We produce gravitational waveforms for nonspinning compact binaries
undergoing a quasicircular inspiral. Our approach is based on a two-timescale
expansion of the Einstein equations in second-order self-force theory, which
allows first-principles waveform production in milliseconds. Although the
approach is designed for extreme mass ratios, our waveforms agree remarkably
well with those from full numerical relativity, even for comparable-mass
systems. Our results will be invaluable in accurately modelling
extreme-mass-ratio inspirals for the LISA mission and intermediate-mass-ratio
systems currently being observed by the LIGO-Virgo-KAGRA Collaboration