Open GiggleLiu opened 4 months ago
Thanks! but this is a numeric training camp. I hope it can be more related to numeric methods, like tensor networks.
A simple try: Inspired by networked polymers
The logo can be regarded as tensor network or graph for computation complexity or networked polymers for MD simulations, and of course the color is for Julia.
Xuanzhao gave a clean and elegant solution. I like it a lot but I still provide a few alternatives.
This logo depicts an abacus (computation), where beads looks like a PEPS (tensor network). But I cannot get one that looks like Xuanzhao's. How did you generate it? @ArrogantGao
As continuation of Blowfish for rydberg atom, we could use a spider for this camp. The web resembles PEPS tensor network.
wow, @exAClior 's new designs are cool, I like the first one. I draw my design manually XD
May be we can use to abstraction of the Abacus and the tensor network to generate our logo.
May be we can use to abstraction of the Abacus and the tensor network to generate our logo.
I agree. But I could not let MidJourney do exactly what I envision. It's never as clean as your design.
We may have to generate that manually. Maybe we can just draw some draft first?
Wow, they all look very good. I really like the animal serie. We had Blowfish already, maybe this time we can use spider or centipede?
We may have to generate that manually. Maybe we can just draw some draft first?
Exactly, I generated those figures from another (crude) picture I made. Midjourney seems a bit smarter that way.
Wow, they all look very good. I really like the animal serie. We had Blowfish already, maybe this time we can use spider or centipede?
I like Xuanzhao's design for simplicity. If the logo will only appear as a small thumbnail, we should use his. The spider is really cute but there are too much detail. We could use it if the logo is displayed as a larger picture. @GiggleLiu Here's a quick try on the centipede, he is holding an abacus. let me know if you would like to see any improvements.
Here are a few attempts. However, they don't capture essense of this camp's focus (tensor network methods and quantum monte carlo methods for simulation of rydberg atom). I will see if I can come up with something better.