Abstract Real world data often have a long-tailed and open-ended distribution. A practical recognition system must classify among majority and minority classes, generalize from a few known instances, and acknowledge novelty upon a never seen instance. We defifine Open Long-Tailed Recognition (OLTR) as learning from such naturally distributed data and optimizing the classifification accuracy over a balanced test set which include head, tail, and open classes. OLTR must handle imbalanced classifification, few-shot learning, and open-set recognition in one integrated algorithm, whereas existing classifification approaches focus only on one aspect and deliver poorly over the entire class spectrum. The key challenges are how to share visual knowledge between head and tail classes and how to reduce confusion between tail and open classes. We develop an integrated OLTR algorithm that maps an image to a feature space such that visual concepts can easily relate to each other based on a learned metric that respects the closed-world classifification while acknowledging the novelty of the open world. Our so-called dynamic metaembedding combines a direct image feature and an associated memory feature, with the feature norm indicating the familiarity to known classes. On three large-scale OLTR datasets we curate from object-centric ImageNet, scenecentric Places, and face-centric MS1M data, our method consistently outperforms the state-of-the-art. Our code, datasets, and models enable future OLTR research and are publicly available at https://liuziwei7.github. io/projects/LongTail.html.