Automatic music transcription (AMT), one of the most important tasks in music information retrieval (MIR), has been seen as one of the most challenging field in signal processing because of its inherent complexity of signals. Among many of the AMT tasks, multi-instrument is one critical step for general transcription system, but yet a less investigated field. The requirement of identifying multiple instruments and the corresponding pitch in music performances, which consists of various timbres and rich harmonic information that could interfere with each other, making it a more advanced problem in comparison with the conventional single-instrument AMT problem. Despite the technical difficulties, to orchestrate different levels of the complex problem scopes, a clear definition of problem scenarios and efficient evaluation approaches are also needed. In this research, we propose a multi-instrument AMT approach, with a complete end-to-end flow from signal-level feature engineering to the final evaluation. Combined with signal processing techniques capable of specifying pitch saliency, novel deep learning methods, concepts inspired from multi-object recognition, instance segmentation, and image-to-image translation in computer vision, meanwhile being integrated with a newly developed post-processing algorithm, the proposed system is flexible and efficient for all the sub-tasks in multi-instrument AMT. Comprehensive evaluations on different sub-tasks have shown state-of-the-art performance, including the task of multi-instrument note tracking which has not been investigated before.