Abstract
We establish matching upper and lower complexity bounds for gradient descent and stochastic gradient descent on quadratic functions, when the gradients are delayed and reflect iterates from τ rounds ago. First, we show that without stochastic noise, delays strongly affect the attainable optimization error: In fact, the error can be as bad as non-delayed gradient descent ran on only 1/τ of the gradients. In sharp contrast, we quantify how stochastic noise makes the effect of delays negligible, improving on previous work which only showed this phenomenon asymptotically or for much smaller delays. Also, in the context of distributed optimization, the results indicate that the performance of gradient descent with delays is competitive with synchronous approaches such as mini-batching. Our results are based on a novel technique for analyzing convergence of optimization algorithms using generating functions.
| Original language | English |
|---|---|
| Pages (from-to) | 111-132 |
| Number of pages | 22 |
| Journal | Proceedings of Machine Learning Research |
| Volume | 117 |
| State | Published - 2020 |
| Event | 31st International Conference on Algorithmic Learning Theory, ALT 2020 - San Diego, United States Duration: 8 Feb 2020 → 11 Feb 2020 https://proceedings.mlr.press/v117 |
Keywords
- asynchronous
- delayed
- lower bounds
- optimization
- stochastic gradient descent
- upper bounds
All Science Journal Classification (ASJC) codes
- Artificial Intelligence
- Software
- Control and Systems Engineering
- Statistics and Probability