Data rate and transmit power adjustments for data transmission over an ethernet link based on detected crosstalk

We claim: 1. A method of operating an Ethernet transceiver disposed at one end of a link, the link located proximate to neighboring links, the method comprising: transmitting first data at a first transmit power level and first data rate to a link partner during a data transfer interval; detecting feedback during the data transfer interval, the feedback being indicative of crosstalk between the link and one or more of the neighboring links due to the transmitting; adjusting the first data rate and/or first transmit power level to an adjusted second data rate and/or second transmit power level based on the feedback; and transmitting second data utilizing the adjusted second data rate and/or transmit power level. 2. The method according to claim 1 , further comprising prior to the transmitting, detecting background crosstalk between the link and one or more of the neighboring links during a non-data-transfer interval to determine the background crosstalk, wherein the feedback is indicative of the background crosstalk between the link and one or more of the neighboring links in addition to the background crosstalk. 3. The method of claim 2 , wherein the transmitting first data at the first transmit power level and the first data rate further comprises initially setting the first transmit power level to a maximum power level and the first data rate to a maximum data rate. 4. The method of claim 3 , wherein the adjusting comprises: comparing the feedback to the background crosstalk; and reducing the first data rate and/or the first transmit power level based on the comparing. 5. The method of claim 4 , wherein the comparing and reducing further comprises iteratively adjusting the first data rate and/or the first transmit power level based on iterative comparisons of iteratively obtained feedback to the background crosstalk. 6. The method of claim 2 , wherein the transmitting first data at the first transmit power level and the first data rate further comprises initially setting the first transmit power level to a minimum power level and the first data rate to a minimum data rate. 7. The method of claim 6 , wherein the adjusting comprises: comparing the feedback to the background crosstalk; and increasing the first data rate and/or first transmit power level based on the comparing. 8. The method of claim 1 , wherein the detecting of the feedback comprises detecting a signal indicative of alien crosstalk generated between the link and one or more of the neighboring links in response to the transmitting. 9. The method of claim 8 , wherein the detecting of the feedback comprises detecting a signal corresponding to a retraining sequence being carried out by the one or more of the neighboring links in response to the transmitting. 10. An Ethernet transceiver, comprising: transmit circuitry configured to transmit first data at a first transmit power level and first data rate over a link to a link partner during a data transfer interval, the link being disposed in proximate location to neighboring Ethernet links; detection circuitry configured to detect feedback during the data transfer interval, the feedback being indicative of crosstalk between the link and one or more of the neighboring Ethernet links due to the transmitting of the first data; and control circuitry configured to adjust the first data rate and/or first transmit power level to an adjusted second data rate and/or second transmit power level based on the feedback and to configure the transmit circuitry to transmit second data utilizing the adjusted second data rate and/or transmit power level. 11. The Ethernet transceiver according to claim 10 , wherein: the detection circuitry is configured to detect background crosstalk between the link and one or more of the neighboring Ethernet links during a non-data-transfer interval to determine the background crosstalk; and the feedback is indicative of crosstalk between the link and one or more of the neighboring Ethernet links in addition to the background crosstalk. 12. The Ethernet transceiver according to claim 11 , wherein the control circuitry is configured to initially set the first transmit power level and the first data rate to respective maximum power and data rate values. 13. The Ethernet transceiver according to claim 12 , wherein: the control circuitry further comprises comparison circuitry configured to compare the feedback to the background crosstalk and to generate a comparison value; and the control circuitry is configured to reduce the first data rate and/or first transmit power level based on the comparison value. 14. The Ethernet transceiver according to claim 11 , wherein the control circuitry is configured to initially set the first transmit power level and the first data rate to respective minimum power and data rate values. 15. The Ethernet transceiver according to claim 14 , wherein; the control circuitry further comprises comparison circuitry configured to compare the feedback to the background crosstalk and to generate a comparison value; and the control circuitry is configured to increase the first data rate and/or first transmit power level based on the comparison value. 16. A network switch, comprising: multiple Ethernet ports for coupling to respective multiple neighboring links, ones of the multiple Ethernet ports including: transmit circuitry configured to transmit first data at a first transmit power level and first data rate over a link to a link partner during a data transfer interval; detection circuitry configured to detect feedback during the data transfer interval, the feedback being indicative of crosstalk between the link and one or more of the neighboring links due to the transmitting of the first data; and control circuitry configured to adjust the first data rate and/or first transmit power level to an adjusted second data rate and/or second transmit power level based on the feedback and to configure the transmit circuitry to transmit second data utilizing the adjusted second data rate and/or transmit power level. 17. The network switch according to claim 16 , wherein for ones of the multiple Ethernet ports: the detection circuitry is configured to detect background crosstalk between the link and one or more of the neighboring links during a non-data-transfer interval to determine background crosstalk; and wherein the feedback is indicative of crosstalk between the link and one or more of the neighboring links in addition to the background crosstalk. 18. The network switch according to claim 17 , wherein: for ones of the multiple Ethernet ports, the control circuitry further comprises comparison circuitry configured to compare the feedback to the background crosstalk and to generate a comparison value; and the control circuitry is configured to adjust the first data rate and/or first transmit power level based on the comparison value. 19. The network switch according to claim 16 , wherein the detection circuitry is configured to detect the feedback in the form of at least one from a group comprising an indicator of a neighboring link failure and an indicator of a retraining sequence for a neighboring link.