We have analyzed the far-ultraviolet (FUV) spectra of six elliptical and S0 galaxies in order to characterize their hot stellar populations. The spectra were obtained using the Hopkins Ultraviolet Telescope (HUT) in March 1995. These data, together with the spectra of two galaxies observed with HUT in 1990, represent the only FUV spectra of early type galaxies that extend to the Lyman limit at 912 A and therefore include the turnover in the spectral energy distribution below Lyman alpha. Using an extensive new grid of synthetic spectra which match the HUT resolution and cover the relevant parameter space of temperature and gravity, we have constructed synthetic spectral energy distributions by integrating over predicted stellar evolutionary tracks for horizontal branch stars and their progeny. When the models are compared with the HUT data, we find that those with supersolar metal abundances and helium best reproduce the flux across the entire HUT wavelength range, while those with subsolar Z & Y fit less well, partly because of a significant flux deficit shortward of 970 A in the models. We find that AGB-Manque evolution is required in all fits to the HUT spectra, suggesting that all of the galaxies have some subdwarf B star population. At any Z & Y, the models that best match the HUT flux are dominated by stars evolving from a narrow range of envelope mass on the blue end of the horizontal branch.