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How to change x-axis ticks labels in stackedplot?

  h = stackedplot(rand(6,3));   I want to set x-axis ticks according to my own defined set i.e., instead of 1:6, I want to replace x-axisticks [1, 2,3 ,4,5,6] to ['A', 'S','T', 'AAA', 'BBB', 'ZZZ'] , by rotating it to 90 degree that is vertically insted of horizontally?     NOTE:- Matlabsolutions.com  provide latest  MatLab Homework Help, MatLab Assignment Help  ,  Finance Assignment Help  for students, engineers and researchers in Multiple Branches like ECE, EEE, CSE, Mechanical, Civil with 100% output.Matlab Code for B.E, B.Tech,M.E,M.Tech, Ph.D. Scholars with 100% privacy guaranteed. Get MATLAB projects with source code for your learning and research. There does not seem to be an easy way to set the  XTick  or  XTickLabel  of a  StackedLineChart  object (such as what's created by  stackedplot ):   data = rand(6,3); h = stackedplot(1:6,data); % try a couple of things, neither of which work try set(h,'XTick',1:6,'XTic
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Nvidia NVLink in MATALB using multiple Geforce 2080 ti cards

 The NVLink yields a high bidirectional bandwidth between the cards (the Geforce 2080 ti offers 100 GB/, while the GeForce RTX 2080 offers 50GB/s). When fully utilized, the NVLink will minimize inter-GPU traffic over the PCI Express interface and also allows the memory on each card to behave more as a single, shared resourceThis opens up the possibility for new multi-GPU modes for scientific analysis and big dataworkloads as well.

 
Will Matlab take advantage of the nvlinks ability to share resources between cards in future releases (R2019a/R2019b)?


NOTE:-


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I understand that you want to use Nvidia NVLink with MATLAB to leverage multiple Nvidia Geforce 2080 ti graphic cards.
 
Currently, there is no straightforward way to utilize the high bidirectional bandwidth to distribute the computations across the available GPUs. This would be possible with the introduction of distributed GPU arrays which can use all GPUs and gather the results back automatically. Distributed GPU arrays are currently not supported in MATLAB.
 
Our development teams are aware of this and are currently considering "distributed GPU Arrays" for future releases of MATLAB.
 
Currently, there are no commands to enable NVLink in MDCS. As a workaround to leverage NVlink, you can use "gop" function as in example given below that does the computation in each gpu and get the result back :

 SEE COMPLETE ANSWER CLICK THE LINK

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