The objective of this study is to model the mean and seasonal mass transport of the Pacific to Indian Ocean throughflow using variable-grid global Ocean General Circulation Model (OGCM) with fine grid (1°/6) covering the area from 20°S to 60°N and from 98°E to 156°E. The computations show that Indonesian Throughflow (ITF) mass transport, computed as a sum of through-strait transport, has maximum transport in Sept.(17.5Sv) and minimum transport in Jan.(9.5Sv). The annual mean ITF transport amounts to 14.5Sv. Twenty-two percent of this transport passes through Lombok Strait. Sixty-five percent of this transport passes through Timor Passage. Semi-annual variability is apparent in Lombok and Ombai Straits while annual variability is apparent in Timor Passage. The objective of this study is to model the mean and seasonal mass transport of the Pacific to Indian Ocean throughflow using variable-grid global Ocean General Circulation Model (OGCM) with fine grid (1 ° / 6) covering the area from 20 ° S to The computations show that Indonesian Throughflow (ITF) mass transport, computed as a sum of through-strait transport, has maximum transport in Sept. (17.5Sv) and minimum transport in Jan Twenty-two percent of this transport passes through Lombok Strait. Sixty-five percent of this transport passes through Timor Passage. Semi-annual variability is apparent in Lombok and Ombai. (9.5Sv). The annual mean ITF transport amounts to 14.5Sv. Straits while annual variability is apparent in Timor Passage.