Formalizing Preferences Over Runtime Distributions
Jul 24, 2023
Speakers
Devon Graham
Speaker · 0 followers
Kevin Leyton-Brown
Speaker · 0 followers
Tim Roughgarden
Speaker · 0 followers
About
When trying to solve a computational problem, we are often faced with a choice between algorithms that are guaranteed to return the right answer but differ in their runtime distributions (e.g., SAT solvers, sorting algorithms). This paper aims to lay theoretical foundations for such choices by formalizing preferences over runtime distributions. It might seem that we should simply prefer the algorithm that minimizes expected runtime. However, such preferences would be driven by exactly how slow our algorithm is on bad inputs, whereas in practice we are typically willing to cut off occasional, sufficiently long runs before they finish. We propose a principled alternative, taking a utility-theoretic approach to characterize the scoring functions that describe preferences over algorithms. These functions depend on the way our value for solving our problem decreases with time and on the distribution from which captimes are drawn. We describe examples of realistic utility functions and show how to leverage a maximum-entropy approach for modeling underspecified captime distributions. Finally, we show how to efficiently estimate an algorithm's expected utility from runtime samples.When trying to solve a computational problem, we are often faced with a choice between algorithms that are guaranteed to return the right answer but differ in their runtime distributions (e.g., SAT solvers, sorting algorithms). This paper aims to lay theoretical foundations for such choices by formalizing preferences over runtime distributions. It might seem that we should simply prefer the algorithm that minimizes expected runtime. However, such preferences would be driven by exactly how slow o…
Like the format? Trust SlidesLive to capture your next event!
Professional recording and live streaming, delivered globally.
Sharing
Recommended Videos
Presentations on similar topic, category or speaker
Spherical Fourier Neural Operators: Learning Stable Dynamics on the Sphere
Watch later
Boris Bonev, …
Banker Online Mirror Descent: A Universal Approach for Delayed Online Bandit Learning
Watch later
Jiatai Huang, …
Collaborative Multi-Agent Heterogeneous Multi-Armed Bandits
Watch later
Unveiling the Latent Space Geometry of Push-Forward Generative Models
Watch later
Meta-Learning Reliable Priors for Interactive Learning
Watch later
