Partially disjoint equalization and carrier recovery

What is claimed is: 1. An apparatus in a signal receiver for providing feedback to an adaptive equalizer of the signal receiver, the apparatus comprising: an initial carrier recovery component configured to generate a carrier recovery output based on equalized output received from the adaptive equalizer and an estimate of frequency components of a received signal; a phase rotation and detection component configured to receive the equalized output from the adaptive equalizer and to detect symbols carried in the received signal based on the equalized output following a phase rotation performed on the equalized output, the phase rotation performed based on the carrier recovery output generated by the initial carrier recovery component, the phase rotation and detection component configured to provide the detected symbols for feedback directly or indirectly to the adaptive equalizer; and a fine carrier recovery component separate from the initial carrier recovery component and the phase rotation and detection component, wherein the phase rotation and detection component is configured to provide the equalized output following the phase rotation as symbol input to the fine carrier recovery component. 2. The apparatus of claim 1 , wherein the initial carrier recovery component is further configured to: generate an initial estimate of phase offset in the received signal based on the equalized output; generate an integral of frequency offset in the received signal based on the estimate of frequency of components of the received signal; and generate the carrier recovery output based on the initial estimate of phase offset and the integral of frequency offset. 3. The apparatus of claim 2 , wherein generating the integral of frequency offset comprises integrating the estimate of frequency components using a ramp function. 4. The apparatus of claim 2 , wherein generating the carrier recovery output comprises operating a numerically controlled oscillator based on the initial estimate of phase offset and the integral of frequency offset. 5. The apparatus of claim 1 , wherein the phase rotation and detection component is further configured to: perform the phase rotation on the equalized output; provide a detector output indicative of the detected symbols; and perform a phase de-rotation on the detector output, the phase de-rotation opposing the phase rotation and performed based on the carrier recovery output of the initial carrier recovery component, the phase de-rotated detector output fed back to the adaptive equalizer as the detected symbols. 6. The apparatus of claim 1 , wherein the estimate of frequency components is received from another component of the signal receiver. 7. The apparatus of claim 6 , wherein the other component of the signal receiver is the fine carrier recovery component, the fine carrier recovery component configured to provide estimates of symbols carried in the received signal based on the equalized output, wherein the fine carrier recovery component is partially or fully disjoint from the initial carrier recovery component and the phase rotation and detection component. 8. The apparatus of claim 7 , further configured to provide an estimate of phase offsets in the received signal to the fine carrier recovery component. 9. The apparatus of claim 1 , wherein the apparatus operates on plural data inputs in parallel. 10. The apparatus of claim 1 , wherein the equalized output comprises a first number N of symbols in parallel, the initial carrier recovery component and the phase rotation and detection component are configured to operate on all of the N symbols in parallel, and the fine carrier recovery component is configured to operate on a second number M of the N symbols in parallel, wherein M is less than N. 11. The apparatus of claim 1 , wherein the equalized output comprises a first number N of symbols in parallel, the initial carrier recovery component and the phase rotation and detection component are configured to operate on all of the N symbols in parallel, and the fine carrier recovery component is configured to operate serially on the N symbols. 12. A method for operating a signal receiver, comprising: by an initial carrier recovery component, generating a carrier recovery output based on: equalized output received from an adaptive equalizer of the signal receiver, and an estimate of frequency components of a received signal; by a phase rotation and detection component: receiving the equalized output from the adaptive equalizer; performing a phase rotation on the equalized output, based on the carrier recovery output generated by the initial carrier recovery component; detecting symbols carried in the received signal based on the equalized output following the phase rotation; feeding back the detected symbols directly or indirectly to the adaptive equalizer; and providing the equalized output following the phase rotation as symbol input to a fine carrier recovery component, wherein the fine carrier recovery is component separate from the initial carrier recovery component and the phase rotation and detection component. 13. The method of claim 12 , further comprising, by the initial carrier recovery component: generating an initial estimate of phase offset in the received signal based on the equalized output; generating an integral of frequency offset in the received signal based on the estimate of frequency of components of the received signal; and generating the carrier recovery output based on the initial estimate of phase offset and the integral of frequency offset. 14. The method of claim 12 , further comprising, by the phase rotation and detection component: performing the phase rotation on the equalized output; providing a detector output indicative of the detected symbols; performing a phase de-rotation on the detector output, the phase de-rotation opposing the phase rotation and performed based on the carrier recovery output of the initial carrier recovery component; and feeding back the phase de-rotated detector output to the adaptive equalizer as the detected symbols. 15. The method of claim 12 , wherein the estimate of frequency components is received from the fine carrier recovery component, the fine carrier recovery component configured to provide estimates of symbols carried in the received signal based on the equalized output, wherein the fine carrier recovery component is partially or fully disjoint from the initial carrier recovery component and the phase rotation and detection component. 16. The method of claim 15 , further comprising providing an estimate of phase offsets in the received signal to the fine carrier recovery component. 17. The method of claim 12 , further comprising operating on plural data inputs in parallel by one or both of the initial carrier recovery component and the phase rotation and detection component. 18. The method of claim 12 , wherein the equalized output comprises a first number N of symbols in parallel, and wherein generating the carrier recovery output, performing the phase rotation, detecting the symbols, and feeding back the detected symbols comprise operating on all of the N symbols in parallel, and wherein the fine carrier recovery component is configured to operate on a second number M of the N symbols in parallel, wherein M is less than N. 19. The method of claim 12 , wherein the equalized output comprises a first number N of symbols in parallel, and wherein generating the carrier recovery output, performing the phase rotation, detectin