This paper is a continuation of the paper Kakihara, Ohara and Tsuchiya by the authors where they demonstrated that the number of iterations of Mizuno-Todd-Ye predictor-corrector primal-dual interior-point methods for SDP and more generally symmetric cone programs is (asymptotically) expressed with an integral over the central trajectory called “curvature integral.” It was shown that the number of the iterations of the algorithm is approximated surprisingly well with the integral for fairly large problems of LP and SDP with thousands of variables. In this paper, we demonstrate that the curvature integral admits a rigorous differential geometric expression in view of information geometry. Our result is a direct extension of Ohara and Tsuchiya in linear programming to SDP and symmetric cone programs, using the results for curvature integrals of primal-dual algorithms in SDP and symmetric cone programs in Kakihara, Ohara and Tsuchiya. Together with the numerical evidence in that paper, we claim that the number of iterations of the interior-point algorithm is expressed as a differential geometric quantity.