One of the key properties of topological states is their insensitivity to local probes. Ironically, this
also means that it is extremely hard to check whether a state is topological, without performing
a full-state tomography. Here, we perform this task using the properties of symmetry-resolved
entanglement measures. We exemplify this protocol for a one-dimensional symmetry-protected
topological state and implement it on an IBM quantum computer. The comparison between the
simulated result and the experimental one allows us to address the stability of topological phases
of matter to realistic noise sources. We find that while fluctuating noise sources do not affect
topological degeneracies, the latter are affected by systematic errors in the measurement protocol.