Multipartite entanglement has been identified as a crucial component in achieving pseudotelepathy, a phenomenon that enables parties to coordinate their actions without direct communication. This concept, first recognized by Schrödinger in 1935, is a fundamental aspect of quantum mechanics that distinguishes it from classical physics1. Researchers have been exploring the potential of multipartite entanglement to enhance quantum information processing, including quantum computing and quantum teleportation. By harnessing the power of entanglement, parties can perform tasks that would be impossible classically, such as coordinating their actions without exchanging information. The study of multipartite entanglement and its applications has significant implications for the development of quantum technologies. So what matters to practitioners is that understanding the role of multipartite entanglement in pseudotelepathy can inform the design of more efficient quantum protocols and algorithms.