Parallel algorithms align with neural execution
V Engelmayer, DG Georgiev… - Learning on Graphs …, 2024 - proceedings.mlr.press
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms
contradicts this nature, rendering a significant share of their computations redundant …
contradicts this nature, rendering a significant share of their computations redundant …
Parallel Algorithms Align with Neural Execution
V Engelmayer, D Georgiev, P Veličković - arXiv e-prints, 2023 - ui.adsabs.harvard.edu
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms
contradicts this nature, rendering a significant share of their computations redundant …
contradicts this nature, rendering a significant share of their computations redundant …
Parallel Algorithms Align With Neural Execution
V Engelmayer, DG Georgiev… - Learning on Graphs …, 2024 - proceedings.mlr.press
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms
contradicts this nature, rendering a significant share of their computations redundant …
contradicts this nature, rendering a significant share of their computations redundant …
Parallel Algorithms Align with Neural Execution
V Engelmayer, D Georgiev, P Veličković - arXiv preprint arXiv:2307.04049, 2023 - arxiv.org
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms
contradicts this nature, rendering a significant share of their computations redundant …
contradicts this nature, rendering a significant share of their computations redundant …
Parallel Algorithms Align with Neural Execution
V Engelmayer, DG Georgiev, P Veličković - The Second Learning on … - openreview.net
Neural algorithmic reasoners are parallel processors. Teaching them sequential algorithms
contradicts this nature, rendering a significant share of their computations redundant …
contradicts this nature, rendering a significant share of their computations redundant …