Looks like a textbook exercise. At least consider showing your work/effort and then ask a precise question. — keisuke.akira 21 mins ago

I apologize, I didnt follow the complexity analysis. Could you explain it in a more detail as how you reached $O(8^N)$ and $2N$. — vasjain 14 mins ago

can you use titles that actually tell you what the question is about? — glS 22 mins ago

I added an example — Daniele Cuomo 11 mins ago

I don't think this has to do with Q#, it looks more like a .NET issue — Jonathcraft 3 mins ago

yes but posts should ideally be as self-contained as possible, so it's better if you can include it — glS 2 mins ago

@vasjain The matrices have size 2^n by 2^n, so multiplying them naively has cost O((2^n)^3) = O(8^n). You do this O(n) times. Everything else is less expensive. — Craig Gidney 4 mins ago

The definition is available at 8.4.2 of Nielsen & Chuang's Quantum Computation and Quantum Information — Daniele Cuomo 24 mins ago

This type of question might be more appropriate over in the physics stack exchange. To my knowledge the Majorana representation has nothing to do with the bloch sphere. — Connor 12 mins ago

Thanks, but I didn't mean to ask if for a fixed $\epsilon_0$ whether there exists a state that is not $\epsilon_0$-robust. Rather I meant to ask whether there exists a state which has no non-zero robustness, i.e. $ | \psi \rangle$ is entangled but $ (1-\epsilon) | \psi \rangle + \epsilon \, \mathbb{I}/d$ is separable for all $\epsilon > 0$. — Rammus 4 mins ago

Thanks! Interestingly, things seem to break down if we move to infinite dimensional Hilbert spaces Is the set of separable quantum states closed? — Rammus 17 mins ago

Have you seen Borel-Weil-Bott? — AHusain 4 mins ago

Yes, but one could still consider epsilon balls around the state. It seems like it is not the case though, apparently the set of entangled states is dense (w.r.t. the trace norm) in the set of quantum states on infinite dimensional bipartite systems -- Bipartite Mixed States of Infinite-Dimensional Systems are Generically Nonseparable. Thanks for the help! — Rammus 4 mins ago