Neural Architecture Search
Neural Architecture Search (NAS) automates the design of optimal neural network architectures, aiming to replace the time-consuming and often suboptimal process of manual design. Current research focuses on improving efficiency, exploring various search algorithms (including reinforcement learning, evolutionary algorithms, and gradient-based methods), and developing effective zero-cost proxies to reduce computational demands. This field is significant because it promises to accelerate the development of high-performing models across diverse applications, from image recognition and natural language processing to resource-constrained environments like microcontrollers and in-memory computing.
Papers
How Much Is Hidden in the NAS Benchmarks? Few-Shot Adaptation of a NAS Predictor
Hrushikesh Loya, Łukasz Dudziak, Abhinav Mehrotra, Royson Lee, Javier Fernandez-Marques, Nicholas D. Lane, Hongkai Wen
Combined Scheduling, Memory Allocation and Tensor Replacement for Minimizing Off-Chip Data Accesses of DNN Accelerators
Yi Li, Aarti Gupta, Sharad Malik