Millimeter wave beam tracking and beam sweeping

What is claimed is: 1. An apparatus of a wireless communication device, comprising: antenna front end (AFE) circuitry to provide signals from a number of receive antennas based on a selected number of spatial signal beams; and radio frequency (RF) circuitry to: receive signals over the selected number of spatial signal beams; and combine the signals received over the selected number of spatial signal beams, using a compression matrix, to generate spatially compressed signals over active IO links, wherein the compression matrix is generated by processing the spatially compressed signals and provided as feedback to the RF circuitry. 2. The apparatus of claim 1 , further comprising baseband circuitry to receive the spatially compressed signals over the active IO links, wherein the compression matrix is generated by the baseband circuitry. 3. An apparatus of a wireless communication device, comprising: antenna front end (AFE) circuitry to provide signals from a number of receive antennas based on a selected number of spatial signal beams; baseband circuitry; and radio frequency (RF) circuitry to: receive signals over the selected number of spatial signal beams; and combine signals received over the selected number of spatial signal beams, using a compression matrix received from the baseband circuitry, to generate spatially compressed signals over active IO links wherein a set of IO links are provided by first stage compression circuitry, wherein the first stage compression circuitry performs compression of signals received from the AFE using a second compression matrix based on the number of receive antennas, and wherein some of the IO links of the set of IO links comprise the active IO links. 4. The apparatus of claim 3 , wherein the apparatus comprises a plurality of radio frequency (RF) chains each including RF circuitry coupled to a panel, wherein the panel includes at least two of the active IO links coupled to antenna circuitry, and wherein the baseband circuitry includes control circuitry to activate or deactivate a set of RF chains of the plurality of RF chains based on physical layer or higher layer control signals. 5. The apparatus of claim 4 , wherein the panel is one of a plurality of panels, and wherein control circuitry is further configured to activate or deactivate panels of the plurality of panels based on physical layer or higher layer control signals. 6. The apparatus of claim 5 , wherein the control circuitry is further configured to perform activation or deactivation based on resource allocation information provided in physical layer or higher layer control signals.