This　paper　addresses　a　fault-tolerant　intermittent　control　for　parabolic　partial　differential　equation　(PDE)　system　with　Markov　jumping　parameters　(MJPs).　Firstly,　the　fault-tolerant　intermittent　control　strategy　is　presented　by　the　linear　matrix　inequalities　(LMIs)　based　on　an　appropriate　Lyapunov　function,　which　can　ensure　the　stochastically　exponential　stability　of　closed-loop　Markov　jumping　parabolic　PDE　system.　Then,　the　fault-tolerant　intermittent　control　problem　for　Markov　jumping　parabolic　PDE　system　is　expressed　as　an　LMI　feasibility　problem.　Finally,　two　numerical　examples　are　given　to　illustrate　the　effectiveness　of　the　proposed　method.　©　2024　IEEE.