In my earlier post describing NX-8170-G7 and NX-3170-G6 DPTPB Nutanix Dynamic Visio shapes, I was surprised to see that NX-8170-G7 only supported NVMe drives and I was missing a direct G7 generation equivalent for NX-3170-G6. It seems that I wasn’t the only one missing NX-3170-G7 and after all Nutanix decided to introduce NX-3170 also with G7 generation.
So it is time for me to update my Unofficial DPTPB Nutanix Dynamic Visio shape collection. Additionally there has been some changes in supported disk / NIC combinations for existing G7 generation NX appliances and I’ve modified the shapes to reflect these changes.
Continue reading “Unofficial DPTPB Nutanix Dynamic Visio Shapes: NX-3170-G7 & Minor updates”
In my previous post I covered DPTPB Dynamic shape usage in manual mode. At the end of the previous post I described briefly how to add new disk sizes to existing front view shapes and promised to deliver more detailed and safer instructions for adding new disk sizes.
The method I described earlier is based on manually editing shapesheet variables in master shapesheet. While not awfully difficult, manually editing might sound scary to users unfamiliar with Visio shapesheets and variables. Additionally manual operations always carry more risks.
Maybe there is a better way?
Continue reading “Unofficial DPTPB Nutanix Dynamic Visio Shapes: Custom Disk Sizes”
Having automation, like found in the DPTPB dynamic shapes which will automatically populate your shapes with additional elements, is usually a good thing.
One could compare automation to using GUI. It makes life easier and there are safeguards preventing users from making mistakes.
However automation without ability to override or handle exceptions might not be such a good thing. You are limited to what the automation can do and you might not be able to handle exceptions. One way to handle exceptions would be to provide CLI access with more freedom to do things in more manual fashion.
To give users freedom to handle exceptions or by-pass automation, I’ve designed the Dynamic shapes in a way that still allows the shapes to be used in manual (non-dynamic) mode, instead of relying on the built-in automation. In manual mode users can combine shapes as they desire without the built-in automation restricting their choices. And best of all (for CLI haters), no CLI required…
Just bear in mind: With more freedom comes more responsibility.
Continue reading “Unofficial DPTPB Nutanix Dynamic Visio Shapes: Non-Dynamic mode”
More in depth notes regarding NX-3155G-G7 & NX-3155G-G6 Dynamic Visio shapes.
While NX-3155G-G7/G6 front-view shapes are as easy to use any other dynamic shapes, mixing NICs and GPUs with NX-3155G-7 and NX-3155G-G6 rear view shapes has added some complexity.
You might save some headaches by checking this documentation before trying the NX-3155G-G7 and NX-3155G-G6 rear-view shapes, if you opt to NOT to use automated placement of NICs/GPUs and decide to place them manually. Even more so than with NX-3170-G6.
In dynamic / automatic mode NX-3155G-Gx rear view shapes are as easy to use as any other dynamic shape and should not cause any headaches.
Continue reading “Unofficial DPTPB Nutanix Dynamic Visio Shapes: NX-3155G-G7 & NX-3155G-G6”
More in depth notes regarding NX-8170-G7 & NX-3170-G6 Dynamic Visio shapes.
While NX-8170-G7 & NX-3170-G6 front-view shapes are as easy to use any as other dynamic shapes. Mixing NICs and GPUs with NX-3170-G6 rear view shapes has added some complexity.
You might avoid having some headaches by reading this documentation before trying the NX-3170-G6 rear view shapes, if you opt to NOT to use automated placement of NICs/GPUs and decide to place them manually.
Continue reading “Unofficial DPTPB Nutanix Dynamic Visio Shapes: NX-8170-G7 & NX-3170-G6”