Scaling midplane bandwidth between storage processors via network devices

What is claimed is: 1. A method of providing communications bandwidth between storage processors (SPs), the method comprising: electrically coupling the SPs with a midplane; electrically coupling a network interface controller (NIC) device with the midplane; and configuring the NIC device to convey communications between the SPs while the SPs are electrically coupled with the midplane and while the NIC device is electrically coupled with the midplane; wherein the midplane resides within a drive processor enclosure (DPE); and wherein electrically coupling the NIC device with the midplane includes: installing the NIC device within a storage drive slot defined by the DPE, the storage drive slot being constructed and arranged to hold a storage drive. 2. The method as in claim 1 wherein electrically coupling the SPs with the midplane includes: electrically coupling the SPs with a first side of a midplane; wherein installing the NIC device includes: electrically coupling the NIC device with a second side of the midplane that is opposite the first side of the midplane; and wherein configuring the NIC device to convey communications between the SPs includes: while a first network connection is established between the SPs through a first set of traces of the midplane, establishing a second network connection between the SPs through a second set of traces of the midplane and the NIC device, the second set of traces being different from the first set of traces. 3. The method as in claim 1 , further comprising: prior to installing the NIC device within the storage drive slot defined by the DPE, uninstalling a storage drive from the storage drive slot defined by the DPE. 4. The method as in claim 3 wherein the SPs include a first SP and a second SP; wherein the storage drive is a dual port storage device constructed and arranged to communicate with the first SP through a first port that connects with first midplane conductors and with the second SP through a second port that connects with second midplane conductors; wherein uninstalling the storage drive from the storage drive slot defined by the DPE includes disconnecting the dual port storage device from the first and second midplane conductors; and wherein installing the NIC device within the storage drive slot defined by the DPE includes connecting the NIC device to the first and second midplane conductors. 5. The method as in claim 2 , further comprising: after the second network connection between the SPs is established, conveying Ethernet communications between the SPs through the midplane and the NIC device. 6. The method as in claim 5 wherein the two SPs includes a first SP and a second SP; and wherein conveying Ethernet communications between the SPs through the midplane and the NIC device includes: conveying first Peripheral Component Interconnect Express (PCIe) signals between the first SP and a first NIC controller of the NIC device, conveying second PCIe signals between the second SP and a second NIC controller of the NIC device, and conveying Ethernet signals through a set of NIC traces interconnecting the first NIC controller and the second NIC controller. 7. The method as in claim 5 wherein the SPs includes a first SP and a second SP; and wherein conveying Ethernet communications between the SPs through the midplane and the NIC device includes: conveying first Peripheral Component Interconnect Express (PCIe) signals between the first SP and an Ethernet multi-host controller of the NIC device, and conveying second PCIe signals between the second SP and the Ethernet multi-host controller of the NIC device, the Ethernet multi-host controller being constructed and arranged to internally provide Ethernet connectivity between the first and second SPs based on the first and second PCIe signals. 8. The method as in claim 2 wherein the NIC device is a first physical network interface; wherein electrically coupling the NIC device with the second side of the midplane includes: installing the first physical network interface within a first device slot defined by the DPE; and wherein the method further comprises: installing a second physical network interface within a second device slot defined by the DPE, the second physical network interface being another NIC device that electrically couples with the second side of the midplane when the second physical network interface is installed within the second device slot defined by the DPE. 9. The method as in claim 8 , further comprising: after the first physical network interface is installed within the first device slot and the second physical network interface is installed within the second device slot, performing a network bonding operation to form a logical network interface that aggregates networking capabilities of the first physical network interface and the second physical network interface. 10. The method as in claim 8 , further comprising: prior to installing the second physical network interface within the second device slot defined by the DPE, uninstalling a storage drive from the second device slot defined by the DPE. 11. The method as in claim 8 , further comprising: after installing the second physical network interface within the second device slot defined by the DPE, uninstalling the second physical network interface from the second device slot defined by the DPE and then installing a storage drive within the second device slot defined by the DPE. 12. Data storage equipment, comprising: a midplane; storage processors (SPs) constructed and arranged to electrically couple with the midplane; and a network interface controller (NIC) device constructed and arranged to electrically couple with the midplane, the NIC device being configurable to convey communications between the SPs while the SPs are electrically coupled with the midplane and while the NIC device is electrically coupled with the midplane; wherein the midplane resides within a drive processor enclosure (DPE); wherein the DPE defines a storage drive slot constructed and arranged to hold a storage drive; and wherein the NIC device is constructed and arranged to install within the storage drive slot when electrically coupling with the midplane. 13. Data storage equipment as in claim 12 wherein the SPs are constructed and arranged to electrically couple with a first side of the midplane; wherein the NIC device is constructed and arranged to electrically couple with a second side of the midplane that is opposite the first side of the midplane; and wherein the SPs are further constructed and arranged to establish a first network connection through a first set of traces of the midplane, and establish a second network connection through a second set of traces of the midplane and the NIC device, the second set of traces being different from the first set of traces. 14. Data storage equipment as in claim 12 wherein NIC device is constructed and arranged to convey Ethernet communications between the SPs through the midplane. 15. Data storage equipment as in claim 12 wherein the NIC device is a first physical network interface; wherein the DPE further defines another storage drive slot constructed and arranged to hold another storage drive; and wherein the data storage equipment further comprises: a second physical network interface constructed and arranged to install within the other storage drive slot defined by the DPE. 16. Data storage equipment as in claim 15 wherein the SPs are constructed and arranged to perform a network bon