Method for pre-calculating and applying optimized phase patterns to lcos switch panel of wss module

What is claimed is: 1 . An apparatus for processing an input beam, the apparatus comprising: a plurality of ports being separated by port spacing, at least one of the ports being configured to transmit the input beam; a dispersion element arranged in optical communication with the input beam from the at least one port and configured to disperse the input beam into optical channels; a switch assembly arranged in optical communication with the optical channels from the dispersion element, the switch assembly being liquid crystal based and having a plurality of pixels, the pixels being individually addressable; and control circuitry arranged in operational communication with the switch assembly, the control circuitry storing a plurality of holograms, each of the holograms associated with a defined parameter, each of the holograms configured to create a reconfigurable phase grating profile of the pixels of the switch assembly, each of the reconfigurable phase grating profiles being configured to selectively direct a portion of one or more diffracted beams of one or more of the optical channels from the switch assembly relative to one or more of the ports, the control circuitry being configured to select at least one of the holograms based on the defined parameter and being configured to control the switch assembly based on the at least one selected hologram. 2 . The apparatus of claim 1 , wherein one or more of the reconfigurable phase grating profiles include phase values for the pixels having non-uniform steps in a blazing phase pattern. 3 . The apparatus of claim 1 , wherein the ports comprise fibers of a fiber array, the port spacing being uniform; wherein the dispersion element comprises a diffraction grating; and wherein the control circuitry comprises one or more processing units in operable communication with memory. 4 . The apparatus of claim 1 , further comprising: a lens arranged in optical communication with the dispersion element; a polarization optic arranged in optical communication with the ports; and an imaging mirror arranged in optical communication between the ports, the dispersion element, and the switch assembly. 5 . The apparatus of claim 1 , wherein the switch assembly comprises a liquid-crystal-on-silicon (LCoS) switch panel having: a transparent layer having a transparent electrode; a silicon substrate having electrodes for the individually addressable pixels; and a liquid crystal material between the transparent layer and the silicon substrate. 6 . The apparatus of claim 1 , wherein to selectively direct the portion of the one or more diffracted beams of the one or more of the optical channels from the switch assembly relative to the one or more of the ports, each of the reconfigurable phase grating profiles is configured to: selectively direct at least a first order of the one or more diffracted beams from the switch assembly for output to selected one or more of the ports; and selectively direct at least a higher order of the one or more diffracted beams from the switch assembly away from the ports. 7 . The apparatus of claim 1 , wherein to selectively direct the portion of the one or more diffracted beams of the one or more of the optical channels from the switch assembly relative to the one or more of the output ports, each of the reconfigurable phase grating profiles is configured to attenuate the portion to a targeted attenuation level as the defined parameter. 8 . The apparatus of claim 1 , wherein the control circuitry comprises an interpolation module being configured to: select at least two of the holograms having the defined parameters associated on both sides of an intermediate parameter value; interpolate an intermediate hologram between the at least two selected holograms; and control the switch assembly based on the intermediate hologram. 9 . The apparatus of claim 1 , wherein the defined parameter is selected from the group consisting of a targeted attenuation level for the optical channels, a wavelength range for the optical channels, a geometric alignment of the ports of the apparatus, a steering gradient, and an operating temperature of the apparatus. 10 . The apparatus of claim 1 , wherein the control circuitry is configured to: obtain a current parameter associated with the apparatus; find at least one of the holograms stored in memory having the defined parameter that is at least associated with the current parameter; and retrieve the at least one hologram found in memory. 11 . The apparatus of claim 10 , wherein the control circuitry comprises an interpolation module being configured to: select at least two of the stored holograms having the defined parameters associated on both sides of the current parameter; interpolate an intermediate hologram between the at least two selected holograms; and control the switch assembly based on the intermediate hologram. 12 . The apparatus of claim 11 , wherein to obtain the current parameter, the control circuitry is configured to: retrieve the current parameter from memory; receive the current parameter from an external input; or measure a characteristic of the apparatus associated with the current parameter. 13 . A wavelength selective switch for processing an input beam, the wavelength selective switch comprising the apparatus of claim 1 . 14 . A method for processing an input beam, the method comprising: transmitting the input beam from at least one port of a plurality of ports, the ports being separated by port spacing; dispersing the input beam into optical channels with a dispersion element; storing a plurality of holograms, each of the holograms associated with a defined parameter, each of the holograms configured to create a reconfigurable phase grating profile of individually addressable pixels of a switch assembly; selecting at least one of the holograms based on the defined parameter; and selectively directing a portion of one or more diffracted beams of one or more of the optical channels relative to one or more of the ports by individually addressing the pixels of the switch assembly according to the at least one selected hologram. 15 . The method of claim 14 , wherein one or more of the reconfigurable phase grating profiles include phase values for the individually addressable pixels having non-uniform steps in a blazing phase pattern. 16 . The method of claim 14 , wherein selectively directing the portion of the one or more diffracted beams of the one or more of the optical channels from the switch assembly relative to the one or more of the ports comprises: selectively directing at least a first order of the one or more diffracted beams from the switch assembly for output to selected one or more of the ports; and selectively directing at least a higher order of the one or more diffracted beams from the switch assembly away from the ports. 17 . The method of claim 14 , wherein selectively directing the portion of the one or more diffracted beams of the one or more of the optical channels from the switch assembly relative to the one or more of the output ports comprises attenuating the portion to a targeted attenuation level as the defined parameter. 18 . The method of claim 14 , wherein selecting at least one of the holograms based on the defined parameter comprises: select at least two of the holograms having the defined parameters associated on both sides of an intermediate value; interpolating an intermediate hologram between at least two selected holograms; and controlling