The exhaustive search for macroblock mode decision in the working draft of scalable video coding extension of AVC/H.264 achieves theoretically optimal coding efficiency. However, it also accompanies high computation complexity. For scalable video coding, how to reduce the heavy computation load while there is minor bit-rate increase and PSNR loss is a critical issue for realizing such technology in the consumer electronics.Motivated by this, we present a fast mode decision algorithm for scalable video coding by exploring the correlation of MB modes between layers. Our algorithm is applied to multiple spatial and CGS layers. Additionally, we design a motion attention model (MAM) based on the considerations of the psychovisual issue. This model can be optionally combined with our proposed fast algorithm so that it not only saves the encoding time but also retains the visual quality. Experiments conducted by JSVM8.10 exhibit that the proposed fast algorithm without the MAM saves 66% to 68% encoding time in the acceptable range of PSNR loss and bit-rate increase. Moreover, the proposed fast algorithm incorporating the MAM saves 50% to 57% encoding time. The subjective visual test shows that the better visual quality compared with the proposed fast algorithm.