P PT. LG Electronics Indonesia is a company engaged in the manufacture of electronic assembling various types of electronic goods, one of which is the home theater. Home Theater products will be the research object of this final thesis because the percentage of disability due to a larger home theater products compared to other products, as well as Home Theatre percentage of the assembly process is still higher than the maximum percentage of disability which has been set by the company. This study aims to identify the factors that cause failure in the assembly process and deliver suggestion to handling the failure process using Multi Attribute Failure Mode Analysis (MAFMA) method with Fuzzy Fuzzy Analytic Hierarchy Process (AHP) approach. MAFMA method is one of the method used to eliminate the failure. Early stages of product assembly begins by determining the highest percentage of failures. Having obtained, the result for highest failure rate of products is home theater products, afterwards define the position of the occurrence of defects, defect type and contributing factors. Then calculate the weight between the assessment criteria with Fuzzy AHP method. Started by transforming the matrix of pairwise comparisons between questionnaire criteria into numeric values, determining the eigenvalues between the criteria, determine the value of CR among the criteria, the normalization of FN among the criteria so that we can obtain the weighting between the criteria. The next stage is to perform the calculation of weighting factors between the expected cost of failure criteria with Fuzzy AHP method. Starting with the transform the questionnaires result of paired matrix comparison results of each expected cost of failure factor according to the criteria of a numeric value, determining the eigenvalues between alternatives, determine the value of CR between the alternative, normalization between the FN alternative to obtainquality between the alternatives. The next stage is to set the FMEA score of each failure factor according to the criteria of S, 0, Dby calculating the weight of each factor according to the criteria of the failure of S, 0, D in order to obtain the most dominant factor causing the failure. In conclusion, the most dominant failure factor in the product assembly process is the damage assembly component factor equal to 29.5%.