System and method for providing variable ultrasound array processing in a post-storage mode

The invention claimed is: 1. A method of analyzing movement within a region of interest comprising: activating at least a portion of a multi-element transducer array to transmit, at once, a single ultrasonic broad beam that can scan an entire region of interest through a transmit aperture along one or more scan directions that span the region of interest; receiving, by one or more elements in the multi-element transducer array, ultrasound echoes through a receive aperture; grouping echo data received by the one or more elements into at least one of a first sub-aperture data set and a second sub-aperture data set, wherein the first sub-aperture data set includes the echo data related to first sub-aperture and the second sub-aperture data set includes the echo data related to second sub-aperture, wherein the first sub-aperture is different from the second sub-aperture, the first sub-aperture data set is different from the second sub-aperture data set, the first sub-aperture data set and the second sub-aperture data set correspond to all ultrasound echoes of the single ultrasonic broad beam; coherently combining the echo data grouped into the first sub-aperture data set based on both phase and amplitude of the echo data grouped into the first sub-aperture data set to generate a first partially focused data set representing a first portion of the region of interest, wherein the first partially focused data set is used for generating part of an image for one or more reconstruction lines; coherently combining the echo data grouped into the second sub-aperture data set based on both phase and amplitude of the echo data grouped into the second sub-aperture data set to generate a second partially focused data set representing a second portion of the region of interest, wherein the second partially focused data set is used for generating another part of the image for one or more reconstruction lines; storing the first partially focused data set and the second partially focused data set during a storage period in a format that can be retrieved for later analysis; and generating the image for one or more reconstruction lines based on a combination of the first partially focused data set and the second partially focused data set. 2. The method of claim 1 , further comprising: during a post-storage period, retrieving sub-aperture data from stored sub-aperture data sets at a rate independent of an acquisition rate of the sub-aperture data; combining the sub-aperture data to form one or more selected reconstruction lines; processing the sub-aperture data to extract motion information from one or more sample positions along the selected reconstruction lines; and displaying an image representative of the motion information. 3. The method of claim 1 , further comprising: selecting, in response to user signals, one or more spatial locations within the region of interest for retrospective processing during a post-storage period; adjusting, in response to user signals, the post-storage receive array focusing and motion-analysis modes, including a 2D quantitative flow mapping, and associated processing parameters including one or more clutter filter parameters or image display parameters. 4. The method of claim 1 , wherein the one or more ultrasonic beams comprises a sequence of ultrasound pulses designed to adequately sample a moving target, including blood, with a given maximum velocity in the direction of the one or more ultrasonic beams. 5. The method of claim 1 , wherein each ultrasonic beam comprises a continuous acoustic wave of a predetermined transmit frequency. 6. The method of claim 1 , wherein the one or more ultrasonic beams include at least two beams that cross over each other within the region of interest. 7. The method of claim 1 , wherein the ultrasound echoes are converted from radio frequency (RF) signals to baseband I/O components prior to storage. 8. The method of claim 1 , wherein the ultrasound echoes for each transmit event is accumulated and stored in a channel domain memory until partial focusing operations for an entire image frame are completed. 9. The method of claim 1 , further comprising: performing partial focusing operations by combining echo data obtained from two or more transmit events to synthesize or improve an effective transmit array focusing. 10. The method of claim 1 , wherein the first sub-aperture data set and the second sub-aperture data set form a receive aperture data set for the receive aperture, wherein the receive aperture data set is divided into two channel groups including an inner group that represents signals received by an inner sub-group of elements in the multi-element transducer array, and an outer group that represents signals received by elements positioned on each side of the inner sub-group of elements in the multi-element transducer array. 11. The method of claim 1 , wherein the receive aperture is divided into N contiguous groups of elements, where N is greater than or equal to two. 12. The method of claim 1 , wherein the one or more reconstruction lines include any locus of reconstruction points that follows an anatomy of interest, including at least one of a blood vessel or a cross-section, within the region of interest independent of the one or more scan directions. 13. The method of claim 1 , wherein each sub-aperture data set is combined with appropriate time delays, phase shifts and amplitude weightings to form partially focused lines along the one or more reconstruction lines prior to storage. 14. The method of claim 1 , wherein the first partially focused data set and the second partially focused data set are stored in non-volatile media on a system or on a remote review station that is connected to the system via a digital communications network. 15. The method of claim 1 , wherein, during a post-storage period, the first partially focused data set and the second partially focused data set are combined with different respective amplitude weightings as part of applying a first weight factor and a second weight factor to the first partially focused data set and the second partially focused data set to control an aperture apodization function used to generate the image for the one or more reconstruction lines. 16. The method of claim 1 , further comprising: determining a first sound speed for a pre-determined metric by iteratively adjusting the first partially focused data set based on a plurality of trial sound speed values; determining a second sound speed for the pre-determined metric by iteratively adjusting the second partially focused data set based on the plurality of trial sound speed values; and generating the image for the one or more reconstruction lines based on the first partially focused data set weighted using the first sound speed and the second partially focused data set weighted using the second sound speed. 17. The method of claim 1 , wherein the received echo data is converted from RF to baseband I/Q components prior to storage. 18. A system for analyzing movement within a region of interest comprising: a processing device; and a storage device: the processing device, during a storage period, is operable to: activate at least a portion of a multi-element transducer array to transmit, at once, a single ultrasonic broad beam that can scan an entire region of interest through a transmit aperture along one or more scan directions that span the region of interest; receive, by one or more elements in the multi-element transducer array, ultrasound echoes through a receive apertu