Denver - ALARM

Showing results for 
Search instead for 
Did you mean: 

Would like hear thoughts on high end work stations for LV simulations

I am just retired and am about to set up a small consulting business.  I am looking to upgrade my home computer to an engineering work station class device.  I do laser and physics simulations in LabView and am looking for compatible CPUs and GPUs to run repetitive 2-d FFTs in  my codes.  What open software is out there for using the GPU cards?  etc. I would like to hear your views on what hardware and software would make a device capable of fast simulations.



0 Kudos
Message 1 of 2

Any modern processor will work great. If your code has potential for high parallelization, high core counts help. (This currently means AMD. Have a look at my benchmark page.)


Properly written LabVIEW code works well without any special toolkits. How big are your 2D arrays? What is your definition of "fast"? For the same algorithm better hardware can give you maybe a factor of two. Better code can give you orders of magnitude better performance over poorly written code. So focus on code first! We can help. Be careful, parallelization has some overhead and might slow you down. Always try both.


There is also the LabVIEW Multicore Analysis and Sparse Matrix Toolkit (mostly useful for large data structures)


To take advantage of the GPU, there is the LabVIEW GPU Analysis Toolkit  (I haven't really played with this).



0 Kudos
Message 2 of 2