This paper develops an optimization model and methodology to support tactic
al planning in a high mix, low volume electronics assembly environment. The
model assigns product families to parallel surface mount assembly lines to
minimize setup cost on the placement machines while ensuring that the faci
lities are not overloaded. To capture the impact of product assignment deci
sions on setup cost, we consider a partial setup policy of mounting some co
mponents permanently on each placement machine and loading other components
as needed for each product. We formulate the tactical planning problem as
an integer program, and show that even the special case of minimizing the s
etup cost on a single placement machine, for a given assignment of products
, is NP-hard. Our solution method for the general problem, based on column
generation, provides both heuristic solutions and lower bounds. Two subprob
lems that we solve-a product selection subproblem and a setup optimization
subproblem-might be independently useful for short-term production planning
. Computational experience shows that the approach is effective, providing
solutions that are within 1.5% of optimality on average and reducing setup
costs considerably compared to a complete setup policy.