All of the following ${p_{i},q_{i},k_{i}}are prime numbers, ${n_{i},m_{i}}$ are pre-assigned integers. Consider the product of cyclic groups $\prod_{1}^{n} \mathbb Z_{p_{i}^{n_{i}}}$ then we asked the question:

How many subgroups of order $\prod_{1}^{n} p_{i}^{m_{i}}$ are there in the finite product of cyclic group?$(m_{i} \leqslant n_{i})$

For the initial problem, it's relatively easier,

How many subgroups of order $2^k$ in the product $\mathbb Z_{2^p} \times > \mathbb Z_{2^q}$? $(k \leqslant p \times q)$

It's not considered as a homework problem, I guess. Back ground My tutor once stated this problem as some simple application of Sylow Thm and found herself stuck there...