METHOD AND APPARATUS TO BUILD NEW ELECTRONIC INSTRUMENTS AND DEVICES: THE 3D-FLOW OPRA TO SOLVE APPLICATIONS OF FAST, REAL-TIME, MULTI-DIMENSION OBJECT PATTERN RECOGNITION ALGORITHMS (OPRA) AND THE 3D-CBS (3-D COMPLETE BODY SCREENING) TO ACCURATELY MEASURE MINIMUM ABNORMAL BIOLOGICAL PROCESSES OF DISEASES AT AN EARLY CURABLE STAGE SUCH AS CANCER IMPROVING DIAGNOSIS AND PROGNOSES FOR MAXIMIZING REDUCTION OF PREMATURE DEATHS AND MINIMIZE THE COST PER EACH LIFE SAVED
The present 3D-Flow OPRA is a revolutionary electronic instrument for multiple applications: advancing science, saving lives, finding and tracking fast moving objects, etc. It allows to build a flexible, scalable, technology-independent, cost-effective powerful tool to uncover the unknown and to confirm or exclude the existence of a subatomic particle predicted by theoretical physicists. When used for Medical Imaging applications the 3D-Flow OPRA allows to accurately measure minimum abnormal biological processes of diseases at an early curable stage such as cancer in a 3D-CBS (3-D Complete Body Screening), improving diagnosis and prognosis to maximize reduction of premature deaths and minimize cost per each life saved. It is capable of executing programmable pattern recognition algorithms in real-time of multidimensional objects by analyzing in a single crate of electronics of 36 cubic cm, ALL data arriving at ultra-high speed from a matrix of thousands of transducers at over 20 TB/sec with zero dead-time. Both instruments, the 3D-Flow OPRA and the 3D-CBS can benefit from the additional ER/DSU invention also described in this non-provisional patent application, which allows to record real data from detectors and replay them to the 3D-Flow OPRA and 3D-CBS systems in a controlled environment to facilitate testing, debugging and measuring the efficiency.