Partial response decision feedback equalizer with selection circuitry having hold state

We claim: 1. An integrated circuit comprising: a receiver including at least first and second comparators operable to compare an input signal representing a sequence of symbols against respective partial response thresholds and to respectively generate first and second comparator outputs; selection circuitry operable to (a) select between the first comparator output and a first resolved symbol according to a first timing signal, (b) select between the second comparator output and the first resolved symbol according to the first timing signal, to produce respective first and second selection outputs, and (c) select between the first and second selection outputs according to a selection signal and to output the first or second selection output as the first resolved symbol; wherein the selection signal is dependent on a prior resolved symbol that precedes the first resolved symbol in the sequence of symbols. 2. The integrated circuit according to claim 1 wherein the first timing signal is independent of any prior resolved symbols. 3. The integrated circuit according to claim 2 wherein the selection circuitry comprises first and second selection stages, and wherein the second selection stage exhibits a hold state based on a state of the first timing signal. 4. The integrated circuit according to claim 3 wherein the first timing signal comprises a first clock signal. 5. The integrated circuit according to claim 4 wherein the receiver samples according to the first clock signal. 6. The integrated circuit according to claim 1 wherein the respective thresholds each represent a level of partial response compensation to apply based on a respective state of a prior symbol. 7. An integrated circuit comprising: receiver circuitry operable to receive data and to generate one or more sets of samples at corresponding sampler outputs in response to one or more clock signals; selection circuitry operable to (a) alternately select between a first sampler circuit output and a prior resolved data signal according to a first timing signal, the selection comprising a first output, (b) alternately select between a second sampler circuit output and the prior resolved data signal according to the first timing signal, the selection comprising a second output, (c) select between the first and second output to generate a third output that represents a signal with a given state responsive to a selection signal; and wherein the selections for (a) and (b) are constrained to both select the prior resolved data signal before the third output changes state. 8. The integrated circuit of claim 7 wherein the receiver circuitry includes: comparator circuitry having a data input and a threshold input, the threshold input representing a level of partial response compensation to apply to a given output signal based on the state of a prior data value. 9. The integrated circuit of claim 8 wherein the input signal corresponds to a single data rate, and where the integrated circuit further comprises: a latch operable to receive the third output and to output the prior resolved data signal; and a feedback path operable to provide the prior resolved data signal as the selection signal. 10. The integrated circuit of claim 7 wherein the receiver circuitry generates first and second sets of samples at a double data rate in response to first and second clock signals having different phases, the receiver circuitry comprising: first and second pairs of comparators, each comparator having a first input to receive the data and a second input to receive one of a positive or negative partial response threshold value for comparison to the received data, each comparator to generate a respective conditional sample based on the comparison, the respective conditional samples forming one set of the one or more sets of samples. 11. The integrated circuit of claim 7 wherein the timing signal is generated by a clock circuit and comprises a clock signal, the selection circuitry controlled to select the first and second sampler circuit outputs when the clock signal is in a first state, and controlled to select the prior resolved data signal when the clock signal is in a second state. 12. The integrated circuit of claim 11 wherein the selection signal is generated as an output from a storage circuit, the selection signal comprising a second prior resolved data signal. 13. The integrated circuit of claim 7 wherein the receiver circuitry comprises: four pairs of comparators operable to sample the data at a quad-data-rate to generate four sets of samples in response to respective clock signals having different phases. 14. A method of operation in a receiver integrated circuit, the method comprising: receiving data with a receiver including first and second comparators; generating one or more sets of samples with the first and second comparators from the received data at corresponding sampler outputs in response to one or more clock signals; (a) alternately selecting, with selection circuitry, between a first sampler circuit output and a prior resolved data signal according to a first timing signal, the selection comprising a first output; (b) alternately selecting, with the selection circuitry, between a second sampler circuit output and the prior resolved data signal according to the first timing signal, the selection comprising a second output; (c) selecting, with the selection circuitry, between the first and second output to generate a third output that represents a signal with a given state responsive to a selection signal; and constraining the selections for (a) and (b) to both select the prior resolved data signal before the third output changes state. 15. The method according to claim 14 and further comprising: providing the first timing signal independently from any prior resolved symbols. 16. The method according to claim 14 wherein the alternately selecting according to the first timing signal in (a) and (b) comprises: holding the given state of the third output based on a state of the first timing signal. 17. The method according to claim 16 wherein the received data comprises a sequence of symbols, and the selection signal is dependent on a prior resolved symbol that immediately precedes a first resolved symbol in the sequence of symbols. 18. The method according to claim 14 wherein generating one or more sets of samples is carried out at a double data rate in response to respective first and second clocks that are offset by 180 degrees in phase. 19. The method according to claim 14 wherein generating one or more sets of samples is carried out at a quad data rate in response to respective first, second, third and fourth clocks offset by 90 degrees in phase. 20. The method according to claim 14 wherein generating one or more sets of samples comprises: comparing the received data against multiple threshold values representing respective levels of compensation to apply to a given output signal based on respective states of a prior data symbol.