Backchannel Communications For Initialization of High-Speed Networks

What is claimed is: 1 . A network controller, comprising: modulation circuitry comprising: a high rate (HR) bit sequence generator configured to generate a first HR bit sequence, encoder circuitry configured to encode a first low rate (LR) bit stream at a low rate, the first LR bit stream comprising backchannel information, and modulation circuitry configured to modulate the encoded first low rate bit stream onto the first HR bit sequence to produce a first modulated HR bit sequence; and transmit circuitry configured to transmit the first modulated HR bit sequence to a link partner during a link initialization period, the link initialization period being a period during which the network controller and a link partner are configured to perform link initialization functions, the link initialization functions comprising establishing a link rate, exchanging link capabilities, adjusting equalizer settings, determining quality of equalization, or one or more combinations thereof. 2 . The network controller of claim 1 , wherein the encoder circuitry is configured to transition an output of the encoder circuitry based, at least in part, on a low rate bit in the LR bit stream. 3 . The network controller of claim 1 , further comprising: demodulation circuitry configured to receive a sequence of receiver bit decisions (RBDs) related to a received second modulated high rate (HR) bit sequence, the second modulated HR bit sequence comprising at least one of a true high rate bit (HRB) and at least one of a complemented HRB, the demodulation circuitry further configured to demodulate the second modulated HR bit sequence to recover a second low rate bit stream, based, at least in part, on detecting an existence or absence of a transition between RBDs corresponding to true HRBs and RBDs corresponding to complemented HRBs, the second low rate bit stream comprising backchannel information. 4 . The network controller of claim 3 , wherein the demodulation circuitry comprises: a true bit detector configured to determine whether each RBD corresponds to a true HRB based, at least in part, on a plurality of RBDs; an inverter configured to invert each RBD; a complemented bit detector configured to determine whether each RBD corresponds to a complemented HRB based, at least in part, on the plurality of inverted RBDs; first and second counter circuitry configured to provide a respective first count and second count related to a number of detected true HRBs and a number of detected complemented HRBs received in a time interval corresponding to the low rate; and decoder circuitry configured to recover each low rate bit (LRB) in the low rate bit stream based, at least in part, on a comparison of the first count and the second count. 5 . The network controller of claim 1 , further comprising an equalizer settings circuitry configured to utilize the modulated first HR bit sequence to adjust equalizer settings during the link initialization period. 6 . The network controller of claim 1 , further comprising: backchannel circuitry configured to provide backchannel information to the modulation circuitry, the backchannel information comprising at least one of backchannel commands and backchannel data configured to at least one of establish a link rate, exchange link capabilities, facilitate equalizer adjustment and determine quality of equalization during the link initialization period. 7 . A method, comprising: transmitting a first modulated high rate (HR) bit stream to a link partner, the first modulated HR bit stream comprising an encoded first low rate (LR) bit stream comprising first backchannel information modulated onto a first HR bit stream; and receiving a second modulated high rate (HR) bit stream from the link partner, the second modulated HR bit stream comprising a second HR bit stream modulated with a second LR bit stream that comprises second backchannel information. 8 . The method of claim 7 , further comprising: generating the first HR bit stream; encoding the first LR bit stream comprising first backchannel information at a low rate; and modulating the encoded first LR bit stream onto the first HR bit stream to form said first modulated HR bit stream. 9 . The method of claim 8 , further comprising transitioning an output of the encoding based at least in part on a low rate bit in the first LR bit stream. 10 . The method of claim 7 , further comprising: receiving a sequence of receiver bit decisions (RBDs) related to the received second modulated HR bit stream, the second modulated HR bit stream comprising at least one of a true high rate bit (HRB) and at least one of a complemented HRB; and demodulating the second modulated HR bit stream to recover the second LR bit stream, based, at least in part, on detecting an existence or absence of a transition between RBDs corresponding to true HRBs and RBDs corresponding to complemented HRBs. 11 . The method of claim 10 , wherein demodulating the second modulated HR bit stream comprises: determining whether each RBD corresponds to a true HRB based, at least in part, on a plurality of RBDs; inverting each RBD; determining whether each RBD corresponds to a complemented HRB based, at least in part, on the plurality of inverted RBDs; providing a respective first count and second count related to a number of detected true HRBs and a number of detected complemented HRBs received in a time interval corresponding to the low rate; and recovering each low rate bit (LRB) in the second LR bit stream based, at least in part, on a comparison of the first count and the second count. 12 . The method of claim 7 , further comprising utilizing the first modulated HR bit sequence to adjust equalizer settings during the link initialization period. 13 . The method of claim 7 , further comprising: providing said first backchannel information to modulation circuitry, the first backchannel information comprising at least one of backchannel commands and backchannel data configured to at least one of establish a link rate, exchange link capabilities, facilitate equalizer adjustment and determine quality of equalization during the link initialization period. 14 . A system comprising, one or more storage devices having stored thereon, individually or in combination, instructions that when executed by one or more processors result in performance of the following operations comprising: transmitting a first modulated high rate (HR) bit stream to a link partner, the first modulated HR bit stream comprising an encoded first low rate (LR) bit stream comprising first backchannel information modulated onto a first HR bit stream; and receiving a second modulated high rate (HR) bit stream from the link partner, the second modulated HR bit stream comprising a second HR bit stream modulated with a second LR bit stream that comprises second backchannel information. 15 . The system of claim 14 , wherein said instruction when executed by one or more processors further result in performance of the following operations comprising: generating the first HR bit stream; encoding the first LR bit stream comprising first backchannel information at a low rate; and modulating the encoded first LR bit stream onto the first HR bit stream to form said first modulated HR bit stream. 16 . The system of claim 15 , wherein said instruction when executed by one or more processors further result in performance of the following operations comprising: transitioning an output of the encoding based at least in part on a low rate bit in the first LR bit stream.