The compound secure groupcast problem is considered, where the key variables at $K$ receivers are designed so that a transmitter can securely groupcast a message to any $N$ out of the $K$ receivers through a noiseless broadcast channel. The metric is the information theoretic tradeoff between key storage $α$, i.e., the number of bits of the key variable per message bit, and broadcast bandwidth $β$, i.e., the number of bits of the broadcast information per message bit. We have three main results. First, when broadcast bandwidth is minimized, i.e., when $β= 1$, we show that the minimum key storage is $α= N$. Second, when key storage is minimized, i.e., when $α= 1$, we show that broadcast bandwidth $β= \min(N, K-N+1)$ is achievable and is optimal (minimum) if $N=2$ or $K-1$. Third, when $N=2$, the optimal key storage and broadcast bandwidth tradeoff is characterized as $α+β\geq 3, α\geq 1, β\geq 1$.