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Welcome to Spinning Up in betway电竞Deep RL!This is an educational resource produced by OpenAI that makes it easier to learn about deep reinforcement learning (betway电竞deep RL).
For the unfamiliar:reinforcement learning(RL) is a machine learning approach for teaching agents how to solve tasks by trial and error.betway电竞Deep RL refers to the combination of RL withdeep learning.
This module contains a variety of helpful resources,including:
One of the single most common questions that we hear is
If I want to contribute to AI safety,how do I get started?
At OpenAI,we believe that deep learning generally—and deep reinforcement learning specifically—will play central roles in the development of powerful AI technology.To ensure that AI is safe,we have to come up with safety strategies and algorithms that are compatible with this paradigm.As a result,we encourage everyone who asks this question to study these fields.
However,while there are many resources to help people quickly ramp up on deep learning,deep reinforcement learning is more challenging to break into.To begin with,a student of betway电竞deep RL needs to have some background in math,coding,and regular deep learning.Beyond that,they need both a high-level view of the field—an awareness of what topics are studied in it,why they matter,and what's been done already—and careful instruction on how to connect algorithm theory to algorithm code.
The high-level view is hard to come by because of how new the field is.There is not yet a standard betway电竞deep RL textbook,so most of the knowledge is locked up in either papers or lecture series,which can take a long time to parse and digest.And learning to implement betway电竞deep RL algorithms is typically painful,because either
- the paper that publishes an algorithm omits or inadvertently obscures key design details,
- or widely-public implementations of an algorithm are hard to read,hiding how the code lines up with the algorithm.
While fantastic repos likerllab,Baselines,andrllibmake it easier for researchers who are already in the field to make progress,they build algorithms into frameworks in ways that involve many non-obvious choices and trade-offs,which makes them hard to learn from.Consequently,the field of betway电竞deep RL has a pretty high barrier to entry—for new researchers as well as practitioners and hobbyists.
So our package here is designed to serve as the missing middle step for people who are excited by betway电竞deep RL,and would like to learn how to use it or make a contribution,but don't have a clear sense of what to study or how to transmute algorithms into code.We've tried to make this as helpful a launching point as possible.
That said,practitioners aren't the only people who can (or should) benefit from these materials.Solving AI safety will require people with a wide range of expertise and perspectives,and many relevant professions have no connection to engineering or computer science at all.Nonetheless,everyone involved will need to learn enough about the technology to make informed decisions,and several pieces of Spinning Up address that need.
OpenAI'smissionis to ensure the safe development of AGI and the broad distribution of benefits from AI more generally.Teaching tools like Spinning Up help us make progress on both of these objectives.
To begin with,we move closer to broad distribution of benefits any time we help people understand what AI is and how it works.This empowers people to think critically about the many issues we anticipate will arise as AI becomes more sophisticated and important in our lives.
Also,critically,we need people to helpus work on making sure that AGI is safe.This requires a skill set which is currently in short supply because of how new the field is.We know that many people are interested in helping us,but don't know how—here is what you should study!If you can become an expert on this material,you can make a difference on AI safety.
The algorithm implementations in the Spinning Up repo are designed to be
- as simple as possible while still being reasonably good,
- and highly-consistent with each other to expose fundamental similarities between algorithms.
他们几乎是完全独立的,with virtually no common code shared between them (except for logging,saving,loading,andMPIutilities),so that an interested person can study each algorithm separately without having to dig through an endless chain of dependencies to see how something is done.The implementations are patterned so that they come as close to pseudocode as possible,to minimize the gap between theory and code.
Importantly,they're all structured similarly,so if you clearly understand one,jumping into the next is painless.
We tried to minimize the number of tricks used in each algorithm's implementation,and minimize the differences between otherwise-similar algorithms.To give some examples of removed tricks: we omitregularizationterms present in the original Soft-Actor Critic code,as well asobservation normalizationfrom all algorithms.For an example of where we've removed differences between algorithms: our implementations of DDPG,TD3,and SAC all follow a convention laid out in theoriginal TD3 code,where all gradient descent updates are performed at the ends of episodes (instead of happening all throughout the episode).
All algorithms are "reasonably good" in the sense that they achieve roughly the intended performance,but don't necessarily match the best reported results in the literature on every task.Consequently,be careful if using any of these implementations for scientific benchmarking comparisons.Details on each implementation's specific performance level can be found on ourbenchmarkspage.
We plan to support Spinning Up to ensure that it serves as a helpful resource for learning about deep reinforcement learning.The exact nature of long-term (multi-year) support for Spinning Up is yet to be determined,but in the short run,we commit to:
High-bandwidth support for the first three weeks after release (Nov 8,2018 to Nov 29,2018).
- We'll move quickly on bug-fixes,question-answering,and modifications to the docs to clear up ambiguities.
- We'll work hard to streamline the user experience,in order to make it as easy as possible to self-study with Spinning Up.
Approximately six months after release (in April 2019),we'll do a serious review of the state of the package based on feedback we receive from the community,and announce any plans for future modification,including a long-term roadmap.
Additionally,as discussed in the blog post,we are using Spinning Up in the curriculum for our upcoming cohorts ofScholarsandFellows.Any changes and updates we make for their benefit will immediately become public as well.