Physical layer management at a wall plate device

What is claimed is: 1. A wall plate device comprising: a plurality of jacks, each jack including a rear attachment point configured to couple to one or more communication paths for non-service network traffic, each jack including a front attachment point configured to mate with a connector of a corresponding cable and couple such cable to the one or more communication paths at the rear attachment point, each jack including a media reading interface configured to interface with a physical layer management (PLM) interface of a connector connected to the front attachment point; a programmable processor coupled to each of the media reading interfaces through a path other than the one or more communication paths for non-service network traffic and configured to access a storage device or other component of a connector through the media reading interface to obtain PLM information, the programmable processor configured to communicate the PLM information to a host server, wherein the connector is connected to the front attachment point. 2. The wall plate device of claim 1 , comprising: a signaling circuit coupled to the programmable processor and configured to transmit and receive signals over a second cable coupled thereto, the second cable distinct from any horizontal runs of communication media used for non-service network traffic, wherein the programmable processor is configured to communicate PLM information over the second cable to the host server. 3. The wall plate device of claim 2 , wherein the programmable processor is configured to operate as a slave processor to a master processor in the host server. 4. The wall plate device of claim 2 , comprising: a power supply unit configured to recover DC power from the second cable for powering of the programmable processor and the signaling circuit. 5. The wall plate device of claim 1 , comprising: a network switch coupled to at least one of the jacks in the plurality of jacks and to a horizontal run of cable, the network switch configured to relay non-service network traffic between the horizontal run and the at least one of the jacks; wherein the programmable processor is coupled to the network switch and configured to send the PLM information to the network switch such that the network switch can communicate the PLM information over the horizontal run of cable along with the non-service network traffic. 6. The wall plate device of claim 5 , comprising: a power supply unit configured to recover power from the horizontal run of communication media using a power-over-Ethernet (PoE) protocol, the power supply unit configured to provide such power to the programmable processor and the network switch. 7. The wall plate device of claim 1 , comprising: a MAC/PHY translation circuit coupled to the programmable processor and configured to transmit and receive signals over a CAT-5 or CAT-6 cable coupled thereto, the CAT-5 or CAT-6 cable distinct from any horizontal runs of cable used for non-service network traffic, wherein the programmable processor is configured to communicate PLM information over the CAT-5 or CAT-6 cable to an aggregation point. 8. The wall plate device of claim 1 , comprising: a wireless transceiver coupled to the programmable processor, wherein the programmable processor is configured to communicate PLM information over a wireless link through the wireless transceiver. 9. The wall plate device of claim 1 , comprising: a radio frequency identification (RFID) transceiver including a non-volatile memory coupled to the programmable processor, wherein the programmable processor is configured to store the PLM information in the non-volatile memory such that the RFID transceiver communicates the PLM information when interrogated by an RFID reader. 10. A system for physical layer management, the system comprising: an aggregation point; a plurality of wall outlet devices communicatively coupled to the aggregation point through an IP network, each of the plurality of wall outlet devices including a plurality of jacks, each jack including a rear attachment point configured to couple to one or more communication paths for non-service network traffic, each jack including a front attachment point configured to mate with a connector of a corresponding cable and couple such cable to the one or more communication paths at the rear attachment point, each jack including a media reading interface configured to interface with a physical layer management (PLM) interface of a connector connected to the front attachment point; a programmable processor coupled to each of the media reading interfaces through a path other than the one or more communication paths for non-service network traffic and configured to access a storage device or other component of a connector through the media reading interface to obtain PLM information, the programmable processor configured to communicate the PLM information to the aggregation point over the IP network wherein the connector is connected to the front attachment point; and a host server coupled to the plurality of wall outlet devices and to the IP network using a plurality of second cables, the plurality of second cables distinct from any horizontal runs of cable used for non-service network traffic. 11. The system of claim 10 , wherein each of the plurality of wall outlet devices includes a signaling circuit coupled to the programmable processor and configured to transmit and receive signals with the host server over a respective second cable, wherein the programmable processor is configured to communicate PLM information to the host server and the host server is configured to communicate the PLM information to the aggregation point over the IP network. 12. The system of claim 10 , wherein the programmable processor of each of the plurality of wall outlet devices is configured to operate as a slave processor to a master processor in the host server. 13. The system of claim 10 , wherein each of the plurality of wall outlet devices includes: a power supply unit configured to recover DC power from the respective second cable for powering of the programmable processor and the signaling circuit. 14. The system of claim 10 , wherein at least one of the plurality of wall outlet devices includes: a network switch coupled to at least one of the jacks and to a horizontal run of cable that is coupled to the IP network, the network switch configured to relay non-service network traffic between the horizontal run and the at least one of the jacks; wherein the programmable processor of the at least one wall outlet device is coupled to the network switch and configured to send the PLM information to the network switch such that the network switch can communicate the PLM information over the horizontal run of cable along with the non-service network traffic. 15. The system of claim 14 , wherein the at least one wall outlet device includes: a power supply unit configured to recover power from the horizontal run of cable using a power-over-Ethernet (PoE) protocol, the power supply unit configured to provide such power to the programmable processor and the network switch. 16. The system of claim 10 , wherein at least one of the plurality of wall outlet devices include: a MAC/PHY translation circuit coupled to the programmable processor and configured to transmit and receive signals over a CAT-5 or CAT-6 cable coupled thereto, the CAT-5 or CAT-6 cable distinct from any horizontal runs of cable used for non-service network traffic, wherein the CAT-5 or CAT-6 cable and the horizontal runs of cable are coupled to the IP network