Electrical connector with ground bus

What is claimed is: 1. An electrical connector comprising: a housing having a front and a rear, the housing including a slot defined through the front configured to receive a mating connector therein; signal contacts held in the housing, the signal contacts being arranged within the slot to mate with the mating connector; ground contacts held in the housing and interspersed among the signal contacts, the ground contacts being arranged within the slot to mate with the mating connector; and a ground bus that includes a base and multiple sets of projections extending from the base, each set including at least two projections that engage a same corresponding ground contact at spaced-apart locations, the sets of projections connected via the base to create a ground circuit between the ground contacts engaged by the ground bus; wherein the signal contacts and the ground contacts are arranged in an upper row above the slot and a lower row below the slot, the ground bus is a first ground bus that engages the ground contacts in the upper row, and the electrical connector further comprises a second ground bus that engages the ground contacts in the lower row, wherein the ground contacts in the upper row are longer than the ground contacts in the lower row, each set of projections of the first ground bus engaging the corresponding ground contact in the upper row at engagement locations spaced apart by a first distance, each set of projections of the second ground bus engaging the corresponding ground contact in the lower row at engagement locations spaced apart by a second distance different than the first distance. 2. The electrical connector of claim 1 , wherein the signal contacts and the ground contacts are arranged in the upper row along a lateral axis, the base of the first ground bus extending parallel to the lateral axis and separated from the upper row of signal and ground contacts by a gap, the projections of the first ground bus extending across the gap to engage each of the ground contacts in the upper row without engaging the signal contacts in the upper row. 3. The electrical connector of claim 1 , wherein each set of projections includes a front projection and a rear projection that is in-line with the front projection along a contact axis, the front projection being disposed closer to the front of the housing than the rear projection and configured to engage the corresponding ground contact at the engagement location more proximate to a mating interface of the ground contact than the engagement location between the rear projection and the ground contact, the mating interface configured to engage the mating connector. 4. The electrical connector of claim 1 , wherein the base of the first ground bus is planar and the projections are cantilevered deflectable fingers being stamped and bent out of the plane of the base to extend from a common side of the base. 5. The electrical connector of claim 1 , wherein the base of the first ground bus has a front edge and a rear edge, the projections being cantilevered deflectable fingers each having a fixed end that is directly attached to the base and an opposite free end that is not directly attached to the base, the fixed ends of two projections in each set being attached to a spine segment of the base, the free end of one of the projections in each set being proximate to the front edge, the free end of another projection in each set being proximate to the rear edge. 6. The electrical connector of claim 1 , wherein each ground contact includes a mating interface and a mounting interface, the mating interface being configured to engage the mating connector, the mounting interface being configured to engage a circuit board, the projections of each set engaging the corresponding ground contact at the engagement locations along the ground contact between the mating and mounting interfaces to shorten an effective ground path length of the ground contacts. 7. The electrical connector of claim 6 , wherein each set of projections includes a front projection that engages the corresponding ground contact at a front engagement location and a rear projection that engages the corresponding ground contact at a rear engagement location, wherein the effective ground path length of the corresponding ground contact is shortened to a first length between the mating interface and the front engagement location, a second length between the front and rear engagement locations, and a third length between the rear engagement location and the mounting interface. 8. The electrical connector of claim 6 , wherein each set of projections engages the corresponding ground contact at predetermined locations between the mating interface and the mounting interface to increase a resonance frequency of the electrical connector to above 12 GHz. 9. The electrical connector of claim 1 , wherein the housing defines a right angle housing configured to be mounted to a circuit board such that the slot receives the mating connector in a direction parallel to the circuit board. 10. The electrical connector of claim 1 , wherein the first distance is greater than the second distance. 11. The electrical connector of claim 1 , wherein the base of the first ground bus is disposed above the upper row, and the second ground bus includes a base that is disposed below the lower row. 12. The electrical connector of claim 1 , wherein each set of projections includes two projections separated by a spine segment of the corresponding base, the spine segment is centrally positioned between a front edge of the base and a rear edge of the base. 13. An electrical connector comprising: a housing having a top and a bottom, the bottom being configured to be mounted to a circuit board, the housing having a front and a rear opposite the front, the housing defining a slot through the front configured to receive a mating card module therein and configured to hold the mating card module parallel to the circuit board; signal contacts and ground contacts held in the housing, the signal contacts and the ground contacts being arranged in an upper row above the slot and a lower row below the slot, each of the signal contacts and the ground contacts having a mating arm that extends into the slot and is configured to engage the mating card module, each of the signal contacts and the ground contacts having a mounting arm that extends at an angle from the mating arm and is configured to be terminated to the circuit board; a first ground bus that includes a base and multiple sets of projections extending from the base, each set including two projections that are in-line with each other along a respective contact axis and engage a same corresponding ground contact in the upper row at engagement locations spaced-apart by a first distance, the sets of projections of the first ground bus being electrically connected by the base of the first ground bus; and a second ground bus that includes a base and multiple sets of projections extending from the base, each set including two projections that are in-line with each other along a respective contact axis and engage a same corresponding ground contact in the lower row at engagement locations spaced-apart by a second distance different than the first distance, the sets of projections of the second ground bus being electrically connected by the base of the second ground bus. 14. The electrical connector of claim 13 , wherein the projections in each set engage the corresponding ground contact at the engagement locations along an intermediate portion of the ground contact that is between the mating arm and the mounting arm. 15.