Periodic nonuniform holding introduces image replicas in the output spectrum of digital-to-analog converters (DACs). The image replicas appear in the frequency band of interest from 0 to f s /2, and cannot be filtered out by an analog filter, thus degrading the DAC's spurious free dynamic range (SFDR). In this paper, we considered the image replica in the frequency band [0, f s /2] for DACs with two-periodic nonuniform holding and proposed a pre-filtering correction technique. The proposed technique does not require explicit measurement of the timing errors in the nonuniform holding. Instead, the DAC was calibrated on a dense frequency grid to measure the parameters needed for filter design. Compared to other existing calibration methods, our method does not place stringent requirements on the measuring hardware and the calibration results are not affected by the channel response between the DAC and the measuring hardware. In our simulated example, the proposed technique was able to demonstrate a 35 dB SFDR improvement.