Browsing by Autor "Thomas Ashley"
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Item type: Item , Digital Fixed-Point Low Powered Area Efficient Function Estimation for Implantable Devices(Institute of Electrical and Electronics Engineers, 2022) James Brian Romaine; Thomas Ashley; Mario Pereira MartínThis article introduces a new multiplier-less 32-bit fixed point architecture for estimating complex non-linear functions based on adapted shift only series expansions. This novel hardware structure has been proposed for use as a dedicated core unit in implantable medical devices. Its implementation in FPGA produces a mean squared error of 0.23% over the functions <i>sin</i>(<i>x</i>),<i>cos</i>(<i>x</i>),<i>e<sup>ix</sup></i> and <i>tan</i><sup>-1</sup>(<i>x</i>) when compared to unrestricted CPU implementations. These results are achieved with the use of only 133 sliced registers and 399 Look-up-tables (LUTs). Furthermore, the hardware performs extremely well in our hardware-in-the-loop real use case application for the detection of epilepsy by correctly detecting true positive seizures. When implemented into 130 nm technology via <i>GOOGLE Sky130 PDK</i> and <i>Openlane</i> EDA tools, the ASIC occupies a space of 0.0625 mm<sup>2</sup> which represents a 47% reduction when compared to competitors. In addition, its power consumption is reduced to 6.46 mW at 100 MHz <i>f<sub>o</sub></i> and just 0.4 μW at 1KHz <i>f<sub>o</sub></i>.