In this paper the workspace optimization of translational 3-UPU parallel platforms with prismatic and universal joint constraints is performed. The workspace is parameterized using two design parameters, which are the prismatic joint stroke and the difference between the distances of the center to one of the corners of the triangular plate of the base and of the moving platform. For a large range of values for these design parameters the workspace of the corresponding 3-UPU platforms is calculated. This workspace is called in this paper the constrained workspace to distinguish it from the unconstrained workspace where no joint constraints are considered. For the constrained workspace of each design three performance indices are calculated: a) the workspace volume; b) the average of the inverse of the condition number and c) a Global Condition Index which is a combination of the other two performance indices. Plots of each performance index as a function of the two design parameters ar...