Abstract
The RASP 2.8 is a very powerful reconfigurable analog computing platform with thirty-two computational analog blocks (CABs). Each CAB has a wide variety of sub-circuits ranging in granularity from multipliers and programmable offset wide linear range Gm blocks to NMOS and PMOS transistors. The programmable interconnects and circuit elements in the CAB are implemented using floating gate transistors. This system exhibits significant performance enhancements over its predecessor in terms of achievable signal bandwidth (> 50 MHz), accuracy (> 9 bits), dynamic range (> 7 decades of current), speed of floating-gate programming (> 200 gates/sec) and isolation between ON and OFF switches. The improved bandwidth is primarily due to an improved routing fabric that includes nearest neighbor connections. Programming performance improved drastically by implementing the entire algorithm on-chip with an SPI digital interface. Several complex system examples are presented.
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