in range(num_outputs):
dL_dA_via_v += -2*(np.eye(num_inducing) - Sv[i]).dot(A.T * dF_dv[:,i]).T
#Kfu #Kfu
RiTm, _ = linalg.dtrtrs(R, q_v_mean, lower=1, trans=1) RiTm, _ = linalg.dtrtrs(R, q_v_mean, lower=1, trans=1)
dL_dKmn = np.zeros((num_inducing, num_data)) dL_dKmn, _ = linalg.dtrtrs(R, dL_dA_via_v.T, trans=1, lower=1)
for i in range(num_outputs):
tmp, _ = linalg.dtrtrs(R, np.eye(num_inducing)-Sv[i], trans=1, lower=1)
dL_dKmn += -2*np.dot(tmp, A.T*dF_dv[:,i])
dL_dKmn += np.dot(RiTm, dF_dmu.T) dL_dKmn += np.dot(RiTm, dF_dmu.T)
#L #L
for i in range(num_outputs): for i in range(num_outputs):
dL_dL[i] += np.dot(Lv[i].T, A.T).dot(A*dF_dv[:,i][:,None]) dL_dL[i] += 2*np.dot(Lv[i].T, A.T).dot(A*dF_dv[:,i][:,None]).T
#R #R
dL_dR = np.zeros((num_inducing, num_inducing)) dL_dR,_ = linalg.dtrtrs(R, -dL_dA_via_v.T.dot(A), trans=1, lower=1)
for i in range(num_outputs): dL_dR -= A.T.dot(dF_dmu).dot(RiTm.T).T
tmp = np.eye(num_inducing) - Sv[i]
tmp = np.dot(tmp, A.T)
tmp = np.dot(tmp, A*dF_dv[:,i][:,None])
tmp, _ = linalg.dtrtrs(R, tmp, trans=1, lower=1)
dL_dR += 2*tmp.T
dL_dR -= A.T.dot(dF_dmu).dot(RiTm.T)
#backprop dL_dR for dL_dKmm #backprop dL_dR for dL_dKmm
dL_dKmm = choleskies.backprop_gradient(dL_dR, R) dL_dKmm = choleskies.backprop_gradient(dL_dR, R)
dL_dKdiag = dF_dv.sum(1)
#sum (gradients of) expected likelihood and KL part #sum (gradients of) expected likelihood and KL part
log_marginal = F.sum() - KL log_marginal = F.sum() - KL
dL_dchol = choleskies.triang_to_flat(dL_dL) dL_dchol = choleskies.triang_to_flat(dL_dL)
grad_dict = {'dL_dKmm':dL_dKmm, 'dL_dKmn':dL_dKmn, 'dL_dKdiag': dF_dv.sum(1), 'dL_dm':dL_dmv, 'dL_dchol':dL_dchol, 'dL_dthetaL':dF_dthetaL} grad_dict = {'dL_dKmm':dL_dKmm, 'dL_dKmn':dL_dKmn, 'dL_dKdiag': dL_dKdiag, 'dL_dm':dL_dmv, 'dL_dchol':dL_dchol, 'dL_dthetaL':dF_dthetaL}
if mean_function is not None:
grad_dict['dL_dmfZ'] = dF_dmfZ - dKL_dmfZ
grad_dict['dL_dmfX'] = dF_dmfX
#get the posterior in terms of u for GPy compat.
q_u_mean = np.dot(R, q_v_mean) q_u_mean = np.dot(R, q_v_mean)
return Posterior(mean=q_u_mean, cov=Sv.T, K=Kmm, prior_mean=0.), log_marginal, grad_dict
Su = Sv.copy()
for i in range(num_outputs):
Su[i] = np.dot(R, Sv[i]).dot(R.T)
return Posterior(mean=q_u_mean, cov=Su.T, K=Kmm, prior_mean=0.), log_marginal, grad_dict