What is SSD (Solid State Drive)
Today, it is not only hard drive that is the big word when it comes to storage. SSD is an abbreviation you can learn first as last and that means many new benefits for your PC.
But first things first: SSD stands for Solid State Drive. The main physical difference between an SSD device and a standard hard drive is a hard disk consists of discs and read-write heads, plus a motor that spins the disc (or discs, if there are any).
A SSD device on its side, contains no moving parts. Instead contains an SSD device a special type of memory chips with rewritable cells that can retain data even when they are denied. Purely practical, you can often compare a SSD device with an overgrown memory stick.
What is a Solid State Drive ?
The original usage of the term solid-state refers to the use of semiconductor devices rather than electron tubes, but in this context, has been adopted to distinguish solid-state electronics from electromechanical devices as well. With no moving parts, solid-state drives are less fragile than hard disks and are also silent; as there are no mechanical delays, they usually employ low access time and latency.
Solid state is an electrical term that refers to electronic circuitry that is built entirely out of semiconductors. The term was originally used to define those electronics such as a transistor radio that used semiconductors rather than vacuum tubes in its construction. Most all electronics that we have today are built around semiconductors and chips. In terms of a SSD, it refers to the fact that the primary storage medium is through semiconductors rather than a magnetic media such as a hard drive.
SSD Advantages and Disadvantages
SSD devices have many advantages:
- A SSD device creates no noise
- A device with no moving parts is not nearly as fast in pieces because of shock or fall.
- SSD is generally a lower power consumption than conventional hard drives, so they often cooler.
- When the device does not generate much heat, do not need the fan in your computer go as much. You get a PC that Positioners in addition do not use up battery time like soon.
- Search time for an SSD device is much lower than on a hard drive.
- Larger range of operating temperatures. Typical hard drives have an operating range of 5-55 degrees C. Most flash drives can operate at 70 degrees, and some industrial grade drives can operate over an even wider temperature range.
- For low-capacity SSDs, lower weight and size: although size and weight per unit storage are still better for traditional hard drives, and microdrives allow up to 20 GB storage in a CompactFlash 42.8×36.4×5 mm (1.7×1.4×.2 in) form-factor. Up to 256 GB, as of 2008 SSDs are lighter than hard drives of the same capacity.
However, there are also some disadvantages:
- A SSD unit has an expected number of read and write cycles. When the number of cycles at the limit, the device will function worse.
- The price per GB of storage capacity is significantly higher for SSD than the HDD.
- Slower write speeds: As erase blocks on flash-based SSDs generally are quite large (e.g. 0.5 - 1 megabyte), they are far slower than conventional disks during small writes (the smaller, the worse) and can suffer from write fragmentation, and in some cases for sequential writes. SSDs based on DRAM, which do this several orders of magnitude faster than conventional disks, do not suffer from this problem.
SSD devices can use several different types of memory, respectively SLC (Single level cell) and MLC (Multi level cell). SCL has one bit of data per cell, while MLC technology involves multiple bit data per cell. MLC devices are cheaper to produce, but generally provide lower performance and higher energy consumption than SLC units.
The practical difference between the two memory types are durable, in practice, how many times each cell can input over before it starts to lose data.
Today, the MLC memory that are commonly use.
In addition to devices that are used internally in computers, the SSD devices in external format, in the same way as external hard drives. These connects easily to your PC with a cable.
Points to remember when buying SSD Device
What is important?
When buying a SSD device, it is certain things that determine what device you should go for. The most important thing you should look for:
- I/O operations per second. The rule is simple: The more the better. It is not all the manufacturers that provide this. Those who do like to enter writing and reading each, with file sizes of the 4 Kbit and 100 percent random. The number of I/O operations per second has a lot to say for the performance. Intel's x25-E has stated such 35000 I/O operations per second for reading and 3300 writing, which is very good.
- Another important point is to read and write speed. This is defined by the number of megabytes per second. In general we can say that the good read performance in writing is from 150 MB per second and upwards, while a good write performance is from 80 MB per second and upwards. The hottest models on the market now is around 250 MB/s reading and just over 200 MB/s writing.
