The low frequency (LF) noise has been studied in n-channel triple-gate bulk fin Field-Effect Transistors (FinFETs), which are developed for one-transistor (1T) memory applications. Significant variation in the noise spectral density has been observed, which is related to the random occurrence of excess Lorentzian components, associated with generation–recombination (GR) noise. Both gate-voltage-dependent and gate-voltage-independent GR noise peaks have been found, which are assigned to gate oxide traps or traps in the silicon fins, respectively. In addition, excess noise in weak inversion has sometimes been observed and is ascribed to surface-roughness fluctuations. Overall, the gate oxide quality seems to be the major contributor to the LF noise and not the channel and source–drain engineering investigated here.