Apparatus and method of compensating for compact digital domain chromatic dispersion

What is claimed is: 1. A digital signal processor utilized in a fiber optic communication system, the digital signal processor comprising: at least one integrated circuit coupled to at least one memory, the at least one integrated circuit configured to: compensate for chromatic dispersion of the fiber optic communication by executing a digital filter function, wherein the digital filter function includes an operation of multiplying a signal value received by the digital signal processor by a filter coefficient that is approximated to a circular plot on a complex plane of coefficients to produce a multiplication result that recurs at least three times to be usable at least three different times during the execution of the digital filter function to compensate for the chromatic dispersion. 2. The digital signal processor of claim 1 , wherein the digital filter function is a finite impulse response (FIR) filter function. 3. The digital signal processor of claim 2 , wherein: the multiplication result is stored in a look-up table in the at least one memory when the operation of multiplying is executed; and the multiplication result is drawn from the look-up table to be used for the at least three different times in the FIR filter function. 4. The digital signal processor of claim 2 , wherein the multiplication result is fanned out to one or more locations in the digital signal processor to be used for different terms in the FIR filter function. 5. The digital signal processor of claim 1 , wherein a frequency response associated with the digital filter function is substantially similar to an apodized version of a chromatic dispersion transfer function to compensate for the chromatic dispersion. 6. A method of compensating for chromatic dispersion experienced by an optical signal propagating through a fiber optic transmission system, said method acting on a discrete-time representation of the optical signal with a digital filter operation, the method comprising: performing by at least one integrated circuit implementing the digital filter operation: multiplying a signal value received for the digital filter operation by a filter coefficient that is approximated to a circular plot on a complex plane of coefficients to obtain a multiplication result that recurs at least three times to be usable as at least three different multiplication terms during execution of the digital filter function to perform compensation for chromatic dispersion; and using the multiplication result as a value of the at least three different multiplication terms in the digital filter operation for the compensation for chromatic dispersion. 7. The method of claim 6 , wherein the using the multiplication result as the value of the at least three different multiplication terms in the digital filter operation further comprises: writing the multiplication result to a look-up table in at least one memory coupled to the at least one integrated circuit; and retrieving the multiplication result from the look-up table to be used as the value of the at least three different multiplication terms in the digital filter operation. 8. The method of claim 6 , further comprising: calculating an inverse Fourier transform of an apodized version of a chromatic dispersion transfer function for the compensation for the chromatic dispersion; and to approximate the filter coefficient, setting feedforward digital filter coefficients to be approximately equal to the inverse Fourier transform values.