- Zemax 16 gaussian source wave number non sequential mode how to#
- Zemax 16 gaussian source wave number non sequential mode code#
For this, you have to check the instructions that they give to authors and it is present in nearly all the journals on their website.Īfter you have completely satisfied with any journal of advanced scientific research, you can proceed further with the publication process. Also, you should check their editorial policies and the practices which the journal follows along with their reviewing process and the time they take for publication. This helps in finding suitable readers who will admire your work. The subject area which the journal covers is also one of the important factors that one should look for. Visiting the website of your selected journal will provide you with such information about the journal. Submitting your paper in a low-impact journal will degrade the quality of your research and your work will not be visible to the audience that you wished for. The rank of the journal and its readers play an important role in determining the impact of any journal. You can consult your friends, colleagues, or professor for this or can browse through the internet. It is necessary to develop some knowledge about the journals available as per your requirement or that lies in your research area. Tips to Select journal of advanced scientific research IJSRET would like to guide such researchers in selecting a suitable journal- Submit Paper Now Article Processing Charges
One should also check the expectation level of the journal before submitting also. The process is complex because one has to seek such a journal that matches his domain of work. It is a difficult task to select a journal of advanced scientific research after a researcher has completed his laborious work.
Zemax 16 gaussian source wave number non sequential mode how to#
Contact the vendor and just buy their recommendation, they are likely tracking what is good hardware for their program.A Guide to How to Select the best journal of advanced scientific research
This is all noise when you just want to bend more rays faster, but tl dr performance is hard and getting it to be optimum is not trivial. If they compiled with intel targets, the math library would optimize itself for intel which hurts AMD performance. If you see openblas or atlas, you can expect better parity for intel/win if they compiled with the generic CPU targets. You can take a peek into their program files folder to see what they used. You can research MKL performance on intel vs AMD to see if this might make the Ryzen chip that trashes the intel chip in benchmark XYZ actually faster for the lens design program. Getting the fastest CPU you can find in single threaded performance with a "reasonable" number of cores, which seems to be 6 or 8 these days, will likely yield the best bank for your buck.Īnd as a quiet suggestion, many of these lens design softwares are compiled with MKL for the matrix backend. What I'm really getting at is chasing high core counds while, say, window shopping an EPYC based PC, is not the fast horse to top performance. You might expect the 48 core machine to offer 10x performance outright, but I found that each node was only about 40% faster than my laptop, and for each new node added you lost about ten percent of the performance improvement. I also ran it on my laptop with a comparatively tiny four cores.
Zemax 16 gaussian source wave number non sequential mode code#
When I was working on my thesis, I ran my code on a supercomputer cluster with (20 nodes at 48 physical cores each = 960) behind the wheel. While it isn't a direct answer to your question, I might add that more is not always more.