Marc Rothmann scite author profile

Reinforcement learning algorithms have been very successful at solving sequential decisionmaking problems in many different problem domains. However, their training is often time-consuming, with training times ranging from multiple hours to weeks. The development of domain-specific architectures for reinforcement learning promises faster computation times, decreased experiment turn-around time, and improved energy efficiency. This paper presents a review of hardware architectures for the acceleration of reinforcement learning algorithms. FPGA-based implementations are the focus of this work, but GPU-based approaches are considered as well. Both tabular and deep reinforcement learning algorithms are included in this survey. The techniques employed in different implementations are highlighted and compared. Finally, possible areas for future work are suggested, based on the preceding discussion of existing architectures.

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Energy-efficient FPGA-accelerated LiDAR-based SLAM for embedded robotics

Flottmann

Eisoldt

Gaal

et al. 2021

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A fully integrated system for hardware-accelerated TSDF SLAM with LiDAR sensors (HATSDF SLAM)

Eisoldt

Gaal

Wiemann

et al. 2022

Robotics and Autonomous Systems

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ReconfROS: An approach for accelerating ROS nodes on reconfigurable SoCs

Eisoldt

Flottmann

Gaal

et al. 2022

Microprocessors and Microsystems

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Marc Rothmann

ReconfROS: Running ROS on Reconfigurable SoCs

A Survey of Domain-Specific Architectures for Reinforcement Learning

Energy-efficient FPGA-accelerated LiDAR-based SLAM for embedded robotics

A fully integrated system for hardware-accelerated TSDF SLAM with LiDAR sensors (HATSDF SLAM)

ReconfROS: An approach for accelerating ROS nodes on reconfigurable SoCs

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