In this paper, we describe a numerical method for the calculation of collective diffusion relaxation mechanisms in quenched block copolymer melts. The method entails the repeated calculation of two opposing fields-an external potential field U, conjugate to the density field rho, and an energetic interaction field E. The external field is calculated by numerical inversion of the density functionals and the energetic interaction field is calculated directly by integration over the density field. When the two fields are balanced U = E, we recover the self-consistent field solutions; when the two fields are off balance, the spatial gradient of E-U is the thermodynamic force which drives the collective diffusion. We introduce a simple local cou...