The star product of two smooth functions $f,g$ on $\mathbb R^{2n}$ can be defined as $ f\star g = \exp\left(-\omega^{ij} \frac{\partial}{\partial y^i} \frac{\partial}{\partial z^j}\right) f(y)g(z) \vert_{z=y}. $
where $\omega^{ij}$ are the components of a symplectic form. There is a similar formula for the Clifford product (where instead of derivatives there are interior products) when translated to the exterior algebra.
In both cases the product is associative and I've seen many references say that it is easy to check that the Moyal product is associative (directly, without appealing to a symbol map).
Unfortunately I do not see an easy way to check associativity. I was also wondering if this sort of product is a standard thing, considering that I've seen it in two contexts (though I guess they are very much related as the Clifford algebra is a deformation of the exterior algebra and the Moyal product gives a deformation quantization of $\mathbb R^{2n}$).
Thanks.