Heightened protection from infectious disease as conferred by vaccination or pathogen exposure relies on the effective generation and preservation of specific immunological memory. T cells are irreducibly required for the control of most viral infections, and maintenance of CD8⁺T cell memory is regulated by at least two cytokines, IL-7 and IL-15, which support survival (IL-7, IL-15) and basal homeostatic proliferation (IL-15) of specific CD8⁺ memory T cells (T_M). In contrast, the factors governing the homeostasis of pathogen-specific CD4⁺T_M remain at present unknown. Here, we used a physiologic in vivo model system for viral infection to delineate homeostatic features and mechanisms of antiviral CD4⁺T_M preservation in direct juxtaposition to CD8⁺T cell memory. Basal homeostatic proliferation is comparable between specific CD4⁺ and CD8⁺T_M and independent of immunodominant determinants and functional avidities but regulated in a tissue-specific fashion. IL-7, identified as the dominant cytokine, and IL-15, an accessory cytokine, regulate basal homeostatic proliferation and survival of antiviral CD4⁺T_M. Interestingly, a role for these cytokines in regulation of CD4⁺T cell memory is not readily discernible in the generic “memory-phenotype” population, apparently a consequence of its heterogeneous composition. We also describe a prominent, nonredundant role for IL-7 in supporting basal homeostatic proliferation of CD8⁺T_M. We propose that homeostatic control of antiviral CD4⁺ and CD8⁺ T cell memory is fundamentally similar and characterized by quantitative, rather than qualitative, differences.