Say I have a random collection of (X,Y) points:

```
import pymc as pm
import numpy as np
import matplotlib.pyplot as plt
import scipy
x = np.array(range(0,50))
y = np.random.uniform(low=0.0, high=40.0, size=200)
y = map((lambda a: a[0] + a[1]), zip(x,y))
plt.scatter(x,y)
```

and that I fit simple linear regression:

```
std = 20.
tau=1/(std**2)
alpha = pm.Normal('alpha', mu=0, tau=tau)
beta = pm.Normal('beta', mu=0, tau=tau)
sigma = pm.Uniform('sigma', lower=0, upper=20)
y_est = alpha + beta * x
likelihood = pm.Normal('y', mu=y_est, tau=1/(sigma**2), observed=True, value=y)
model = pm.Model([likelihood, alpha, beta, sigma, y_est])
mcmc = pm.MCMC(model)
mcmc.sample(40000, 15000)
```

How can I get the distribution or the statistics of `y_est[0]`

, `y_est[1]`

, `y_est[2]`

.. (note that these variables correspond to the `y`

values **estimated** for each input `x`

value.