Apparatus, system and method of wireless backhaul and access communication via a common antenna array

What is claimed is: 1. A wireless communication apparatus comprising: a memory; and a beamforming processor component to process Multi-User (MU) Multi-Input-Multi-Output (MIMO) communications via an antenna array of a wireless communication node, the beamforming processor component to cause one or more first sub-arrays of the antenna array to form one or more first directional beams to allow communications on one or more backhaul links between the wireless communication node and one or more other wireless communication nodes, and to cause one or more second sub-arrays of the antenna array to form one or more second directional beams to allow communications on one or more access links between the wireless communication node and one or more User Equipment (UEs); a backhaul processor component to process the communications on said one or more backhaul links; and an access processor component to process the communications on said one or more access links. 2. The wireless communication apparatus of claim 1 , wherein the beamforming processor component is configured to process the MU MIMO communications according to a hybrid beamforming scheme comprising a combination of Radio Frequency (RF) beamforming and baseband beamforming. 3. The wireless communication apparatus of claim 2 , wherein the RF beamforming comprises applying phase shifts at RF chains of the antenna array. 4. The wireless communication apparatus of claim 1 , wherein the beamforming processor component is to cause a plurality of first sub-arrays of the antenna array to form a respective plurality of first directional beams, the plurality of first directional beams to allow communications on a respective plurality of backhaul links, the plurality of backhaul links between the wireless communication node and a respective plurality of other wireless communication nodes. 5. The wireless communication apparatus of claim 4 , wherein the backhaul processor component is to process the communications on said plurality of backhaul links. 6. The wireless communication apparatus of claim 1 , wherein the access processor component is to process data from a first UE of a first communication cell controlled by the wireless communication node, the data to be received via an access link between the wireless communication node and the first UE, the data comprising data for a second UE of a second communication cell, the backhaul processer to process sending the data for the second UE via a backhaul link between the wireless communication node and another wireless communication node. 7. The wireless communication apparatus of claim 1 comprising: a first plurality of baseband processor components configured to perform baseband processing between said backhaul processor component and said beamforming processor component; and a second plurality of baseband processor components configured to perform baseband processing between said access processor component and said beamforming processor component. 8. The wireless communication apparatus of claim 7 , wherein one or more baseband processor components of said first plurality of baseband processor components are configured to decode the communications on said one or more backhaul links from said beamforming processor component, and to encode the communications on said one or more backhaul links from said backhaul processor component. 9. The wireless communication apparatus of claim 7 , wherein one or more baseband processor components of said second plurality of baseband processor components are configured to decode the communications on said one or more access links from said beamforming processor component, and to encode the communications on said one or more access links from said access processor component. 10. The wireless communication apparatus of claim 1 configured to cause the wireless communication node to perform the communications on said backhaul links during one or more first time periods, and to perform the communications on said access links during one or more second time periods, different from the first time periods. 11. The wireless communication apparatus of claim 1 configured to trigger the wireless communication node to transmit, during a first time period, transmissions over said backhaul links and transmissions over said access links, and to process reception, during a second time period, which is different from the first time period, of received communications over said backhaul links and received communications over said access links. 12. The wireless communication apparatus of claim 1 configured to cause the wireless communication node to simultaneously perform communications over said backhaul links and over said access links during a same time period. 13. The wireless communication apparatus of claim 1 , wherein said access links and said backhaul links comprise links over a millimeter-wave (mmWave) band or a directional multi-gigabit (DMG) band. 14. The wireless communication apparatus of claim 1 comprising a Base station (BS), a macro BS, a micro BS, an Access Point (AP), an evolved Node B (eNB), a hotspot, or a network controller. 15. The wireless communication apparatus of claim 1 comprising said antenna array. 16. The wireless communication apparatus of claim 1 comprising a network interface configured to communicate between said wireless communication node and a core network. 17. A product comprising a non-transitory storage medium having stored thereon instructions that, when executed by a machine, result in causing a wireless communication node to: perform beamforming processing to cause one or more first sub-arrays of an antenna array of said wireless communication node to form one or more first directional beams to allow communications on one or more backhaul links between the wireless communication node and one or more other wireless communication nodes, and to cause one or more second sub-arrays of the antenna array to form one or more second directional beams to allow communications on one or more access links between the wireless communication node and one or more User Equipment (UEs); and process Multi-User (MU) Multi-Input-Multi-Output (MIMO) communications over the backhaul links and the access links, processing the MU MIMO communications comprising performing first baseband processing of the communications on said one or more backhaul links, and performing second baseband processing of the communications on said one or more access links. 18. The product of claim 17 , wherein the instructions, when executed, cause the wireless communication node to perform the first baseband processing separate from the second baseband processing. 19. The product of claim 17 , wherein the instructions, when executed, cause the wireless communication node to process the MU MIMO communications according to a hybrid beamforming scheme comprising a combination of Radio Frequency (RF) beamforming and baseband beamforming. 20. The product of claim 19 , wherein the RF beamforming comprises applying phase shifts at RF chains of the antenna array. 21. The product of claim 17 , wherein the instructions, when executed, cause a plurality of first sub-arrays of the antenna array to form a respective plurality of first directional beams, the plurality of first directional beams to allow communications on a respective plurality of backhaul links, the plurality of backhaul links between the wireless communication node and a respective plurality of other wireless communication nodes.