Triple
T17586012
| Position | Surface form | Disambiguated ID | Type / Status |
|---|---|---|---|
| Subject | IMPALA |
E428323
|
entity |
| Predicate | paperTitle |
P38
|
FINISHED |
| Object | IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures |
—
|
NE NERFINISHED |
How this triple was built (3 steps)
Every LLM step that produced this triple, in pipeline order — named-entity classification, the disambiguation choices (the exact options shown, with the pick highlighted), and the generated description. The batch + timestamp of each is in the Provenance table below.
NER
Named-entity recognition
gpt-5-mini
Instruction
Given a phrase, classify it is english named entity (e.g., persons, organizations, works of art) in Latin script, or not (e.g., literals, dates, URLs, verbose phrases). For disambiguation, the statement where the phrase occurs as object is also given. Please return a JSON object with `phrase` (string, the phrase being analyzed) and `is_ne` (boolean, indicating whether the phrase is a Named Entity).
Input
Phrase: IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures | Statement: [IMPALA, paperTitle, IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures]
NED1
Entity disambiguation (via context triple)
gpt-5-mini-2025-08-07
Target entity: IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures Context triple: [IMPALA, paperTitle, IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures]
-
A.
Asynchronous Advantage Actor-Critic
Asynchronous Advantage Actor-Critic is a deep reinforcement learning algorithm that trains multiple parallel agents to learn both policy and value functions efficiently and stably.
-
B.
Asynchronous Methods for Deep Reinforcement Learning
"Asynchronous Methods for Deep Reinforcement Learning" is a 2016 DeepMind paper that introduced asynchronous parallel training techniques for deep reinforcement learning, most notably the A3C algorithm, enabling more stable and efficient learning without specialized hardware.
-
C.
Deep Q-Learning
Deep Q-Learning is a reinforcement learning algorithm that uses deep neural networks to approximate Q-values, enabling agents to learn effective policies directly from high-dimensional inputs like raw images.
-
D.
Actor-Critic using Kronecker-Factored Trust Region
Actor-Critic using Kronecker-Factored Trust Region (ACKTR) is a reinforcement learning algorithm that improves sample efficiency and stability by applying Kronecker-factored approximate curvature to natural gradient updates in actor-critic methods.
-
E.
Proximal Policy Optimization
Proximal Policy Optimization is a popular reinforcement learning algorithm that improves policy gradient methods by using clipped objective functions to achieve stable and efficient training.
- F. None of above. chosen
- G. Unsure - the case is ambiguous/there is not enough information to decide.
NED2
Entity disambiguation (via description)
gpt-5-mini-2025-08-07
Target entity: IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures Target entity description: "IMPALA: Scalable Distributed Deep-RL with Importance Weighted Actor-Learner Architectures" is a research paper that introduces a highly scalable distributed reinforcement learning framework using an actor-learner architecture with importance weighting to enable efficient off-policy learning.
-
A.
Asynchronous Advantage Actor-Critic
Asynchronous Advantage Actor-Critic is a deep reinforcement learning algorithm that trains multiple parallel agents to learn both policy and value functions efficiently and stably.
-
B.
Asynchronous Methods for Deep Reinforcement Learning
"Asynchronous Methods for Deep Reinforcement Learning" is a 2016 DeepMind paper that introduced asynchronous parallel training techniques for deep reinforcement learning, most notably the A3C algorithm, enabling more stable and efficient learning without specialized hardware.
-
C.
Deep Q-Learning
Deep Q-Learning is a reinforcement learning algorithm that uses deep neural networks to approximate Q-values, enabling agents to learn effective policies directly from high-dimensional inputs like raw images.
-
D.
Actor-Critic using Kronecker-Factored Trust Region
Actor-Critic using Kronecker-Factored Trust Region (ACKTR) is a reinforcement learning algorithm that improves sample efficiency and stability by applying Kronecker-factored approximate curvature to natural gradient updates in actor-critic methods.
-
E.
Proximal Policy Optimization
Proximal Policy Optimization is a popular reinforcement learning algorithm that improves policy gradient methods by using clipped objective functions to achieve stable and efficient training.
- F. None of above. chosen
Provenance (2 batches)
The batch behind each pipeline step, in order, with when it ran. Timestamps are batch-level — stages were processed in waves, so the object chain (NER → NED1 → NEDg → NED2) reads in order, but predicate / elicitation batches can sit in a different wave.
| Step | Stage | Batch ID | Status | When |
|---|---|---|---|---|
| creating | Elicitation | batch_69d889e1030481909950e140c63255b9 |
completed | April 10, 2026, 5:25 a.m. |
| NER | Named-entity recognition | batch_69e463d22f908190ae0f1eeafbe54459 |
completed | April 19, 2026, 5:10 a.m. |
Created at: April 10, 2026, 5:50 a.m.