Atiyah-Hitchin-Singer [Ref 1](https://www.jstor.org/stable/79638?seq=1#metadata_info_tab_contents) states that the number of 
**virtual dimensions** of the instanton moduli space
for SU(N) Yang-Mills theory with topological charge $\mathcal{Q}$ over a manifold $X$ is given by
$$
D=4N \mathcal{Q} - (N^2-1)\frac{\chi(X) + \sigma(X)}{2} \;,
$$
where $\chi$ and $\sigma$ are the Euler number and the signature of the 4-manifold $X$.

>Questions:

1.  If I understand correctly, the **virtual dimensions** coincide with the actual **dimensions for irreducible solutions** when the gauge group is completely broken by the solutions. What is the *virtual dimension* precisely of the instanton moduli space? 

2. If I understand correctly, $\mathcal{Q}$ shall be related to the Pontryagin class $p_1(E)$? (in p.428 or in p.431)
$$
\mathcal{Q} \sim  p_1(E) = -\frac{1}{ 4 \pi^2}\int \text{tr}(\Omega^2)=
\frac{1}{ 4 \pi^2}\int |\Omega|^2 \omega,
$$
where $\Omega$ is the curvature 2-form and $\omega$ is the volume form?

3. How to digest this dimension equality $
D=4N \mathcal{Q} - (N^2-1)\frac{\chi(X) + \sigma(X)}{2}$?

(1) Can $D=0$?

(2) $\chi(X) + \sigma(X)$ must be an even integer, for the $D$ to be an integer.

(3) Since $D \geq 0$, and the integer $D \in \mathbb{N}$, we have
$$4N \mathcal{Q} > (N^2-1)\frac{\chi(X) + \sigma(X)}{2}$$
always. Why is this true intuitively? How do we see that increasing the $\frac{\chi(X) + \sigma(X)}{2}$, we obtain a smaller $D$?

[Ref 1: M. F. Atiyah, N. J. Hitchin, and I. M. Singer, Selfduality in Four-Dimensional Riemannian Geometry, Proc. Roy. Soc. Lond. A362 (1978) 425–461.](https://www.jstor.org/stable/79638?seq=1#metadata_info_tab_contents)