Pasqal and Kipu Quantum have successfully demonstrated Analog Counterdiabatic Quantum Computing (ACQC) on a 100-qubit neutral-atom processor, specifically Pasqal's Orion Alpha quantum processor. This breakthrough applies ACQC to the Maximum Independent Set (MIS) problem, a complex optimization challenge, on graphs with 15 and 27 nodes. The experimental results showcase the potential of ACQC in solving computationally demanding problems. By leveraging ACQC, the researchers achieved a significant milestone in quantum computing, paving the way for further advancements in optimization and simulation. The study's findings, published in npj Unconventional Computing1, underscore the rapid progress being made in quantum computing research. This development has significant implications for the field of cryptography, as quantum computing capabilities continue to expand. The successful demonstration of ACQC on a large-scale quantum processor matters to practitioners because it brings us closer to realizing the full potential of quantum computing in solving complex problems.