Publication Details
Automated Circuit Approximation Method Driven by Data Distribution
Mrázek Vojtěch, Ing., Ph.D. (DCSY FIT BUT)
Sekanina Lukáš, prof. Ing., Ph.D. (DCSY FIT BUT)
digital circuit, approximate circuit, functional approximation, neural network
We propose an application-tailored data-driven fully automated method for functional approximation of combinational circuits. We demonstrate how an application-level error metric such as the classification accuracy can be translated to a component-level error metric needed for an efficient and fast search in the space of approximate low-level components that are used in the application. This is possible by employing a weighted mean error distance (WMED) metric for steering the circuit approximation process which is conducted by means of genetic programming. WMED introduces a set of weights (calculated from the data distribution measured on a selected signal in a given application) determining the importance of each input vector for the approximation process. The method is evaluated using synthetic benchmarks and application-specific approximate MAC (multiply-and-accumulate) units that are designed to provide the best trade-offs between the classification accuracy and power consumption of two image classifiers based on neural networks.
@INPROCEEDINGS{FITPUB11821, author = "Zden\v{e}k Va\v{s}\'{i}\v{c}ek and Vojt\v{e}ch Mr\'{a}zek and Luk\'{a}\v{s} Sekanina", title = "Automated Circuit Approximation Method Driven by Data Distribution", pages = "96--101", booktitle = "Design, Automation and Test in Europe Conference", year = 2019, location = "Florence, IT", publisher = "European Design and Automation Association", ISBN = "978-3-9819263-2-3", doi = "10.23919/DATE.2019.8714977", language = "english", url = "https://www.fit.vut.cz/research/publication/11821" }