Complete Guide to Solid-State Drives -(SSD)

What is an SSD Drive?

The SSD drive is your computer’s data storage device. It provides the same functionality for many years in everyday use as a traditional hard disk drive is standard for computer storage. Data was stored on the computer hard drives. Most of these conventional hard disk drives (HDDs) are based on moving parts, such as a read/write head that goes back and forth to gather data. This renders HDDs the computer hardware part which is most likely to fail.

The solid-state drive works entirely differently. This uses a simple memory chip named the NAND flash memory which has no moving parts and access times. Early experiments in SSD-like technology started in the 1950s, and they were used in high-end supercomputers by the 1970s and 1980s. The technology was extremely expensive, with small storage space (2MB-20MBs) compared to the ridiculous 5-digit prices.

SSD Drive technology was occasionally used in the military and aerospace industries however in the 1990s wouldn’t use in consumer devices. The SSD had a lifespan of about 10 years. Only in the late 2000s will SSDs start to become more robust and provide decades of continuous use at acceptable access speeds.

The SSD memory chips are equal with the Random Access Memory (RAM). Data are placed on a NAND flash cell board, instead of a magnetic platter. Every grid can store between 256 KB to 4 MB. Each SSD device has the exact address of the blocks so that it is instantly available when the PC requests a file.

Solid-State Drive Used

SSD started in high-performance technology areas and PCs for enthusiasts where the extremely low access times and high throughput of the drives justified the higher costs. But they have since become a common option in lower-cost mainstream laptops and PCs.

SSD Drive benefits 

  • Business: Companies that work with large amounts of data also rely on SSDs, as access times and file transfer speeds.
  • Gaming: Gaming computers have always pushed the limits of the current computing technology, causing relatively expensive gaming performance. Computer devices have always pushed the limits of modern computing technology, justifying relatively expensive equipment for computer performance benefits.
  • Mobility: SSDs have low power requirements and therefore lead to the improved battery life of laptops and tablets. SSDs are also shock-resistant, which reduces the chance of losing data as mobile devices are drop.
  • Servers: Enterprise servers require SSDs to get quick reads and write to support their client PCs properly.

Several Ways to see on new SSD Drive Speed up

  • Boot times will significantly reduce.
  • Launching applications will occur in a near-instant.
  • Saving and opening documents won’t lag.
  • File copying and duplication speeds will improve.
  • your system will feel much snappier.

What are the different types of SSD Drive

 1. PCIe and NVMe SSDs: PCI Express is usually used to connect high-performance graphics cards, network cards or other peripherals. This device provides high bandwidth and low latency, making it ideal when blazing-fast communication between the SSD  Drive and the CPU / RAM needs. SSDs using this type of connection are built on the Nonvolatile Memory Express (NVMe) norm, which provides higher input-output per second (IOPS) and evens lower latency than SATA.NVMe boasts up to 16 Gbits per second of raw throughput and runs at up to 4,000 MB per second.

SSD DRIVE2. mSATA III, SATA III, and traditional SSDs

Serial Advanced Technology Attachment (SATA)It older device specifical design for storage with speeds of up to 6 GBit / s or around 600 MB per second. NVME is slowly phasing out SATA, which is considerably faster. An update to a SATA-based SSD would still support older PCs or laptops with hard disk drives. SSD Drive is available in all sorts of storage capacity from about 32 GB to up to 5 TB in consumer space. The capacity for enterprise-grade storage is significantly higher, with costs commensurately higher price.

The popular Asus Eee PC series use 1-4 GB of SSDs as storage during the short-lived period of netbooks, from which portions of the operating system operate for faster access. This was the first mainstream use of SSDs. Ultrabooks and gradually mobile PCs also started adopting SSDs. Typical sizes today vary from 250 GB to 500 GB which is plenty of space to hold the Windows operating system, the most typical applications and several of your personal files.

How to Choose the Right SSD Drive

Qualities you want to look for in an SSD Drive

  • Maximum speed – This was the first mainstream use of SSDs. Ultrabooks and gradually desktop PCs also started adopting SSDs. Typical sizes today vary from 250 GB to 500 GB which is plenty of space to hold the Operating system, the most typical applications and several of your personal files.
  •  real-world speed – Generally speeds will not be given by the SSD manufacturers to read and write real-world as they are assumed to be slower than maximums. Fortunately, several online reviews contain the results of speed tests.
  • Multi-Level Cell NAND flash memory –  There are two kinds of memory: multi-level cell (MLC) and single-level cell (SLC). The main difference is that MLC memory can store more information on each cell. The advantage here is that the production is lower, and for the average consumer, SLC is often cost-prohibitive. The drawback is a higher error rate but an error-correcting device SSD can help prevent these issues.
  • SATA III Support –  SSDs use the Serial ATA (SATA) protocol but not all of these use the latest version and this may limit your SSD’s performance. This is because at 1.5 Gbps SATA I can transfer data, at 3.0 Gbps SATA II, and at 6 Gbps SATA III. So ensure that your SSD has sufficient bandwidth so transfer data as quickly as possible, you want it to be compliant with SATA III. You’ll also want to make sure that your device is compatible with SATA III.
  • ECC memory – Error-correcting code (ECC) memory does what the name implies: it helps your SSD to identify and correct common data corruption forms so that you don’t end up with unusable data on your drive. SSD with ECC memory is more reliable.
  • Reliability – Reliability is a very difficult matter to gauge, but there are a few methods that you can use to get a good idea. First search for an SSD made by a manufacturer that has been in the business. The concept is quite new, so you don’t want to go with just any company that has recently decided to jump on the bandwagon of the solid-state.

  Performance of SSD Drive

The hard disk is the slowest part of any computer system, Even a 600 MB SATA SSD slow compare with other hardware components which can transfer 20-30 Gigabytes per second. Probably the best investment for a new computer and a perfect upgrade to power up your PC or Mac is NVMe SSD. The difference in speed was that we update a 6-year-old gaming PC to replace the HDD with a SATA SSD, so we did a series of tests.

Boot time
Before: 79 seconds
After: 17 seconds

Gaming loading time (GTA V)
Before: 133 seconds
After: 25 seconds

Conclusion

Depending on your computer, SSD will be different so we highly recommend that you look for a guide for your specific laptop or desktop model. That said, if you have a desktop, you should at least be steered in the right direction by our computer build guide.

Click Here  – 1TB External Hard Drive(SSD)