What Is A Free Memory Slot

VMware HA Slot is the default admission control option prior to vSphere 6.5. Slot Size is defined as the memory and CPU resources that satisfy the reservation requirements for any powered-on virtual machines in the HA cluster.This article is just to cover how the HA slots are calculated step by step not more than that. If you want to read the detailed information about HA, Please refer HA Deep Dive by Duncan Epping.
  1. Sodimm Memory Slots Free
  2. What Is A Free Memory Slot Software
  3. Memory Slots On Computer
  4. What Is A Free Memory Slot Games
  5. Memory Slots Available

Memory SlotsDifferent motherboards will have a different number of memory slots. A standard desktop motherboard will generally have two to four memory slots. Servers, high-end workstations and dual CPU motherboards may have more than four memory slots. You will notice that the memory slots are generally different colors. Memtest86+ showing different speeds for memory slots I have a Pegatron Violet6 motherboard. There are four memory slots, and I have four 4-GB sticks of RAM. I've been having a lot of BSODs lately, so I decided to test my RAM again. Putting in one stick at a time and running memtest86+ gives: Slot 1: All four sticks test okay and show 666 MHz.

What is VMware HA Slots ?

As per VMWare’s Definition,

“VMware HA slots is a logical representation of the memory and CPU resources that satisfy the requirements for any powered-on virtual machine in the cluster.”

If you have configured reservations at VM level, It influence the HA slot calculation. Highest memory reservation and highest CPU reservation of the VM in your cluster determines the slot size for the cluster.

Here is the Example,

If you have the VM configured with the highest memory reservation of 8192 MB (8 GB) and highest CPU reservation of 4096 MHZ. among the other VM’s in the cluster, then the slot size for memory is 8192 MB and slot size for CPU is 4096 MHZ. in the cluster.

If no VM level reservation is configured , Minimum CPU size of 256 MHZ and memory size of 0 MB + VM memory overhead will be considered as CPU and Memory slot size.

Calculation for Number of HA Slots in cluster :-

Once we got the Slot size for memory and CPU by the above method , Use the below calculation

Num of CPU Slots = Total available CPU resource of ESX or cluster / CPU Slot Size

Num of memory slots = Total available memory resource of ESX or cluster minus memory used for service console & ESX system / Memory Slot size

Let’s take a Example,

Sodimm Memory Slots Free

I have 3 host on the cluster and 6 Virtual machine is running on the cluster and Each host capacity as follows

RAM = 50 GB per Host

CPU = 8 X 2.666 GHZ per host

Cluster RAM Resources = 50 X 3 = 150 GB – Memory for service console and system = 143 GB

Cluster CPU resources = 8 X 2.6 X 3 = 63 GHZ (63000 MHZ) of total CPU capacity in the cluster – CPU Capacity used by the ESX System = 60384 MHZ



I don’t have any memory or CPU reservation in my cluster, So, the default CPU slot size 256 MHZ and one of my Virtual machine is assigned with 8 vcpu and its memory overhead is 344.98 MB (which is the highest overhead among my 6 virtual machines in the cluster)

Let’s calculate the num of CPU & Memory slots

Num of CPU Slots = Total available CPU resource of cluster / CPUSlot size in MHZ

No of CPU Slots = 60384 MHZ / 256 MHZ = 235.875 Approx

Num of Memory Slots = Total available Memory resource of cluster / memory Slot Size in MB

What Is A Free Memory Slot Software

Memory slot types

Num of Memory Slots = 146432 / 345 = 424 Approx

Memory Slots On Computer

The most restrictive number among CPU and Memory slots determines the amount of slots for this cluster. We have 235 slots available for CPU and 424 Slots available for Memory. So the most restrictive number is 235.

So, Total number of slots for my cluster is 235 Approx. Please find the below snapshot

What Is A Free Memory Slot Games

Please refer my blog post on Understanding Total Slots, Used Slots & Available slots in VMware HA Slot to understand Total Slots, Used Slots & Available slots. I hope this article is helpful to you to understand HA slots calculation. Thanks for Reading!!. Be social and share it in social media, if you feel worth sharing it.

Memory Slots Available


In this video from ITFreeTraining, I will look at memory slots. Memory slots allow memory to be installed into your computer. It also allows memory to be upgraded easily.
Download the PDF handout:
Memory Module
In computing, a memory module is essentially a printed circuit board with memory chips mounted on it. In the early days of computing, these memory modules were proprietary in design. The proprietary design meant that the memory module would only work on a certain computer and a certain model of that computer.
As time went on, memory modules were standardized. This allowed memory modules to be used in any system that was designed to use them. You can see this motherboard has four memory slots. To install a memory module, it is just a matter of inserting the memory module into the slot.
The memory modules in a computer hold the data and programs that the computer uses. The memory that is used is called Random Access Memory or RAM.
Random Access Memory
Random Access Memory allows the computer to access any data in the memory modules at any time. Memory is accessed by the computer like you would access data in a spreadsheet. Essentially the computer can access any memory inside the memory module, in the same way you can access any cell in a spreadsheet.
The memory is laid out in ones and zeros, however when accessing the memory, it will be accessed as a group. In later videos I will look at this in more detail. Inside the memory module, depending on who makes it, the data may be grouped into groups of four bits called a nibble. However, data leaving or entering the memory module will always be a minimum of eight bits called a byte. Nowadays, generally more data is transferred than a byte at one time, and in later videos I will look at this in more detail.
Single In-line Memory Module (SIMM)
The first memory modules commonly sold were called single in-line memory modules or SIMMs. These memory modules had memory chips on one side of the memory board. As you can see in these examples, memory chips are found only on one side.
Having only one set of chips means that less connectors are required to connect the memory modules to the computer. This makes it less complex, but also means that there is the other side that you are not using. Using both sides increases the amount of chips on the memory modules and thus increases the amount of memory that it can store. Also, having more chips increases the amount of data that can be transferred at once.
Dual In-line Memory Module (DIMM)
Having memory chips on both sides is called dual in-line memory module or DIMM. You can see some examples of a few DIMM memory modules. Nowadays you will find that generally all memory modules are double sided. The memory modules for desktop computers will generally have a minimum of eight chips on each side. Given that there are eight bits in a byte, this is no coincidence. We will look more into this in later videos.
Memory Slots
Different motherboards will have a different number of memory slots. A standard desktop motherboard will generally have two to four memory slots. Servers, high-end workstations and dual CPU motherboards may have more than four memory slots.
You will notice that the memory slots are generally different colors. The different colors will assist you when installing the memory modules. The motherboard will generally use memory modules in pairs. When the memory module is installed in a pair, they will work together giving better performance. Refer to your motherboard manual for more information on this. In some cases, the computer will not start up if a memory module is not installed in a particular slot. Usually a memory module closest to the CPU will need to have a memory module installed in it for the computer to start up. If no memory module is installed in this slot, the computer will not start.
I hope you have found this video on memory slots useful. Later in the course I will go into a lot more details about memory and how it works. I look forward to seeing you in these videos. Until then I would like to thank you for watching.
References
“The Official CompTIA A+ Core Study Guide (Exam 220-1001)” Chapter 3 Position 5661-5848
“CompTIA A+ Certification exam guide. Tenth edition” Pages 90
“Memory module” https://en.wikipedia.org/wiki/Memory_module
“Picture Atari STE 256kB RAM” https://commons.wikimedia.org/wiki/File:Atari_STE_256kB_RAM_1.jpg
Credits
Trainer: Austin Mason http://ITFreeTraining.com
Voice Talent: HP Lewis http://hplewis.com
Quality Assurance: Brett Batson http://www.pbb-proofreading.uk