Delta delay approach for ultrasound beamforming on an ASIC

The invention claimed is: 1. An ultrasound probe, comprising: a plurality of transducer elements; and an application specific integrated circuit (ASIC) coupled to the plurality of transducer elements, wherein the ASIC comprises: a plurality of delay units; one or more waveform generators configured to generate and transmit a waveform with distinct parameters to at least one of the plurality of delay units, wherein the at least one delay unit receives the waveform from one of the plurality of waveform generators or an adjacent delay unit, applies a delay to the waveform, and outputs a delayed waveform to an adjacent delay unit; and a plurality of multiplexors configured to control passing of the waveform from the waveform generators to the plurality of delay units; and wherein one or more delay unit of the plurality of delay units is configured to output the waveform signal to one or more of the plurality of transducer elements. 2. The ultrasound probe of claim 1 , wherein the distinct parameters comprise one or more of waveform shape or waveform timing delay. 3. The ultrasound probe of claim 1 , wherein the delay units utilize flip-flop circuits to apply the delay to the waveform. 4. The ultrasound probe of claim 1 , wherein the delay units apply a selectable delay to the waveform. 5. The ultrasound probe of claim 1 , wherein the delay units apply a hardware-associated delay to the waveform. 6. The ultrasound probe of claim 1 , wherein a subset of the plurality of delay units is capable of receiving the waveform from more than one waveform generator. 7. The ultrasound probe of claim 1 , wherein the plurality of delay units comprises at least one column of delay units on the periphery of the ASIC, and wherein respective individual delay units are configured to provide the waveform to a corresponding row of delay units. 8. The ultrasound probe of claim 1 , wherein the plurality of waveform generators is directly electrically coupled to a subset of delay units on the periphery of the ASIC. 9. The ultrasound probe of claim 1 , wherein at least one delay unit distributes the delayed waveforms in a first dimension on the periphery of the ASIC and subsequently distributes the waveforms in a second dimension. 10. The ultrasound probe of claim 1 , wherein the number of waveform generators is less than the number of delay units. 11. The ultrasound probe of claim 1 , wherein the ratio of waveform generators to delay units is less than 1:5. 12. The ultrasound probe of claim 1 , wherein the ratio of waveform generators to delay units is less than 1:20. 13. The ultrasound probe of claim 1 , wherein only a portion of the delay units receive the delayed waveform from one of the plurality of waveform generators. 14. The ultrasound probe of claim 1 , wherein the delay units make delayed waveforms available to one or more of the plurality of transducer elements. 15. The ultrasound probe of claim 1 , wherein plurality of transducer elements comprises a 2D array. 16. The ultrasound probe of claim 1 , wherein the delay units comprise an array of delay units. 17. The ultrasound probe of claim 16 , wherein each delay unit of the array of delay units comprises a local sync flip-flop to remove a hardware-associated delay from the waveform. 18. The ultrasound probe of claim 16 , wherein a global waveform input line extends to multiple delay units on one or more rows of the array of delay units, one or more columns of the array of delay units, or a combination thereof. 19. The ultrasound probe of claim 16 , wherein at least one of the plurality of delay units is coupled to a plurality of adjacent delay units. 20. An ultrasound probe, comprising: a plurality of transducer elements; and a transmit circuitry coupled to the plurality of transducer elements to energize the plurality of transducer elements to transmit acoustic energy, comprising: a plurality of delay units electrically coupled to one or more of the plurality of transducer elements and wherein one or more delay units of the plurality of delay units are configured to receive a waveform signal and output the waveform signal to one or more of the plurality of transducer elements and to at least one adjacent delay unit; a plurality of waveform generators configured to transmit the waveform signal to one or more delay units of the plurality of delay units; and a plurality of multiplexors configured to control passing of the waveform from the waveform generators to the plurality of delay units. 21. The ultrasound probe of claim 20 , wherein the waveform signal comprises parameters defining a waveform shape or waveform timing delay. 22. The ultrasound probe of claim 21 , wherein the timing delay ranges from 0° to 135°. 23. The ultrasound probe of claim 21 , wherein at least a portion of the plurality of delay units apply a selectable delay to the waveform signal before the waveform signal is output to the at least one adjacent delay unit. 24. The ultrasound probe of claim 23 , wherein the delay units utilize one or more series of one or more flip-flop circuits to apply the selectable delay to the waveform signal.