I tried to port simple survival model from here (the first one in introduction) form PyMC 2 to PyMC 3. However, I didn't find any equivalent to "observed" decorator and my attempt to write a new distribution failed. Could someone provide an example how is this done in PyMC 3?

1 Answer 1


This is a tricky port, and requires three new concepts:

  1. Use of the theano tensor
  2. Use of the DensityDist
  3. Passing a dict as observed

This code provides the equivalent model as the PyMC2 version you linked to above:

import pymc3 as pm
from pymc.examples import melanoma_data as data
import theano.tensor as t

times = data.t # not to be confused with the theano tensor t!
failure = (data.censored==0).astype(int)

with pm.Model() as model:

    beta0 = pm.Normal('beta0', mu=0.0, tau=0.0001)
    beta1 = pm.Normal('beta1', mu=0.0, tau=0.0001)
    lam = t.exp(beta0 + beta1*data.treat)

    def survival_like(failure, value):
        return t.sum(failure * t.log(lam) - lam * value)

    survive = pm.DensityDist('survive', survival_like,
                        observed={'failure': failure, 'value': times})

with model:

    start = pm.find_MAP()
    step = pm.NUTS(scaling=start)
    trace = pm.sample(10000, step=step, start=start)


Output as follows:

enter image description here

  • When passing observed={...}, how are the arguments passed to survival_like? Do the arguments have to be in alphabetical order? Thanks! Oct 6, 2015 at 1:18
  • I don't believe it matters. But you could do a simple test to confirm.
    – inversion
    Oct 6, 2015 at 13:08
  • Thanks! I was able to dive into the PyMC codebase to see that logp is called with **data, so the values from the dict will be passed to the correct argument, regardless of order. github.com/pymc-devs/pymc3/blob/master/pymc3/model.py#L535 Oct 6, 2015 at 16:47
  • I think the line: return t.sum(failure * t.log(lam) - lam * value) should be: return t.sum(failure * (t.log(lam) - lam * value))
    – Yetti
    May 21, 2019 at 0:57

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