In this paper we consider a retail service facility with cross-trained workers who can perform operations in both the front room and back room. Workers are brought from the back room to the front room and vice versa depending on the number of customers in the system. A loss of productivity occurs when a worker returns to the back room. Two problems are studied. In the first problem,given the number of workers available,we determine an optimal deterministic switching policy so that the expected number of customers in queue is minimized subject to a constraint ensuring that there is a sufficient workforce to fulfill the functions in the back room. In the second problem,the number of workers needed is minimized subject to an additional constraint requiring that the expected number of customers waiting in queue is bounded above by a given threshold value. Exact solution procedures are developed and illustrative numerical examples are presented. In this paper we consider a retail service facility with cross-trained workers who both perform operations in both the front room and back room. Workers are brought from the back room to the front room and vice versa depending on the number of customers in the system . A loss of productivity occurs when a worker returns to the back room. Two problems are studied. In the first problem, given the number of workers available, we determine an optimal deterministic switching policy so that the expected number of customers in queue is minimized subject to a constraint that there is a sufficient workforce to fulfill the functions in the back room. In the second problem, the number of workers needed to minimize the subject in an additional constraint requiring the expected number of customers waiting in queue is bounded above by a given threshold value. Exact solution procedures are developed and illustrative numbers are presented.