In recent years, breast cancer has become one of the most common diseases in women. Through early detection, diagnosis, and treatment, the mortality rate could be significantly improved. In breast cancer examination, the Automated Breast Ultrasound System (ABUS) was gradually adopted for breast cancer examination because it could provide complete information by recording the whole breast in the three-dimensional (3-D) image. However, even the experienced physician might be susceptible to the shape and internal texture of the tumor while reviewing ABUS images and misjudged the lesion. To solve this problem, the computer-aided diagnosis (CADx) system based on a convolutional neural network (CNN) was provided. In this study, a CADx system consisting of a 3-D tumor segmentation model and a 3-D tumor classification model was proposed for tumor diagnosis. First, the tumor region with texture information was extracted from the original ABUS image. Then, tumor masks containing shape information were generated by the 3-D tumor segmentation model, which fused the residual block and the U-net++. Finally, the tumor region and the corresponding tumor mask were both fed into our tumor classification model to extract the shape and texture feature maps for determining the tumor as benign or malignant. In our tumor classification model, the bottleneck block from ResNeXt with the octave convolution and the squeeze-and-excitation module was used as a basic structure to construct our model. In experiments, a total of 403 tumors, including 199 benign tumors and 204 malignant tumors, were used in this study to evaluate the proposed system performance. The experimental results showed that the proposed system could achieve 88.6% accuracy, 90.6% in sensitivity, 86.9% in specificity, and 0.9333 in the area under the ROC curve. Such performance was clinically the same as that of a doctor with three years of ABUS experience, showing that the proposed system had sufficient ability to predict tumors as benign or malignant.