Phononic frequency synthesizer

The invention claimed is: 1. A frequency synthesizer comprising: a waveguide comprising at least a first arm for receiving an input electric signal and a second arm for supplying an output signal; and a perforated region comprising a plurality of cavities disposed between the first and second arms. 2. The frequency synthesizer of claim 1 , wherein the plurality of cavities forms a two dimensional array of cavities. 3. The frequency synthesizer of claim 2 , wherein a frequency of the output signal is defined by a number of the plurality of cavities. 4. The frequency synthesizer of claim 3 , wherein the frequency of the output signal is further defined by a width of each of the plurality of cavities. 5. The frequency synthesizer of claim 4 , wherein the frequency of the output signal is further defined by a spacing between each pair of adjacent cavities. 6. The frequency synthesizer of claim 5 , wherein the waveguide further comprises a third arm and a fourth arm coupled to the first and second arms by the perforated region, wherein the first, second, third, and fourth arms form a cross-coupled rectangular waveguide. 7. The frequency synthesizer of claim 1 , wherein the frequency synthesizer is formed in a semiconductor substrate. 8. The frequency synthesizer of claim 7 , wherein the frequency synthesizer is formed from a piezoelectric material like aluminum nitride (AlN) disposed on the semiconductor substrate. 9. The frequency synthesizer of claim 7 , wherein the frequency of the output signal is further defined by a doping profile of impurities implanted in the semiconductor substrate. 10. The frequency synthesizer of claim 7 , wherein the frequency of the output signal is further defined by a crystal orientation of the semiconductor substrate. 11. The frequency synthesizer of claim 7 , wherein the semiconductor substrate is silicon substrate. 12. A frequency synthesizer comprising: a waveguide comprising a first arm for receiving an input electric signal at a first frequency and a second arm for supplying an output signal; and a perforated region comprising a plurality of cavities disposed between the first and second arms; wherein the first arm comprises a plurality of metal fingers, disposed perpendicular to the first arm and spaced apart from one another by a wavelength of the input electric signal to ensure acoustic excitation in the first arm at the first frequency; and wherein the second arm comprises a single finger to accommodate a non-linear output signal having a frequency at a harmonic of the first frequency. 13. The frequency synthesizer of claim 12 , wherein the output signal further comprises a linear output signal at the first frequency, wherein the linear output signal is characterized as degrading with higher frequencies and the non-linear output signal is characterized as increasing in intensity with higher frequencies. 14. The frequency synthesizer of claim 12 , wherein the non-linear output signal resonates at a third harmonic of the first frequency. 15. The frequency synthesizer of claim 12 , wherein the perforated region comprises a two dimensional array of cavities for filtering acoustic waves of the first frequency. 16. The frequency synthesizer of claim 12 , wherein the frequency synthesizer is formed from a piezoelectric material like-aluminum nitride (AlN) on a semiconductor substrate. 17. The frequency synthesizer of claim 12 , further comprising a trans-impedance amplifier (TIA) circuitry to enable close-loop excitation of acoustic waves at the first arm. 18. The frequency synthesizer of claim 12 , wherein the waveguide further comprises a third and a fourth arms coupled to the first and second arms by the perforated region, wherein the first, second, third, and fourth arms form a cross-coupled rectangular waveguide. 19. The frequency synthesizer of claim 12 , wherein a frequency of the output signal is defined by a number of the plurality of cavities. 20. The frequency synthesizer of claim 19 , wherein the frequency of the output signal is further defined by a width of each of the plurality of cavities and a spacing between each pair of adjacent cavities along a row and a column.