Electrical connector having commoned ground shields

What is claimed is: 1. An electrical connector comprising: a housing having a base extending between a front side and a rear side, the base being electrically conductive, the base having chambers and ground slots extending therethrough between the front and rear sides, the chambers being defined by chamber walls that separate the chambers from the ground slots; signal pods disposed in the chambers of the base, each signal pod having a dielectric body holding a pair of signal contacts, the dielectric body extending through the corresponding chamber and engaging interior sides of the chamber walls, the dielectric body electrically insulating the signal contacts from the electrically conductive base, the signal contacts having mating segments protruding from the dielectric body and extending from the front side of the base, the signal contacts further having tails protruding from the dielectric body and extending from the rear side of the base; and ground shields received in the ground slots of the base, each ground shield surrounding an associated signal pod on at least two sides of the signal pod to provide electrical shielding for the pair of signal contacts in the signal pod from other pairs of signal contacts. 2. The electrical connector of claim 1 , wherein the housing extends between a mating end and a mounting end that is defined by the rear side of the base, the housing including shroud walls extending from the front side of the base to the mating end, the front side of the base and the shroud walls defining a cavity configured to receive a mating connector therein, the mating segments of the signal contacts and the ground shields extending into the cavity to mate with respective signal and ground contacts of the mating connector. 3. The electrical connector of claim 1 , wherein the ground shields are C-shaped, each ground shield surrounding the associated signal pod on three sides thereof. 4. The electrical connector of claim 3 , wherein the ground slots are C-shaped to accommodate the ground shields, each ground slot surrounding a corresponding chamber on three sides thereof. 5. The electrical connector of claim 1 , wherein each ground slot is defined by inner surfaces of the base, the ground shield in a corresponding ground slot engages one or more of the inner surfaces of the base at multiple contact locations that are spaced apart along a height of the base between the front side and the rear side to electrically connect the ground shield to the base. 6. The electrical connector of claim 1 , wherein the chambers and ground slots in the base are arranged in an array, the ground shields in the ground slots of the array being spaced apart from one another, the ground shields engaging the base and being electrically connected to one another via the electrically conductive base. 7. The electrical connector of claim 1 , wherein the signal contacts each include two broad sides and two edge sides that extend between the two broad sides, the dielectric body of each signal pod holding the pair of signal contacts such that the signal contacts are spaced apart from each other and one broad side of one of the signal contacts faces an opposing broad side of the other signal contact. 8. The electrical connector of claim 1 , wherein the base of the housing is at least one of composed entirely of one or more metals, composed of a non-conductive core material coated in a layer of one or more metals, composed of a lossy material having metal particles embedded in a non-conductive material, composed of a conductive polymer, or composed of a carbon-filled polymer. 9. The electrical connector of claim 1 , wherein the ground slots in the base are arranged in an array having multiple columns of ground slots separated by divider walls of the base, the divider walls defining grooves along the rear side of the base that extend laterally from the ground slots, the ground shields including tabs that are disposed in the grooves. 10. The electrical connector of claim 1 , wherein the front side of the base is parallel to the rear side, the signal contacts extending along contact axes through the dielectric body, the contact axes being perpendicular to the front and rear sides of the base. 11. The electrical connector of claim 1 , wherein the chamber walls extend fully through the base between the front and rear sides thereof. 12. The electrical connector of claim 1 , wherein each of the ground shields extend a height between a mating end and a terminating end, each ground shield including at least one wall and multiple protrusions extending from the at least one wall at different locations spaced apart along the height of the ground shield, the protrusions engaging inner surfaces of the base that define the ground slots at multiple contact locations that are spaced apart along a height of the base between the front side and the rear side. 13. An electrical connector comprising: a housing having a base extending between a front side and a rear side, the base being electrically conductive, the base having chambers and ground slots extending therethrough between the front and rear sides, the chambers being defined by chamber walls that separate the chambers from the ground slots, the ground slots being C-shaped, each ground slot surrounding a corresponding chamber along three sides thereof; signal pods received in the chambers of the base, each signal pod having a dielectric body holding a pair of signal contacts, the dielectric body extending through the corresponding chamber and engaging interior sides of the chamber walls, the dielectric body electrically insulating the signal contacts from the electrically conductive base, the signal contacts having mating segments protruding from the dielectric body and extending from the front side of the base, the signal contacts further having tails protruding from the dielectric body and extending from the rear side of the base; and ground shields received in the ground slots of the base, the ground shields being C-shaped, the ground shield in a corresponding ground slot surrounding an associated signal pod on three sides of the signal pod to provide electrical shielding for the pair of signal contacts in the signal pod from other pairs of signal contacts. 14. The electrical connector of claim 13 , wherein a first signal pod of the signal pods is surrounded on three sides by a first ground shield of the ground shields, wherein a second ground shield of the ground shields that is adjacent to the first ground shield provides shielding for the first signal pod along an open, fourth side of the first signal pod, the second ground shield surrounding a second signal pod of the signal pods on three sides of the second signal pod. 15. The electrical connector of claim 13 , wherein the ground shields include a center wall and two side walls extending from opposite edges of the center wall, the center wall and side walls being planar. 16. The electrical connector of claim 13 , wherein the base of the housing is at least one of composed entirely of one or more metals, composed of a non-conductive core material coated in a layer of one or more metals, composed of a lossy material having metal particles embedded in a non-conductive material, composed of a conductive polymer, or composed of a carbon-filled polymer. 17. The electrical connector of claim 13 , wherein each ground slot is defined by inner surfaces of the base, the ground shield in a corresponding ground slot engages one or more of the inner surfaces at multiple contact locations along a height of the base between the front s