Feeder fiber and central office redundancy

What is claimed is: 1. A carrier office comprising: an optical line terminal (OLT) configured to transmit first and second optical signals; a first transmit-erbium-doped fiber amplifier (EDFA) optically coupled to the OLT and a first feeder fiber, the first feeder fiber optically coupled to a first remote node (RN), the first transmit-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the first transmit-EDFA configured to allow the first optical signal transmitted from the OLT to pass through the first transmit-EDFA to the first RN, the disabled state of the first transmit-EDFA configured to substantially inhibit the passing of the first optical signal from the OLT through the first transmit-EDFA to the first RN; a first receive-EDFA optically coupled to the OLT and the first feeder fiber, the first receive-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the first receive-EDFA configured to allow a third optical signal from the first RN to pass through the first receive-EDFA to the OLT, the disabled state of the first receive-EDFA configured to substantially inhibit the passing of the third optical signal from the first RN through the first receive-EDFA to the OLT; a second transmit-EDFA optically coupled to the OLT and a second feeder fiber, the second feeder fiber optically coupled to a second RN, the second transmit-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the second transmit-EDFA configured to allow the second optical signal transmitted from the OLT to pass through the second transmit-EDFA to the second RN, the disabled state of the second transmit-EDFA configured to substantially inhibit the passing of the second optical signal from the OLT through the second transmit-EDFA to the second RN; and a second receive-EDFA optically coupled to the OLT and the second feeder fiber, the second receive-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the second receive-EDFA configured to allow a fourth optical signal from the second RN to pass through the second receive-EDFA to the OLT, the disabled state of the second receive-EDFA configured to substantially inhibit the passing of the fourth optical signal from the second RN through the second receive-EDFA to the OLT. 2. The carrier office of claim 1 , wherein the OLT comprises a laser array configured to transmit multiple optical signals. 3. The carrier office of claim 1 , wherein the OLT comprises two or more transceivers each configured to transmit a corresponding downstream optical signal at a corresponding target wavelength. 4. The carrier office of claim 1 , further comprising: a multiplexer optically coupled to the OLT and configured to multiplex the first and second optical signals into a multiplexed signal; and a splitter optically coupled to the multiplexer and the first and second transmit-EDFAs, the splitter configured to: split the multiplexed signal received from the multiplexer into first and second split-multiplexed signals; route the first split-multiplexed signal to the first transmit-EDFA; and route the second split-multiplexed signal to the second transmit-EDFA. 5. The carrier office of claim 4 , further comprising: a first band multiplexer optically coupled to the first transmit-EDFA and the first feeder fiber, the first band multiplexer configured to receive the first split-multiplexed signal from the first transmit-EDFA and pass the first split-multiplexed signal as a downstream component of the first optical signal to the first RN; and a second band multiplexer optically coupled to the second transmit-EDFA and the second feeder fiber, the second band multiplexer configured to receive the second split-multiplexed signal from the second transmit-EDFA and pass the second split-multiplexed signal as a downstream component of the second optical signal to the second RN. 6. The carrier office of claim 1 , further comprising a controller in communication with the first and second transmit-EDFAs, wherein the controller is configured to: receive a remote node status indicating whether the second RN is receiving optical signals from another carrier office; and when the remote node status indicates that the second RN is not receiving optical signals from the other carrier office, instructing the second transmit-EDFA to be in the enabled state. 7. The carrier office of claim 6 , wherein the controller is further configured to, when the remote node status indicates that the second RN is receiving optical signals from the other carrier office, instructing the second transmit-EDFA to be in the disabled state. 8. The carrier office of claim 1 , further comprising: a first band multiplexer optically coupled to the first receive-EDFA and the first feeder fiber, the first band multiplexer configured to demultiplex out the third optical signal from the first optical signal and pass the third optical signal to the first receive-EDFA; and a second band multiplexer optically coupled to the second receive-EDFA and the second feeder fiber, the second band multiplexer configured to demultiplex out the fourth optical signal from the second optical signal and pass the fourth optical signal to the second receive-EDFA. 9. The carrier office of claim 8 , further comprising: a combiner optically coupled to the first and second receive-EDFAs, the combiner configured to: receive the third and fourth optical signals from the first and second receive-EDFAs; and combine the third and fourth optical signals into a combined-multiplexed signal; and a demultiplexer optically coupled to the combiner and the OLT, the demultiplexer configured to: demultiplex the combined-multiplexed signal into first and second demultiplexed optical signals; and route the first and second demultiplexed optical signals to the OLT. 10. A method comprising: transmitting a first optical signal from a first carrier office (CO) along a first feeder fiber to a first remote node (RN), the first CO comprising: an optical line terminal (OLT) configured to transmit the first optical signal and a second optical signal; a first transmit-erbium-doped fiber amplifier (EDFA) optically coupled to the OLT and the first feeder fiber, the first feeder fiber optically coupled to the first RN, the first transmit-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the first transmit-EDFA configured to allow the first optical signal transmitted from the OLT to pass through the first transmit-EDFA to the first RN, the disabled state of the first transmit-EDFA configured to substantially inhibit the passing of the first optical signal from the OLT through the first transmit-EDFA to the first RN; a first receive-EDFA optically coupled to the OLT and the first feeder fiber, the first receive-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the first receive-EDFA configured to allow a third optical signal from the first RN to pass through the first receive-EDFA to the OLT, the disabled state of the first receive-EDFA configured to substantially inhibit the passing of the third optical signal from the first RN through the first receive-EDFA to the OLT; a second transmit-EDFA optically coupled to the OLT and a second feeder fiber, the second feeder fiber optically coupled to a second RN, the second transmit-EDFA operable between a respective enabled state and a respective disabled state, the enabled state of the second transmit-EDFA configured to allow the second optical signal transmitted f