Selective Interactions of <i>Valeriana officinalis</i> Extracts and Valerenic Acid with [<sup>3</sup>H]Glutamate Binding to Rat Synaptic Membranes

Domain specialization under energy constraints in deeply-scaled CMOS has been driving the need for agile development of Systems on a Chip (SoCs). While digital subsystems have design flows that are conducive to rapid iterations from specification to layout, analog and mixed-signal modules face the challenge of a long human-in-the-middle iteration loop that requires expert intuition to verify that post-layout circuit parameters meet the original design specification. Existing automated solutions that optimize circuit parameters for a given target design specification have limitations of being schematic-only, inaccurate, sample-inefficient or not generalizable. This work presents AutoCkt, a machine learning optimization framework trained using deep reinforcement learning that not only finds post-layout circuit parameters for a given target specification, but also gains knowledge about the entire design space through a sparse subsampling technique. Our results show that for multiple circuit topologies, AutoCkt is able to converge and meet all target specifications on at least 96.3% of tested design goals in schematic simulation, on average 40× faster than a traditional genetic algorithm. Using the Berkeley Analog Generator, AutoCkt is able to design 40 LVS passed operational amplifiers in 68 hours, 9.6× faster than the state-of-the-art when considering layout parasitics.

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Programmable Fine-Grained Power Management and System Analysis of RISC-V Vector Processors in 28-nm FD-SOI

Colin

Amid

Wright

et al. 2020

IEEE Solid-State Circuits Lett.

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Fully Automated Analog Sub-Circuit Clustering with Graph Convolutional Neural Networks

Settaluri

Fallon

2020

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Keertana Settaluri

AutoCkt: Deep Reinforcement Learning of Analog Circuit Designs

Automated Design of Analog Circuits Using Reinforcement Learning

AutoCkt: Deep Reinforcement Learning of Analog Circuit Designs

Programmable Fine-Grained Power Management and System Analysis of RISC-V Vector Processors in 28-nm FD-SOI

Fully Automated Analog Sub-Circuit Clustering with Graph Convolutional Neural Networks

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