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vSphere High Performance Cookbook - Second Edition

You're reading from   vSphere High Performance Cookbook - Second Edition Recipes to tune your vSphere for maximum performance

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Product type Paperback
Published in Jun 2017
Publisher
ISBN-13 9781786464620
Length 338 pages
Edition 2nd Edition
Tools
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Authors (3):
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Christopher Kusek Christopher Kusek
Author Profile Icon Christopher Kusek
Christopher Kusek
Prasenjit Sarkar Prasenjit Sarkar
Author Profile Icon Prasenjit Sarkar
Prasenjit Sarkar
Kevin Elder Kevin Elder
Author Profile Icon Kevin Elder
Kevin Elder
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Toc

Table of Contents (11) Chapters Close

Preface 1. CPU Performance Design 2. Memory Performance Design FREE CHAPTER 3. Networking Performance Design 4. DRS, SDRS, and Resource Control Design 5. vSphere Cluster Design 6. Storage Performance Design 7. Designing vCenter on Windows for Best Performance 8. Designing VCSA for Best Performance 9. Virtual Machine and Virtual Environment Performance Design 10. Performance Tools

Using large pages in VMs

VMware ESXi provides 2 MB memory pages, commonly referred to as large pages, along with usual 4 KB memory pages. ESXi will always try to allocate 2 M pages for main memory and only on failure try for a 4 or small page. VMs are large pages if 2 M sequences of contiguous are available. The idea is to reduce the amount of page sharing and also increase the memory footprint of the VMs. The biggest benefit is of mitigating TLB-miss (short for Translation Lookaside Buffer), which costs as much as possible for Nested Page Table-enabled servers running ESXi.

However, allocating memory in 2 M chunks may cause the memory allocated to the VM to become fragmented. But as small pages are allocated by a guest and VM, these larger sequences need to be broken up.

So if defragmentation occurs, there could be enough memory to satisfy a large page request even when there...

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