Techniques for beamforming

What is claimed is: 1 . A beamformer device comprising: a memory configured to store instructions; and a processor coupled to the memory and configured to execute the instructions and cause the beamformer device to: transmit a request to a beamformee device, wherein the request comprises a set of sounding tone indices that indicate tones for which a report of beamforming information is requested from the beamformee device, wherein the tones are defined according to a first WiFi scheme, wherein the set of sounding tone indices is based on a first tone plan defined by the first WiFi scheme for a partial channel bandwidth and on a second tone plan defined by a second WiFi scheme for a full channel bandwidth, and wherein the sounding tone indices are based on one of the following: (i) a reuse of sounding tone indices defined for resource units of the second tone plan and a definition of which of the resource units of the second tone plan correspond to resource units of the first tone plan, (ii) a unified sounding index set that comprises sounding tone indices for both the first tone plan for the partial channel bandwidth and the second tone plan for the full channel bandwidth, and (iii) a sounding index set for the partial channel bandwidth and additional center tones indices for the full channel bandwidth. 2 . The beamformer device of claim 1 , wherein the first WiFi scheme is 802.11be WiFi, and wherein the second WiFi scheme is 802.11ax WiFi. 3 . The beamformer device of claim 1 , wherein the first WiFi scheme is supporting channel bandwidths of 80 MHz, 160 MHz, 80 +80 MHz, 240 MHz and 320 MHz. 4 . The beamformer device of claim 1 , wherein the second WiFi scheme is supporting a channel bandwidth of 80 MHz. 5 . The beamformer device of claim 1 , wherein the full channel bandwidth is 80 MHz; and wherein the partial channel bandwidth is any subset of the full channel bandwidth. 6 . The beamformer device of claim 1 , wherein the sounding tone indices are based on a unified sounding index set that comprises sounding tone indices for both the first tone plan for the partial channel bandwidth and the second tone plan for the full channel bandwidth. 7 . The beamformer device of claim 1 , wherein the sounding tone indices are based on a sounding index set for the partial channel bandwidth and additional center tones indices for the full channel bandwidth. 8 . The beamformer device of claim 1 , wherein the sounding tone indices are based on a reuse of sounding tone indices defined for resource units of the second tone plan and a definition of which of the resource units of the second tone plan correspond to resource units of the first tone plan. 9 . The beamformer device of claim 6 , wherein the set of sounding tone indices for a channel bandwidth is greater than the full channel bandwidth, and wherein the channel bandwidth is one of 160 MHz, 80+80 MHz, 240 MHz or 320 MHZ, and is based on a duplication of rules defined for the set of sounding tone indices within each segment of the full channel bandwidth. 10 . The beamformer device of claim 1 , wherein the request to the beamformee device indicates a channel bandwidth, and wherein the indicated channel bandwidth is a full channel bandwidth defined for the first WiFi scheme. 11 . The beamformer device of claim 10 , wherein the indicated channel bandwidth is a full channel bandwidth of 80 MHz, 80+80 MHz, 160 MHz, 240 MHz, 320 MHz or any partial bandwidth thereof. 12 . The beamformer device of claim 1 , wherein the set of sounding tone indices is defined per channel bandwidth and per number of tones, Ng, wherein Ng=4 or Ng=16. 13 . A method for requesting beamforming information, the method comprising: transmitting, by a beamformer device, a request to a beamformee device, wherein the request comprises a set of sounding tone indices that indicate tones for which a report of beamforming information is requested from the beamformee device, wherein the tones are defined according to a first WiFi scheme, wherein the set of sounding tone indices is based on a first tone plan defined by the first WiFi scheme for a partial channel bandwidth and on a second tone plan defined by a second WiFi scheme for a full channel bandwidth, and wherein the sounding tone indices are based on one of the following: (i) a reuse of sounding tone indices defined for resource units of the second tone plan and a definition of which of the resource units of the second tone plan correspond to resource units of the first tone plan, (ii) a unified sounding index set that comprises sounding tone indices for both the first tone plan for the partial channel bandwidth and the second tone plan for the full channel bandwidth, and (iii) a sounding index set for the partial channel bandwidth and additional center tones indices for the full channel bandwidth; and receiving the report of beamforming information from the beamformee device based on the set of sounding tone indices. 14 . The method of claim 13 , wherein the sounding tone indices are based on a unified sounding index set that comprises sounding tone indices for both the first tone plan for the partial channel bandwidth and the second tone plan for the full channel bandwidth. 15 . The method of claim 13 , wherein the sounding tone indices are based on a sounding index set for the partial channel bandwidth and additional center tones indices for the full channel bandwidth. 16 . The method of claim 13 , wherein the sounding tone indices are based on a reuse of sounding tone indices defined for resource units of the second tone plan and a definition of which of the resource units of the second tone plan correspond to resource units of the first tone plan. 17 . A beamformer device comprising a memory configured to store instructions and a processor configured to execute the instructions stored in the memory to cause the beamformer device to: transmit a set of sounding tone indices to a beamformer device; receive a beamforming report from the beamformee device in response to the set of sounding tone indices, wherein the beamforming report comprises a compressed precoder matrix; and reconstruct a precoder matrix based on the compressed precoder matrix, wherein the compressed precoder matrix is defined by a set of angles in an order that implies a sequence of mathematical operations to be applied on a unit matrix to reconstruct the precoder matrix, and wherein the set of angles is determined based on an extension of a formula for a number of transmit antennas and a number of spatial streams supported by 802.11ax WiFi to a number of transmit antennas (Nr) and a number of spatial streams (Nc) supported by 802.11be WiFi. 18 . The beamformer device of claim 17 , wherein the extension of the formula is for values of 8<Nr≤16 and values of 1≤Nc≤16 corresponding to matrices from 9×1 to 16×16. 19 . The beamformer device of claim 17 , wherein the beamforming report comprises signal-to-noise ratio (SNR) values of spatial streams reported by the beamformee device, and wherein each reported i-th SNR value, wherein i is an integer and i>8, corresponds to an SNR that results from applying an i-th column of the reported precoder matrix by the beamformer device. 20 . The beamformer device of claim 19 , wherein the beamforming report comprises SNR values of spatial streams for multiple-input multiple-output (MIMO) schemes larger than 8×8.