Project Details
ACoF - Approximate Computing on FPGAs
Subject Area
Computer Architecture, Embedded and Massively Parallel Systems
Term
since 2021
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 450987171
Approximate Computing systematically exploits the trade-off between accuracy, power/energy consumption, performance, and cost of many applications of daily life, e.g., computer vision, machine learning, multimedia, big data analysis and gaming. Computing results approximately is a viable approach here thanks to inherent human perceptual limitations, redundancy, or noise in input data.In this project, we want to investigate novel techniques for the design and optimization of approximate logic circuits for FPGA (field-programmable gate array) targets. These devices are known to perfectly combine high performance of hardware designs with the re-programmability of software and are used in many products of daily life and even cloud servers. The goal of our research is a) to investigate novel techniques for function approximation exploiting FPGA artifacts, i.e., DPS blocks and BRAM, b) to study new error metrics and a calculus for error propagation in networks of approximate arithmetic modules, c) to develop novel FPGA-specific optimization techniques for design space exploration and synthesis of approximate multi-output Boolean functions, and d) study how to integrate error modeling and analysis techniques into existing high-level programming languages and subsequent synthesis of approximate Verilog or VHDL designs.
DFG Programme
Research Grants