Best RAM [Random Access Memory]
Top 7 Best RAM in India | 24th Sep 2021
PC RAM, Laptop RAM, Computer RAM, Desktop RAM
Reviews, Comparison and Buying Guide
What is a RAM
RAM is an acronym for random-access memory and refers to a form of temporary memory used by computers. Unlike an HDD or an SSD, RAM is continuously overwritten and refreshed because its purpose is to allow a CPU to quickly access relevant data without storing it permanently.
That said, it is significantly faster than any permanent storage solution. Still, the main downside and the reason why it cannot be used for long-term storage is that it can only temporary store data while it is powered.
How a RAM works?
RAM’s purpose is to store the short term data that a PC requires to properly operate. But unlike a hard disc drive or SSD (solid-state drive), which store data indefinitely, RAM resets every time the system is rebooted.
RAM is “volatile memory,” meaning it only stores data when it has power, as opposed to a “non-volatile” HDD or SSD. Programs are loaded into RAM temporarily while in use, but reside on a storage drive permanently (until deleted).
Computers need quick access to temporary data in order to run programs or execute tasks. Modern PC games, for example, need to rapidly retrieve art assets. Games read and write data to RAM because it’s orders of magnitudes faster than accessing data on a storage device.
Benefits of good RAM
It is used to store relevant data that the CPU or GPU need to access quickly. As such, it is crucial for efficient multi-tasking i.e., keeping a large number of programs open at once and working smoothly.
And as for gaming, it stores all the relevant assets that the game would need to access quickly.
Best RAM Buying Guide : Things to consider while buying a Random Access Memory
With the increase in bandwidth of internet, data and media consumption, the need of having a fast system is increasing by the day. One of the easiest way give a boost to your computer is by getting more RAM.
Here is a simple guide on how you should choose your system memory, be it an upgrade or if you are building a new PC.
Laptop and Desktop RAM
Laptops/notebooks and desktops use a different type of RAM that mainly differs in form factor, i.e., size, and the configuration of the connector pins through which it interfaces with the motherboard.
Laptops support what is known as SO-DIMM (Small Outline Dual In-Line Memory Module), while desktops use DIMM (also known as UDIMM) module RAM (Dual In-Line Memory Module). As the names suggest, SO-DIMM is quite simply a smaller version of DIMM.
Due to the space constraints inherent in a laptop, SO-DIMM is about half the size of DIMM, 2.74-inches in length, as opposed to the standard DIMM length of 5¼-inches. SO-DIMM has 260 pins, while DIMM has 288 pins.
Right Type of DDR
Modern RAM is DDR SDRAM, and the home computer has gone through a total of four versions of it over the past two decades: DDR, DDR2, DDR3, and DDR4.
The vast majority of modern machines use the fourth-generation DDR4 that reached mass-market adoption around 2016. Meanwhile, DDR3 memory and DDR3-compatible motherboards are still available, but DDR3 is on the verge of being completely obsolete.
Motherboard Form Factor
Determining whether your motherboard supports DDR4 or DDR3 is quite simple: search for System Information, and then under System Summary, you’ll be able to see which motherboard you have in the System Model field.
Then, all you need to do is find that model on the manufacturer’s website and check all the information that you need in the spec sheet.
Next, there’s the number of RAM slots, which is easy to determine from the official page or by taking a look at the motherboard itself. The number of slots varies based on the form factor of the motherboard.
CPU and OS Limits
Motherboards have a RAM ceiling, and so do CPUs. But just like with motherboards, this limit won’t be an issue with modern 64-bit CPUs that commonly support up to 64 GB or 128 GB of RAM, as with the latest 9th generation Intel Core and the 3rd generation AMD Ryzen
As long as you have a relatively new-ish 64-bit CPU, you don’t really need to worry about RAM limitations imposed by the CPU or the OS, as gaming PCs hardly need more than 16 GB of RAM at the moment. But of course, if you’re using an older CPU, it never hurts to check and be sure.
Aesthetics and Cooling
Memory heatsinks can make your setup look more attractive. However, they are often purely aesthetic.
RAM generates heat like any other component, but it doesn’t run very hot unless it’s operating at unusually high speeds. Feel free to skip the heatsink if you’re not seriously overclocking your RAM. However, as with any component, it’s always good to make sure your memory is exposed to proper airflow.
Measured in MHz, just like the clock speed of a CPU or GPU, the clock speed of a RAM module determines how fast it can process data, which obviously reflects on the performance.
Generally speaking, higher clock speed is always better, but capacity is always more important than speed when it comes to gaming.
Higher clock speeds and overclocked RAM can indeed constitute a performance improvement, but it would come down to a couple of frames at best, so it’s really not worth spending extra on fast RAM with a flashy heat spreader if you want to get the best value for your money.
As we have previously mentioned, capacity is the most important factor when gaming is concerned, and at the moment, 16 GB is the golden number. Cramming 32 GB or more RAM into a gaming PC is just overkill in 2021, while 8 GB will usually be too little.
Nonetheless, you could still go with 8 GB at first and then upgrade further down the road, or you could go as high as 32 GB if you also intend on using some RAM-intensive programs or just want a more future-proof build.
Top 7 Best RAM – [Updated and Highly Recommended]
- 8GB, DDR4 RAM
- Memory Speed-2666MHz /PC4-21300 (2666MHz)
- ECC Type = Non-ECC, Form Factor = SODIMM, Pin Count = 260-pin, PC Speed = PC4-21300, Voltage = 1.2V, Rank and Configuration = 1Rx16, 1Rx8 or 2Rx8
- Compatibility assurance when using the Crucial System Scanner or Crucial Advisor Tool
- Improve your system's responsiveness, run apps faster and multitask with ease
- Reduce power consumption by up to 40% and extend battery life
- Install with ease; no computer skills required How-to guides available at Crucial
- Crucial 10-year limited warranty
- Country of Origin: United States.
- For technical Support : call on- 1800 425 3234
CT8G4SFS8266 is a 8GB DDR4 notebook module that operates at speeds up to 2666 MT/s and has a CL19 latency. It is an Unbuffered SODIMM. It conforms to the industry standard DDR4 SODIMM layout of 260 pins and is compatible with systems that take DDR4 2666 MT/s SODIMM memory.
Features / Reviews
Improve your system’s performance
Increase your laptop’s multitasking capabilities
Run data-intensive applications with ease
Reduce power consumption by up to 40%
Faster burst access speeds for improved sequential data throughout
- Each vengeance LPX module is built with a pure aluminium heat spreader for faster heat dissipation and cooler operation
- Available in multiple colours to match your motherboard, your components, or just your style
- Vengeance LPX is optimized and compatibility tested for the latest Intel Z370 series motherboards and offers higher frequencies, greater bandwidth, and lower power consumption
- The Vengeance LPX module height is carefully designed to fit smaller spaces
- XMP 2.0 enabled for superior overclocking
- Warranty, Parts: Lifetime Warranty(Max 10 Years)
- Country of Origin: Taiwan
Vengeance LPX memory is designed for high-performance overclocking. The heat spreader is made of pure aluminium for faster heat dissipation, and the custom performance PCB helps manage heat and provides superior overclocking headroom. Each IC is individually screened for performance potential. The DDR4 form factor is optimized for the latest Intel DDR4 motherboards and offers higher frequencies, greater bandwidth, and lower power consumption than DDR3 modules. Vengeance LPX DDR4 modules are compatibility-tested across latest Intel DDR4 motherboards for reliably fast performance. THERE’S XMP 2.0 support for trouble-free automatic overclocking. And, they’re available in multiple colours to match your motherboard, your components, or just your style. SPD Speed 2133MHz
Features / Reviews
Carefully designed to fit smaller spaces
Enabled for superior overclocking
Optimized and compatibility tested for the latest Intel Z370 series motherboards
Offers higher frequencies, greater bandwidth, and lower power consumption
Built with a pure aluminium heat spreader for faster heat dissipation
ADATA continues to lead the industry in DRAM timing and density with these 8GB Premier Series DDR3L 1600 single piece memory modules. They are designed and engineered to support the ever more rigorous requirements of enthusiasts and professionals. The high 8 GB density overcomes situations where there are only a few DRAM slots on the motherboard, allowing users to maximize system potential and performance. The Premier Series 1600 Mbps DDR3L 204-Pin (SO-DIMM) are standard pin design modules operating at 1.35 volts, with transmission bandwidth up to 12.8 Gb/second (PC3L 12800). The memory modules implement cutting edge technology that enables remarkable memory density on a single module. All the modules are in accordance with JEDEC (Joint Electron Device Engineering Council, JEDEC Solid State Technology Association) and RoHS design and production standards, simultaneously ensuring compatibility with all the computer systems adopting the same standard and ecologically sound product. ADATA Series memory modules come with lifetime warranty and service, providing remarkable protection.
Features / Reviews
Maximize system potential and performance
Cutting edge technology that enables remarkable memory density on a single module
Come with lifetime warranty and service
Standard pin design modules operating at 1.35 volts
Transmission bandwidth up to 12.8 Gb/second
- Module Size: 4GB ( 4GB x 1 ), part number M471B5273DH0-YK0
- Package: 204-pin SODIMM
- Feature: DDR3 PC3-12800
- Specs: DDR3 PC3-12800 , CL=11 , Unbuffered , NON-ECC , DDR3-1600MHz , 1.35V / 1.5V
- Lifetime warranty. Compatible to all Windows laptops supporting speed DDR3 1600Mhz and also to all 2012 Mac's. Scroll down to see all Mac compatible models. This item is equivalent and backward compat
Compatible to all Windows laptops supporting speed DDR3 1600Mhz and also to all 2012 Mac’s.
Features / Reviews
Compatible to all Windows laptops
Supporting speed DDR3 1600Mhz
Equivalent and backward compatible
HyperX FURY DDR4 auto-overclocks itself to the highest published frequency, up to 3466MHz1, providing a Plug N Play boost for gaming, video editing, and rendering. FURY DDR4 is XMP-ready and available in 2400MHz–3466MHz speeds, CL15–16 latencies, single module capacities of 4GB–16GB, and kit capacities of 16GB–64GB. It features Plug N Play automatic overclocking at 2400MHz and 2666MHz speeds and is compatible with the latest Intel and AMD CPUs. HyperX FURY DDR4 stays cool with its stylish, low-profile heat spreader. 100% tested at speed, FURY DDR4’s your cost-effective upgrade of choice.
Features / Reviews
Updated low-profile heat spreader design
Cost-efficient, high-performance DDR4 upgrade
Intel XMP-ready profiles optimized for Intel’s latest chipsets
Plug N Play functionality
Designed to maximize the performance
4GB DDR3 L 1600MHz SODIMM
Features / Reviews
Enhances the performance
PLUG & PLAY
Storage capacity: 2GB
Pin: 240 | 800 MHz | Dual Channel | Unbuffered | Compatible with INTEL & AMD
Mente provides 3 years of warranty on this 2 GB DDR2 RAM
Features / Reviews
Load programs faster
Improve responsiveness of your desktop
Offer smooth multitasking
Dependable and reliable performance
No computer skills necessary for installation
In the end, we should also note that, while different models are technically interchangeable, it’s not recommended. Combining different RAM modules, potentially from different manufacturers, can lead to unexpected compatibility issues, crashes, and overall buggy performance.
On top of that, if you’re using modules that operate at different clock speeds, all the modules will be capped to the speed of the slowest one.
So, to summarize: prioritize capacity over speed and latency, choose kits over individual high-capacity modules, leave expansion room if necessary/possible, and don’t mix and match different models if you end up upgrading your RAM in the future.