A programmable systolic array correlator as a trigger processor for electron pairs in rich (ring image Cherenkov) counters

This paper describes a systolic array processor for a ring image Cherenkov Counter which is capable of identifying pairs of electron circles with a known radius and a certain minimum distance within 15 ss. The processor is a very flexible and fast device. It consists of 128 x 128 processing elements (PEs), where one PE is assigned to each pixel of the image. All PEs run synchronously at 40 MHz. The identification of electron circles is done by correlating the detector image with the proper circle circumference. Circle centers are found by peak detection in the correlation result. A second correlation with a circle disc allows circles of closed electron pairs to be rejected. The trigger decision is generated if a pseudo adder detects at least two remaining circles. The device is controlled by a freely programmable sequencer. A VLSI chip containing 8 x 8 PEs is being developed using a VENUS design system and will be produced in 2~sCMOS technology.