Multi-pair gigabit Ethernet transceiver having adaptive disabling of circuit elements
First Claim
1. An integrated circuit communication device comprising:
- a transceiver having a plurality of processing elements and operable to process a signal and produce a processed signal, wherein each processing element has an associated tap coefficient; and
adaptive functionality operable to one of activate and deactivate one or more of the processing elements selectively based on signal quality of the processed signal and power consumption of the plurality of processing elements, wherein the adaptive functionality maintains a coefficient threshold, wherein the adaptive functionality is operable to adjust the coefficient threshold based on the signal quality of the processed signal and the power consumption of the plurality of processing elements, and wherein the adaptive functionality is operable to deactivate any processing element having a coefficient less than the threshold.
6 Assignments
0 Petitions
Accused Products
Abstract
Various systems and methods providing high speed decoding, enhanced power reduction and clock domain partitioning for a multi-pair gigabit Ethernet transceiver are disclosed. ISI compensation is partitioned into two stages; a first stage compensates ISI components induced by characteristics of a transmitter'"'"'s partial response pulse shaping filter in a demodulator, a second stage compensates ISI components induced by characteristics of a multi-pair transmission channel in a Viterbi decoder. High speed decoding is accomplished by reducing the DFE depth by providing an input signal from a multiple decision feedback equalizer to the Viterbi based on a tail value and a subset of coefficient values received from a unit depth decision-feedback equalizer. Power reduction is accomplished by adaptively truncating active taps in the NEXT, FEXT and echo cancellation filters, or by disabling decoder circuitry portions, as channel response characteristics allow. A receive clock signal is generated such that it is synchronous in frequency with analog sampling clock signals and has a particular phase offset with respect to one of the sampling clock signals. This phase offset is adjusted such that system performance degradation due to coupling of switching noise from the digital sections to the analog sections is substantially minimized.
86 Citations
6 Claims
-
1. An integrated circuit communication device comprising:
-
a transceiver having a plurality of processing elements and operable to process a signal and produce a processed signal, wherein each processing element has an associated tap coefficient; and adaptive functionality operable to one of activate and deactivate one or more of the processing elements selectively based on signal quality of the processed signal and power consumption of the plurality of processing elements, wherein the adaptive functionality maintains a coefficient threshold, wherein the adaptive functionality is operable to adjust the coefficient threshold based on the signal quality of the processed signal and the power consumption of the plurality of processing elements, and wherein the adaptive functionality is operable to deactivate any processing element having a coefficient less than the threshold.
-
-
2. The integrated circuit communication device of claim 1 wherein the adaptive functionality is operable to one of activate and deactivate one or more of the processing elements selectively based on an error metric and on the power consumption of the plurality of processing elements.
-
3. The integrated circuit communication device of claim 1 wherein the adaptive functionality is operable to determine an error metric associated with the processed signal and to determine a power consumption metric of the plurality of processing elements, wherein the adaptive functionality is operable to decrease the coefficient threshold if the error metric is greater than a specified error threshold and the power consumption metric is less than a specified power consumption threshold.
-
4. The integrated circuit communication device of claim 3 wherein the adaptive functionality is operable to increase the coefficient threshold if the error metric is less than the specified error threshold and the power consumption metric is greater than the specified power consumption threshold.
-
5. The integrated circuit communication device of claim 1 wherein the adaptive functionality is operable to minimize the power consumption of the plurality of processing elements while maintaining at least a specified signal quality of the processed signal.
-
6. An integrated circuit communication device comprising:
-
a transceiver having a plurality of processing elements and operable to process a signal and produce a processed signal; and adaptive functionality operable to one of activate and deactivate one or more of the processing elements selectively based on signal quality of the processed signal and power consumption of the plurality of processing elements, wherein the adaptive functionality is operable to receive a specified power consumption value and to maximize the signal quality of the processed signal while maintaining the power consumption of the plurality of processing elements at or below the specified power consumption value.
-
Specification
-
- Resources
-
Current AssigneeAvago Technologies International Sales Pte Limited (Broadcom, Inc.)
-
Original AssigneeBroadcom Corporation (Broadcom, Inc.)
-
InventorsKruse, David E., Hatamian, Mehdi, Creigh, John L., Agazzi, Oscar E., Samueli, Henry, Abnous, Arthur
-
Primary Examiner(s)Corrielus; Jean B
-
Application NumberUS11/688,683Publication NumberTime in Patent Office1,176 DaysField of Search375/219, 375229-233, 375/285, 375/350, 375/348US Class Current375/233CPC Class CodesG01R 31/3004 Current or voltage testG01R 31/3008 Quiescent current [IDDQ] te...G01R 31/3016 Delay or race condition tes...G01R 31/31715 Testing of input or output ...G01R 31/318502 Test of Combinational circuitsG01R 31/318552 Clock circuits detailsG01R 31/318594 Timing aspects clock circui...H04B 3/23 using a replica of transmit...H04B 3/235 combined with adaptive equa...H04B 3/32 Reducing cross-talk, e.g. b...H04L 1/0021 in which the algorithm uses...H04L 1/0047 Decoding adapted to other s...H04L 1/0053 specially adapted for power...H04L 1/0054 Maximum-likelihood or seque...H04L 1/0059 Convolutional codesH04L 1/006 Trellis-coded modulationH04L 1/242 by comparing a transmitted ...H04L 2001/0096 Channel splitting in point-...H04L 2025/03363 Multilevel H04L2025/03369 t...H04L 2025/03369 Partial responseView All
