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2 X Slot Sodimm Memory Slot losses have occurred in the past. In other words, the result of your last game has no bearing on the result of your next game. Online Slots games come 2 X Slot Sodimm Memory Slot in many varieties, each with different jackpots and different outcome possibilities. Odds of winning smaller prizes are much greater than 2. The two extra NVMe drives is mounted on interposer board in the 2.5' ssd slot. And the ram slots in R1 is stacked. You only replace the 2.5 ssd. You won't get more space for other hardware in the R2 chassis.

2) Which memory should I use with my AMD Phenom II CPU? The Phenom II CPU is designed for the AMD AM3 Socket and supports dual channel DDR3 memory configurations. You can find memory designed and tested to run with the AMD Phenom II here, or you can look up your motherboard on our Memory Configurator to get specific memory recommendations for. Now I figured tht the second SO-DIMM slot is either disabled on not working. If it is Disabled how can I enable it? If its not working then what should I do? Laptop configuration Sony VAIO VGN-C25G Intel® Centrino® Duo Mobile Technology.Intel® Core™2 Duo Processor T5500 (1.66GHz).Intel® PRO/Wireless 3945ABG Network Connection.

A SO-DIMM, SODIMM, or small outline dual in-line memory module, is a type of computer memory built using integrated circuits. SO-DIMMs are a smaller alternative to a DIMM, being roughly half the size of regular DIMMs.

SO-DIMMs are often used in systems that have limited space, which include laptops, notebooks, small-footprint personal computers such as those based on Mini-ITXmotherboards, high-end upgradable office printers, and networking hardware such as routers and NAS devices.^[2]

Visual identification[edit]

Most types of SO-DIMMs can be recognized visually by the distinctive notches that 'key' them for different applications:^[1]

• 100-pin SO-DIMMs (SDR SDRAM) have two notches.^[3]
• 144-pin SO-DIMMs (SDR SDRAM) have a single notch near the center.^[4]
• 200-pin SO-DIMMs (DDR SDRAM or DDR2 SDRAM) have a single notch nearer to one side.^[5] The exact location of this notch varies (read below).
• 204-pin SO-DIMMs (DDR3 SDRAM) have a single notch closer to the center than on 200-pin SO-DIMMs.^[6]
• 260-pin SO-DIMMs (DDR4 SDRAM), 69.6 mm (2.74 inches) wide and 30 mm (1.2 inches) high, making them 2 mm (0.079 inches) wider than DDR3 SO-DIMMs, with a single notch after pin 144.^[7]
• 260-pin SO-DIMMs (UniDIMM), 69.6 mm (2.74 inches) wide and 30 mm (1.2 inches) or 20 mm (0.79 inches) high, with a single notch placed differently than on DDR3 SO-DIMMs.^[8][9]

Variants of 200-pin SO-DIMMs[edit]

The 200-pin SO-DIMM can be of the types DDR and DDR2. In both cases the notch is located at one fifth of the board length (20 pins + notch + 80 pins), but in DDR2 the notch is located slightly closer to the center of the board. These two types of memory are not interchangeable. The different notch locations are designed to prevent cross-installation, aiding at the same time in visually identifying 200-pin SO-DIMM modules.^[1]

This variance is designed to prevent coupling of memory and controllers of different DDR generations due to electrical incompatibility. DDR SO-DIMMs operate at 2.5 V while DDR2 SO-DIMMs operate at 1.8 V.^[10]

Variants of DDR3 SO-DIMMs[edit]

These modules, while using the same physical layout, may differ in the specified voltage – 1.5 or 1.35 volts. The lower voltage modules are sometimes, but not always, identified as DDR3L – see also DDR3 SDRAM.

General characteristics[edit]

200-pin and 204-pin SO-DIMMs are 67.6 mm (2.66 inches) long, 31.75 mm (1.250 inches) wide, having a maximum total depth of 3.8 mm (0.15 inches).^[11]

SO-DIMMs are nearly equal in power and voltage rating to DIMMs; SO-DIMM technology does not mean lower performance compared to larger DIMMs. For example, DDR3 SO-DIMMs provide clock speeds such as 533 MHz (1066 MT/s, PC3-8500), CAS latencies such as 7, and higher capacities such as 4 GB per module.^[12]

DDR2 SO-DIMM memory modules commonly have clock speeds from 200 MHz upward (specifications). 204-pin SO-DIMMs can also contain DDR3 SDRAM, with specifications such as PC3-6400, PC3-8500, PC3-10600, PC3-14900 and PC3-17000.^[13] 260-pin UniDIMMs contain DDR3 or DDR4 SDRAM depending on configuration. Some SO-DIMMs provide ECC functionality; unbuffered ECC SO-DIMMs are called SO-CDIMMs.^[14]

See also[edit]

• Dual in-line package (DIP)
• Memory geometry – logical configuration of RAM modules (channels, ranks, banks, etc.)
• Rambus in-line memory module (RIMM)
• Single in-line memory module (SIMM)
• Single in-line package (SIP)
• Zig-zag in-line package (ZIP)

References[edit]

1. ^ ^abc'Are DDR, DDR2 and DDR3 SO-DIMM memory modules interchangeable?'. acer.custhelp.com. Retrieved 2015-06-26.
2. ^Synology Inc. 'Synology RAM Module'. synology.com.
3. ^'RAMCHECK 100-Pin DDR Adapter, a tool for testing and identifying JEDEC-compliant 100-pin DDR SO-DIMM modules'. memorytesters.com. 2013. Retrieved 2015-06-26.
4. ^'Small-outline SDRAM module (MT16LSDF3264(L)H 256 MB and MT16LSDF6464(L)H 512 MB) Datasheet'(PDF). Micron Technology. 2006-05-03. p. 22. Retrieved 2015-06-26.
5. ^'DDR DIMM & SODIMM Modules (184-pin DDR DIMM, 100-pin DDR DIMM, and 200-pin DDR SO-DIMM modules)'(PDF). smartm.com. 2011. p. 4. Retrieved 2015-06-26.
6. ^'NT2GC64B(C)H4B0PS / NT4GC64B(C)88B0(1)NS / NT8GC64B(C)8HB0NS PC3(L)-10600 / PC3(L)-12800 Unbuffered DDR3 SO-DIMM'(PDF). nanya.com. December 2012. p. 23. Retrieved 2015-06-26.
7. ^'DDR4 SDRAM SO-DIMM (MTA18ASF1G72HZ, 8 GB) Datasheet'(PDF). Micron Technology. 2014-09-10. p. 18. Archived from the original(PDF) on 2014-11-29. Retrieved 2015-06-26.
8. ^Geof Findley; Becky Loop (2014-09-16). 'DDR4: The Right Memory for Your Next Server and High-End Desktop System'(PDF). intel.activeevents.com. Intel. p. 28. Archived from the original(PDF) on 2014-12-17. Retrieved 2015-06-26.
9. ^'How Intel Plans to Transition Between DDR3 and DDR4 for the Mainstream'. techpowerup.com. 2014-09-14. Retrieved 2015-06-26.
10. ^'DRAM – Can I mix DDR, DDR2 and DDR3 modules-my PC?'. integralmemory.com. Retrieved 2015-06-26.
11. ^micron.com - 200 Pin, PC2700 DDR SDRAM Unbuffered SO–DIMM REFERENCE DESIGN SPECIFICATIONArchived 2010-09-23 at the Wayback Machine page 26
12. ^'Corsair Memory – 4GB DDR3 SODIMM Memory (CM3X4GSD1066)'. corsair.com. Retrieved 1 October 2015.
13. ^'204-Pin DDR3 SDRAM Unbuffered SODIMM Design Specification'.
14. ^'Define-SO-CDIMM'. RAMpedia. Retrieved 2014-08-24.

External links[edit]

• Ruggedizing RAM for industrial systems (XR-DIMM form factor)

Recently, I upgraded my laptop’s RAM from 8 GB to 16 GB and if you are on the same page wondering whether it is running in the dual-channel mode. Here is how to check it.

Foremost, check on the manufacturer’s website that your motherboard supports dual-channel memory. Next, it’s pretty straightforward and you require an app called CPU-Z. But before that, we will have to understand what is the dual-channel mode and how to ensure you install a RAM in dual-channel mode. If you are well aware of these concepts, you can move ahead to this portion.

Consider the channels as roads from your RAM to the CPU. When there is a single channel or a single road, the vehicles have to drive in a single line behind each other. Whereas in the case of dual-channel memory, 2 vehicles can drive simultaneously which leads to an increased number of vehicles or more data being sent.

Now, there is an intermediatory unit between the RAM and CPU known as the memory controller which guides the data to and fro.

Previously in the single-channel architecture, there was a single path to send data. So, the memory controller couldn’t route data simultaneously from 2 RAM sticks. This caused the CPU to wait and it is known as the bottleneck effect. Later, we doubled up this wired route which is known as dual-channel architecture (you also have triple and quad-channel, let’s leave it for this article). This enabled the controller to route data simultaneously from 2 RAM sticks to the CPU. Hence, the CPU has enough data to process every time and it doesn’t have to wait. This eliminates the bottleneck between the CPU and RAM.

So switching to dual-channel will let you better utilize your CPU with the only bargain being the increased RAM stick. To show the difference between single-channel and dual-channel, I did a benchmark with a single Crucial 8GB 2400 Mhz RAM and 2 x 4 GB 2400 Mhz RAM sticks. The results show that when in dual-channel mode (ie. 2 x 4 GB sticks), the read-write speeds are about 25-30% higher.

Read: CRU Monitor Overclocking and How Do You Do It?

How to choose RAM for dual-channel mode

To begin with, I am using an Acer E5-575G laptop which uses SODIMM memory sticks. In simple words, DIMM is basically longer memory sticks for desktop motherboards whereas SODIMM is a smaller memory stick for notebooks. Here, I am using a SODIMM memory for my laptop which has 2-memory channels.

Laptops have only 2 memory slots so they are supposed to run in dual channel (if supported on the motherboard). Desktop motherboards, on the other hand, have 4 channels and even 6 to 8 channels, so you need to put the RAM sticks in channels that are similarly color-coded. For instance, in the below figure, the RAM channels are colored black and blue. So, if you insert the RAM sticks in the blue slots or black slots it would run in dual channel mode. In case you insert one of the stick in the black slot and the other one in the blue slot, it won’t run in dual channel mode.

With all the complexities aside, now let’s move down to RAM specs. There is a lot of confusion on RAM specs and what dual-channel requires, let’s discuss those.

Foremost, it’s advisable to buy RAM kits or the same RAM units. The reason being, the RAM needs to have the same Double Data Rate version (DDR), the same frequencies and the capacity to run at full potential. Having said that, there are some misconceptions about the dual-channel mode.

8gb Ddr3 Sodimm Memory

• If you have RAMs with different frequencies it won’t run in dual-channel mode.

Wrong! In case you have a 2400 Mhz RAM and 1800 Mhz RAM, it will run in dual-channel but will fall back to the lower 1800 Mhz frequency.

• Similarly, if you have an 8 GB RAM and a 4 GB RAM stick, it won’t run in dual-channel mode.

Wrong! This is called mismatched memory. However, due to modern-day CPUs, it will still run in dual-channel mode. The first 8 GB will run in dual-channel whereas the rest of the 4 GB will run in the single-channel. To know more about this, read about Intel’s Flex memory mode and flex mode even works on AMD CPU’s. Have a look, at the following screenshot.

However, if you have the budget and resources, it is advised to use a similar specification memory.

How to check dual-channel mode

The easiest way is by using a third-party app called CPU-Z. Download, install and open the app. The first page would provide you a summary of the CPU specifications. Move over to the Memory tab and in the first row you would see a labeled as “Channel #”.

This shows you the memory channel mode. In my case, I have a couple of 8 GB RAM sticks installed on my laptop. So, you can see the channel mode says “Dual”. In case, you have memory sticks running in single-channel mode, it would show up as “Single”

Download CPU-Z

Additionally, you can also check the dual-channel mode through a benchmarking app like MaxxMem. Moreover, some manufacturers like the ASUS or the Acer predator show the memory channel mode in the BIOS menu itself.

For iMac, you can do so using the System Information inbuilt app. Navigate to the Memory tab and you would see memory slots. Count the number of Banks to determine the number of channels. In my case, we have Bank 0 and Bank 1 which means dual channel.

In the case of Linux, you can use the following command

Fore more issues or queries regarding RAM and dual-channel mode, let me know in the comments below.

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Also Read: Best GPU Overclocking Software to Boost Graphics Performance