In many Digital Signal Processing (DSP) modules, increasing the number of pipelining stages to achieve higher throughput may break the module functionality if a feedback-loop exists in the algorithm. This paper addresses a novel algorithmic-level technique to modify implementation of feedback loops to allow deeper pipelining while sustaining the module functionality. An equivalent model for a first-order Infinite Impulse Response (IIR) filter can be obtained by a cascade model including a higher order repeated-pole IIR filter followed by a Finite Impulse Response (FIR) filter. The order of the repeated-pole IIR filters, and hence the number of pipelining stages can be chosen to meet the Fmax requirements. The model is further developed to include a class of mathematical recursive functions to cover many different DSP applications.