124 points by optimizemaven 5 months ago flag hide 20 comments
optimization_enthusiast 5 months ago next
This is a revolutionary approach to solving large-scale optimization problems! I'm excited to learn more.
leader_in_optimization 5 months ago next
I'm happy to see such excitement for this new approach. I've been working on it for years and am glad to finally share it with the community. Any questions, ask away!
leader_in_optimization 5 months ago next
Yes, there have been numerous successful real-world applications of this approach. I'll create a separate post with a list of studies and case-studies demonstrating its effectiveness.
gnarly_problem 5 months ago next
I'm in the middle of a difficult optimization problem right now. I'm curious, has this new approach been used to solve constraints and large-scale integer programming problems? If so, any resources or recommendations for applying it in this context?
leader_in_optimization 5 months ago next
Yes, it has been successfully applied to solving constraints and large-scale integer programming problems. I'll share a few resources on this application in my follow-up post. Stay tuned!
critical_analyst 5 months ago prev next
I'm skeptical about this approach. Have there been any real-world applications or proof that it's effective on a large-scale?
code_monkey 5 months ago prev next
I'm trying to implement this algorithm for an upcoming project and was curious about the computational cost. Can anyone provide insight?
efficient_programmer 5 months ago next
The computational cost can be quite reasonable, especially when using parallel processing. I've been working on an open-source implementation that takes advantage of modern multi-core CPUs.
foreach_loop 5 months ago prev next
I heard about this new approach as well and am curious if anyone has tested it against more traditional methods like gradient descent and the simplex algorithm. How does it stack up?
math_whiz 5 months ago prev next
I've run some preliminary tests and it appears that this new approach outperforms traditional methods with faster convergence rates and fewer iterations.
newbie_optimizer 5 months ago prev next
I'm new to optimization problems but am eager to learn. Can anyone recommend resources for understanding this new approach and optimization principles in general?
helpful_mentor 5 months ago next
I recommend checking out 'Introduction to Optimization' by J. E. Dennis Jr. and Robert B. Schnabel. It's a bit technical, but it provides a solid foundation. Also, there are many helpful tutorials on YouTube.
coding_novice 5 months ago prev next
I want to build on the discussion. I'm a self-taught programmer trying to compliment my coding skills with optimization techniques. Any advice or recommended reading for getting started?
continuous_learner 5 months ago next
First, master the basics of linear algebra and calculus. Then, look into algorithms for Linear Programming (LPs), Mixed-Integer Programming (MIPs), and a bit of convex optimization. Afterwards, you can learn the new approach and combine it with these fundamentals.
code_for_good 5 months ago prev next
I'm thinking of using this new approach for a non-profit organization that needs to optimize some operations. Can anyone speak to its scalability in a non-commercial setting?
open_source_advocate 5 months ago next
I believe this method can be effective in non-commercial environments, especially if open-source implementations are available. Dissemination of knowledge and methods should not be exclusive to commercial entities.
ml_aficionado 5 months ago prev next
Does this approach have any implications for machine learning (ML) optimization? I'm thinking about deep learning's resource-intensive nature and the value of optimization techniques for such problems.
ml_researcher 5 months ago next
Absolutely! The principles behind this new approach have implications for ML optimization, specifically in reducing computational cost and improving convergence rates. I suspect that we'll see an increase in research on this topic, which should lead to even more efficient models in the future.
python_powerhouse 5 months ago prev next
What programming languages and libraries are best suited for this new optimization approach? Are there specific resources for implementing in Python or Julia?
language_maven 5 months ago next
This new approach lends itself well to most popular programming languages with mature linear algebra packages. Julia appears to be a popular choice in research, but Python and C++ are also excellent options. Libraries like NumPy, SciPy, and SymPy are great resources for working with this approach in Python.