stochastic oracle
Stochastic Continuous Greedy ++: When Upper and Lower Bounds Match
Amin Karbasi, Hamed Hassani, Aryan Mokhtari, Zebang Shen
Neural Information Processing Systems http://nips.cc/
- North America > United States > Texas > Travis County > Austin (0.14)
- North America > United States > Pennsylvania > Philadelphia County > Philadelphia (0.04)
- Asia > China (0.04)
- (3 more...)
- North America > United States > Illinois (0.04)
- Europe > Switzerland > Zürich > Zürich (0.04)
High Probability Complexity Bounds for Line Search Based on Stochastic Oracles
We consider a line-search method for continuous optimization under a stochastic setting where the function values and gradients are available only through inexact probabilistic zeroth and first-order oracles. These oracles capture multiple standard settings including expected loss minimization and zeroth-order optimization. Moreover, our framework is very general and allows the function and gradient estimates to be biased. The proposed algorithm is simple to describe, easy to implement, and uses these oracles in a similar way as the standard deterministic line search uses exact function and gradient values. Under fairly general conditions on the oracles, we derive a high probability tail bound on the iteration complexity of the algorithm when applied to non-convex smooth functions. These results are stronger than those for other existing stochastic line search methods and apply in more general settings.
Limitations on Variance-Reduction and Acceleration Schemes for Finite Sums Optimization
We study the conditions under which one is able to efficiently apply variance-reduction and acceleration schemes on finite sum optimization problems.
- North America > United States > California > Los Angeles County > Long Beach (0.04)
- Asia > Middle East > Israel (0.04)
Robust Optimization for Non-Convex Objectives
Robert S. Chen, Brendan Lucier, Yaron Singer, Vasilis Syrgkanis
We consider robust optimization problems, where the goal is to optimize in the worst case over a class of objective functions.
- North America > United States > California > San Francisco County > San Francisco (0.15)
- Europe > Spain > Catalonia > Barcelona Province > Barcelona (0.14)
- North America > United States > California > San Diego County > San Diego (0.04)
- (5 more...)
Stochastic Continuous Greedy ++: When Upper and Lower Bounds Match
Amin Karbasi, Hamed Hassani, Aryan Mokhtari, Zebang Shen
Neural Information Processing Systems http://nips.cc/
- North America > United States > Texas > Travis County > Austin (0.14)
- North America > United States > Pennsylvania > Philadelphia County > Philadelphia (0.04)
- Asia > China (0.04)
- (3 more...)
- North America > United States > Illinois (0.04)
- Europe > Switzerland > Zürich > Zürich (0.04)
High Probability Complexity Bounds for Line Search Based on Stochastic Oracles
We consider a line-search method for continuous optimization under a stochastic setting where the function values and gradients are available only through inexact probabilistic zeroth and first-order oracles. These oracles capture multiple standard settings including expected loss minimization and zeroth-order optimization. Moreover, our framework is very general and allows the function and gradient estimates to be biased. The proposed algorithm is simple to describe, easy to implement, and uses these oracles in a similar way as the standard deterministic line search uses exact function and gradient values. Under fairly general conditions on the oracles, we derive a high probability tail bound on the iteration complexity of the algorithm when applied to non-convex smooth functions.