Systems and methods for general-purpose, high-performance transversal filter processing

What is claimed is: 1. An integrated circuit comprising: a first power divider connected between an amplifier and single taps, each of the single taps comprising: a coefficient controller; a polarity selector; a time delay; and an output; and an output signal path connected to the outputs of each of the single taps. 2. The integrated circuit of claim 1 , wherein the integrated circuit is fabricated in Silicon Germanium (SiGe). 3. The integrated circuit of claim 1 further comprising: the amplifier; and a second power divider; wherein the integrated circuit is a transversal radio frequency filter integrated circuit; wherein the amplifier is a low noise amplifier connected along an input signal path; and wherein the second power divider is connected between the outputs of each of the single taps and the output signal path. 4. The integrated circuit of claim 1 , wherein the time delay of each of the single taps is configured to provide a fixed time delay to a signal traversing the corresponding single tap. 5. The integrated circuit of claim 4 , wherein the time delay is in an active inductance peaking delay configuration. 6. The integrated circuit of claim 1 , wherein the coefficient controller comprises a wideband digital step attenuator configured to support high control range of the coefficient controller. 7. The integrated circuit of claim 1 , wherein the polarity selector comprises a wideband balun and a switch. 8. The transversal radio frequency filter integrated circuit of claim 3 further comprising a wideband reconfigurable transceiver connected to one of the input signal path and the output signal path. 9. The integrated circuit of claim 1 , wherein the first power divider comprises a wideband active power divider. 10. The integrated circuit of claim 3 , wherein the second power divider comprises a Wilkinson Power Divider. 11. The integrated circuit of claim 1 further comprising a field-programmable gate array configured to control the coefficient controller, the polarity selector, and the time delay or each of the single taps. 12. A circuit comprising: a low noise amplifier; a four-way power divider connected between the low noise amplifier and four intermediary signal paths; and an output path connected to outputs of each of the four intermediary signal paths; wherein a first intermediary signal path of the four intermediary signal paths comprises: a variable attenuator; an active balun; a switch; and a reconfigurable power divider; and wherein each of the remaining intermediary signal paths of the four intermediary signal paths comprise: a first fixed time delay; a variable attenuator; an active balun; a switch; a reconfigurable power divider; and a second fixed time delay. 13. The circuit of claim 12 , wherein the integrated circuit is fabricated in Silicon Germanium (SiGe). 14. The circuit of claim 12 , wherein the first fixed time delay is in an active inductance peaking delay configuration. 15. The circuit of claim 12 , wherein the four-way power divider comprises a Wilkinson Power Divider. 16. The circuit of claim 12 , wherein at least one of the four intermediary signal paths is phase shifted by 180 degrees. 17. A circuit comprising: a low noise amplifier connected along an input signal path; a first multi-stage power divider connected between the low noise amplifier and four intermediary signal paths; a second multi-stage power divider; and an output path connected to outputs of each of the four intermediary signal paths; wherein each of the four intermediary signal paths comprises: a fixed time delay; and a four-tap monolithic microwave integrated circuit, wherein each four-tap monolithic microwave integrated circuit comprises: a first intermediary signal path of the four intermediary signal paths, the first intermediary signal path comprising: a variable attenuator; an active balun; and a switch; and three remaining intermediary signal paths of the four intermediary signal paths, each of the three remaining intermediary signal paths comprising: a first fixed time delay; a variable attenuator; an active balun; a switch; and a second fixed time delay; and wherein the second multi-stage power divider is connected between the outputs of each four-tap monolithic microwave integrated circuit and a circuit output signal path. 18. The circuit of claim 17 , wherein the integrated circuit is fabricated in Silicon Germanium (SiGe). 19. The circuit of claim 17 , wherein each output of the four-tap monolithic microwave integrated circuit is further connected to a testing circuit configured to provide for active interrogation of individual taps. 20. The circuit of claim 19 , wherein the testing circuit comprises a reconfigurable power divider.