Approximate Computing-Based Processing of MEA Signals on FPGA

Abstract: Microelectrode arrays (MEAs) are essential equipment in neuroscience for studying the nervous system’s behavior and organization. MEAs are arrays of parallel electrodes that work by sensing the extracellular potential of neurons in their proximity. Processing the data streams acquired from MEAs is a computationally intensive task requiring parallelization. It is performed using complex signal processing algorithms and architectural templates. In this paper, we propose using approximate computing-based algorith… Show more

“…As a method of increasing hardware metrics, such as energy consumption, delay and area, approximate computation is a computationally efficient solution [3,10]. We examine some of the main error metrics in Equations ( 1) and (2).…”

“…Many applications of image processing are fault tolerant. The approximation has recently become a viable option for reducing circuit factors [3]. Hardware constraints can be solved via circuit design to some extent, however, it will entail sacrificing precision.…”

A Novel High-Speed and Low-PDP Approximate Full Adder Cell for Image Blending

“…As a method of increasing hardware metrics, such as energy consumption, delay and area, approximate computation is a computationally efficient solution [3,10]. We examine some of the main error metrics in Equations ( 1) and (2).…”

“…Many applications of image processing are fault tolerant. The approximation has recently become a viable option for reducing circuit factors [3]. Hardware constraints can be solved via circuit design to some extent, however, it will entail sacrificing precision.…”

A Novel High-Speed and Low-PDP Approximate Full Adder Cell for Image Blending