study of Pt or Ir atoms and clusters diffusion on Pt surfaces Using the field ion microscope in ultra high vacuum, we observe directly the diffusion behavior of Pt or Ir atoms on Pt surfaces. After annealing at 135K, single Pt occupies at FCC site exclusively on Pt(111). This phenomenon is decided by the apex of the image triangle. By site mapping, we analyze how many steps Pt diffuses, and then put the mean square displacements into the Boltzmann distribution. The diffusion activation energy of Pt on Pt(111) is 0.33±0.01 eV. According to the frequency of Pt occupation at FCC (HCP) site, the binding energy of Pt at FCC site is 0.04 eV greater than HCP site at least. The probability of Ir7 on Pt(111) as close-packed hexagon is 35/40. During 40 diffusion events, we get the diffusion activation energy of Ir7 on Pt(111) is 1.41±0.03 eV. Comparing Ir7/Pt(111) with Pt7/Pt(111)[3], Ir7 on Pt(111) has greater diffusion energy than Pt7 on the same substrate. Comparing Ir7/Pt(111) with Ir7/Ir(111)[6], Ir7 on Ir(111) has greater diffusion activation energy than on Pt(111). Finally, We discuss the factors of the diffusion activation energy, including the binding energy of the adsorbed clusters, and the interaction between the adsorbed clusters and the substrate.