Simulating a 6D post-merging channel with ICOOL-MPI and 6 figure beam distributions Diktys Stratakis 1.

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Presentation transcript:

Simulating a 6D post-merging channel with ICOOL-MPI and 6 figure beam distributions Diktys Stratakis 1

2 Scotts Shuffled Distributions

3 ICOOL-MPI vs. ICOOL Classic 2 minutes (MPI) vs 3 hours (in my fast laptop) vs. 5 hours in my cheap home laptop!

Shuffled and unshuffled

5 Bobs Multi-Track Distributions Shuffled

Post-Merging Performance Requires new optimizations! Rerun 11 stages of the post-merging Guggenheim 6

Overview of the 6D Cooling after merging Two constraints: Do not go below longitudinal ε=2mm & stay within j vs. B plot requirements. Final beam must have mm and 2 mm trans and long. emittance Start with a lattice that has the classic flip configuration. Ask how many stages can we simulate until we exceed the current density threshold? Is it 11 stages? The what are the best emitances we can get with the classic configuration? Good news: 6 figure beam distributions and ICOOL parallel! 7

6D Cooling after merging Outlook 8 Good news:6 figure beam distributions and ICOOL parallel! Any optimizations can be done really fast

9