Top 10 SSD Hard Drives in India [2024]

Summary: Solid State Drives (SSDs) are significantly faster than traditional hard disk drives (HDDs). This article explores the top 10 SSD hard drives available in India, covering various types, including NVMe, SATA, and portable drives. We guide you on selecting the best SSD for your needs and explain key factors like interface, form factor, and speed. If an SSD hard drive fails for any reason, data recovery services can help retrieve your important data quickly.

If you want blazing-fast performance from your computer storage, you need an SSD. But there are so many brands and models available that it is easy to get confused.

This article provides insight into the top 10 SSD hard drives available today, covering all types from NVMe to SATA and portable drives. We also highlight what to look for when buying an SSD.

We shall cover:

  1. Top 10 SSD Hard Drives
  2. Why do SSDs Score Over HDDs?
  3. How to Pick the Best SSD? 
  4. FAQs 

Without any further ado, we dive into our comparison. Below are ten SSD hard drives that are currently available and offer excellent performance at affordable prices.

Please note that model numbers, specifications, and warranty are subject to change without notice.

Top 10 SSD Hard Drives

1. Samsung 990 PRO

Features

  • Capacities: 1, 2 TB
  • Form Factor: M.2
  • Transfer Interface/Protocol: PCIe 4.0 x4 / NVMe
  • Sequential Reads/Writes: Up to 7,450 Mbps / 6,900 Mbps
  • Endurance: Up to 2400 TBW

Pros:

  • Offers optimal power efficiency.
  • Gives up to 65% improvement in random performance.
  • Has nickel-coated controller for highly effective thermal control.

Cons:

  • Gets hot and you might need to install heat sinks.

2. WD Black SN850X 

Features

  • Capacities: 1, 2, and 4 TB
  • Form Factor: M.2 2280
  • Transfer Interface/Protocol: PCIe 4.0 x4 / NVMe
  • Sequential Reads/Writes: Up to 7,300 Mbps / 6,600 Mbps
  • Warranty/Endurance: 5 Years / Up to 2400 TBW

Pros:

  • Extremely low latency that can load programs fast.
  • Perfect for demanding applications like gaming.
  • Impressive cooling capabilities.

Cons:

  • Some users have faced problems using it as a boot drive.

3. Crucial T700 

Features

  • Capacities: 4 TB
  • Form Factor: M.2
  • Transfer Interface/Protocol: PCIe 5.0 x4 / NVMe 2.0
  • Sequential Reads/Writes: Up to 12,400 Mbps / 11,800 Mbps
  • Warranty/Endurance: 5 years / Up to 2,400 TBW

Pros: 

  • Offers 60% faster texture rendering.
  • Uses 232-layer TLC NAND3 for optimal performance.
  • Significantly reduced program load times.

Cons: 

  • Requires a heatsink.

4. Sabrent Rocket 5

Features

  • Capacities: 2 TB
  • Form Factor: M.2
  • Transfer Interface/Protocol: PCIe 5.0 x4 / NVMe 2.0
  • Sequential Reads/Writes: Up to 14,000 Mbps / 12,000 Mbps
  • Warranty/Endurance: 5 years / Up to 2,400 TBW

Pros:

  • Quickest NVMe SSD on the market.
  • Fast and stable even under load.
  • Exceptional transfer speeds of up to 14 GB/s.

Cons:

  • You have to buy a separate heatsink from Sabrent.

5. Crucial T500

Features

  • Capacities: 500 GB, 1, 2 and 4 TB
  • Form Factor: M.2
  • Transfer Interface/Protocol: PCIe 4.0 / NVMe 2.0
  • Sequential Reads/Writes: Up to 7,200 Mbps / 5,400 Mbps
  • Warranty/Endurance: 5 years / 1,200 TBW

Pros:

  • Highly affordable and value for money.
  • Perfect for any task except intensive gaming and graphics editing.
  • Does not need a heat sink.

Cons: 

  • Not suitable for systems demanding high-performance.

6. Samsung 870 EVO

Features

  • Capacities: 500 GB, 1, 2 and 4 TB
  • Form Factor: 2.5-inch SATA drive
  • Transfer Interface/Protocol: SATA 6.0
  • Sequential Reads/Writes: Up to 560 Mbps / 530 Mbps
  • Warranty/Endurance: 5 years / 600 TBW

Pros:

  • Perfect for older desktop and laptop motherboards.
  • Good build quality and is lightweight.
  • Offers DRAM caching for quick performance.

Cons: 

  • Slightly expensive for the budget segment.

7. Crucial BX500 

Features

  • Capacities: 500 GB, 1, and 2 TB
  • Form Factor: 2.5-inch SATA drive
  • Transfer Interface/Protocol: SATA 6.0
  • Sequential Reads/Writes: Up to 540 Mbps / 500 Mbps
  • Warranty/Endurance: 3 years

Pros:

  • Faster than traditional HDDs at the same price.
  • Highly affordable prices.
  • Easy to install and run.

Cons:

  • Far slower compared to the latest NVMEs.

8. TeamGroup MP33 Pro

Features

  • Capacities: 500 GB, 1, and 2 TB
  • Form Factor: M.2 2280
  • Transfer Interface/Protocol: PCIe 3.0 / NVMe 1.3
  • Sequential Reads/Writes: Up to 3,500 Mbps / 3,000 Mbps
  • Warranty/Endurance: 5 years / 400 TBW

Pros: 

  • Supports smart algorithm TRIM management.
  • Good entry-level NVME.
  • Offers excellent customer support.

Cons: 

  • Not good for laptops due to heating issues.

9. Sabrent Rocket Nano

Features

  • Capacities: 1 TB
  • Form Factor: 2.75 Inches
  • Transfer Interface/Protocol: USB 3.2 Gen 1
  • Sequential Reads/Writes: Up to 1,000 Mbps / 1,000 Mbps
  • Warranty/Endurance: 3 years

Pros:

  • Works on any OS.
  • Requires no SATA power.
  • Convenient and fast portable drive.

Cons:

  • Far more expensive than comparable external drives.

10. Samsung T9 Portable

Features

  • Capacities: 1, 2 TB
  • Form Factor: 3.5 Inches
  • Transfer Interface/Protocol: USB 3.2 Gen 2
  • Sequential Reads/Writes: Up to 2,000 Mbps / 2,000 Mbps
  • Warranty/Endurance: 5 years

Pros:

  • Has an advanced thermal solution that controls heat.
  • Compatible with Windows, macOS, and Android.
  • Tough shell with up to 3 meters drop resistance.

Cons:

  • Quite expensive compared to traditional HDDs.

We have listed the features and performance of the best 10 SSDs available. In the next section, we shall explain the advantages that SSDs have over HDDs and why a change is beneficial.

Why do SSDs Score Over HDDs?

SSDs offer substantial performance advantages and can make your computer faster.

hdd-ssd - Stellar Data Recovery

But how exactly does it happen? 

Low read/write speeds from storage media have always been a bottleneck in computing. A traditional HDD reads data at 80MB/s to 160MB/s, which is too slow for modern gaming, LLMs, and graphics editing. Even ordinary, cheap SSDs are at least 4X faster. The best SSDs, like Sabrent Rocket 5, are over 100X faster than traditional spinning drives.

When you change to an SSD the first change you will notice is how fast your laptop or desktop boots. It will take a microsecond to save a new PowerPoint or transfer all your vacation photos from your phone to the SSD.

How to Pick the Best SSD?

There are many types of SSDs at various price points. They range from highly affordable workhorses like the Crucial BX series to blazing-fast models, such as Sabrent Rocket 5.

Here are a few technical factors to help you confidently select the best SSD for your specific needs.

1. Interface 

Essentially, two interfaces are available – the traditional SATA and the newer NVMe.

SATA is slower and peaks at about 550 Mbps. NVMe, depending on the generation, reaches speeds between 3,000 Mbps and 8,000 Mbps.

2. Form Factor 

Most NVMe drives on the market have an M.2 form factor. They look like a bar of chocolate.

M.2 size is 22 mm wide and 42 mm, 60 mm, or 80 mm long (thus 2242, 2260, and 2280 are mentioned). Before you invest in an M.2 SSD, find out if your motherboard has an M.2 slot. Motherboards older than a couple of years might not have one.

SATA SSDs like the Crucial BX series fit into a laptop or desktop in the normal hard drive bay.

3. Speed 

If you are browse, check email, use Google Docs and MS Office, play back HD videos, and do light editing, you don’t need NVMe speeds of 5,000 to 10,000 Mbps. A Samsung EVO 870 is good enough for your laptop or desktop.

But if you are going to play a resource-intensive video game, want to build a local LLM, or edit high-resolution videos, an NVMe hard drive is definitely what you need.

4. Longevity 

Reports indicate that SSDs last about 5-7 years on average, the same as HDDs. The amount of data written to the SSD affects its lifespan. Most SSD manufacturers use metrics like terabytes written or TBW.  It indicates the total amount of data that can be written to an SSD over its entire lifespan.

But that doesn’t mean they cannot fail earlier. Just like HDDs, SSDs too can fail early. If that happens, there is no cause for panic since a data recovery service can retrieve the data from a failed SSD.

At Stellar, we have over 30 years of experience and the highest recovery success rate in the industry. If your SSD has failed, you can get back your data with our SSD Data Recovery Services.

Our data recovery experts specialize in complex SSD and flash technologies. They have the expertise to recover data from dead SSDs from top manufacturers like Western Digital, Seagate, Kingston, Intel, and Samsung.

Please reach out to us. Our trusted experts are always at hand to help.

Before you dive into the FAQs, if you’ve lost data on your MacBook, our MacBook Data Recovery Services are here to help! Whether it’s due to accidental deletion, hardware failure, or any other issue, our experts can recover your valuable data swiftly and securely.

Also, explore these helpful articles to resolve your SSD-related issues:

Next, we shall answer a few questions related to SSDs. If you have any queries kindly write to us or comment below.

FAQs

1. What is TBW?

TBW stands for TeraBytes Written, and it measures how much data can be written to an SSD before it starts to wear out.

SSD manufacturers use TBW to indicate the longevity of their products. For example, if an SSD has a TBW of 600 TB, it means you can write up to 600 terabytes of data before the drive starts to wear out.

2. Do SSDs Overheat? Why do they need Heatsinks? 

Only high-performance SSDs need a heatsink. SSDs deteriorate if they are kept at a constant temperature above 70° C. This happens if you perform intensive tasks like gaming for long hours. In normal operation, no heatsink is required.

3. What is wear Leveling on an SSD? 

Wear leveling is a technique that extends the life of solid-state drives. It consists of an algorithm that ensures all blocks are written to and erased consistently. This prevents the same memory block from being continuously programmed and erased, which would cause it to wear out faster.

Leave a Reply

Your email address will not be published. Required fields are marked *