HIV vaccine development requires information on what stimulates an effective immune response. Determination of conditions allowing viral evasion from killing by cytotoxic T lymphocytes (CTLs) is needed in order to predict patterns of viral escape. The appearance of CTL escape mutants reported in the published data is not well approximated by deterministic models of viral escape. This finding motivated us to model viral escape as a stochastic process (taking into account viral parameters such as mutation rate, production rate, and the effect of CTL killing), fit the models with clinical data, and estimate kinetic parameters involved in escape. Our calculations may be used to provide estimates of the CTL pressure on HIV. Furthermore our results underscore fundamental immune mechanisms that may help design prophylactic and therapeutic HIV vaccines.