Computer Memory
Computer memory is a generic term for all of the different types of data storage technology that a computer may use, including RAM, ROM, and flash memory.
Some types are non-volatile, which means they can store data on a long term basis even when there is no power. And some types are volatile, which are often faster, but which lose all the data stored on them as soon as the power is switched off.
What are the Different Types of Computer Memory?
Primary Memory Types: RAM and ROM
• Single In-Line Memory Module (SIMM)
• Dual In-Line Memory Module (DIMM)
Graphics Double Data Rate Synchronous Dynamic RAM (GDDR SDRAM)
Differences between RAM and ROM
What Technology is Between Primary and Secondary Memory?
What are the Different Types of Computer Memory?
Although many types of memory in a computer exist, the most basic distinction is between primary memory, often called system memory, and secondary memory, which is more commonly called storage.
The key difference between primary and secondary memory is speed of access.
- Primary memory includes ROM and RAM, and is located close to the CPU on the computer motherboard, enabling the CPU to read data from primary memory very quickly indeed. It is used to store data that the CPU needs imminently so that it does not have to wait for it to be delivered.
- Secondary memory by contrast, is usually physically located within a separate storage device, such as a hard disk drive or solid state drive (SSD), which is connected to the computer system either directly or over a network. The cost per gigabyte of secondary memory is much lower, but the read and write speeds are significantly slower.
Primary Memory Types: RAM and ROM
There are two key types of primary memory:
- RAM, or random access memory
- ROM, or read-only memory
The acronym RAM stems from the fact that data stored in random access memory can be accessed – as the name suggests – in any random order. Or, put another way, any random bit of data can be accessed just as quickly as any other bit.
Nearly every computing-capable device (e.g., smartphones, tablets, desktops, laptops, graphing calculators, HDTVs, handheld gaming systems, etc.), needs RAM.
The most important things to understand about RAM are that RAM memory is very fast, it can be written to as well as read, it is volatile (so all data stored in RAM memory is lost when it loses power) and, finally, it is very expensive compared to all types of secondary memory in terms of cost per gigabyte. It is because of the relative high cost of RAM compared to secondary memory types that most computer systems use both primary and secondary memory.
- Static RAM (SRAM)
- Dynamic RAM (DRAM)
- Synchronous Dynamic RAM (SDRAM)
- Single Data Rate Synchronous Dynamic RAM (SDR SDRAM)
- Double Data Rate Synchronous Dynamic RAM (DDR SDRAM, DDR2, DDR3, DDR4)
- Graphics Double Data Rate Synchronous Dynamic RAM (GDDR SDRAM, GDDR2, GDDR3, GDDR4, GDDR5)
- Flash Memory
- DRAM: DRAM stands for Dynamic RAM, and it is the most common type of RAM used in computers. The oldest type is known as single data rate (SDR) DRAM, but newer computers use faster dual data rate (DDR) DRAM. DDR comes in several versions including DDR2 , DDR3, and DDR4, which offer better performance and are more energy efficient than DDR. However different versions are incompatible, so it is not possible to mix DDR2 with DDR3 DRAM in a computer system. DRAM consists of a transistor and a capacitor in each cell.
- SRAM: SRAM stands for Static RAM, and it is a particular type of RAM which is faster than DRAM, but more expensive and bulker, having six transistors in each cell. For those reasons SRAM is generally only used as a data cache within a CPU itself or as RAM in very high-end server systems. A small SRAM cache of the most imminently-needed data can result in significant speed improvements in a system
UNDERSTANDING DRAM MEMORY
What are the types of DRAM packages?
·
Single In-Line
Memory Module (SIMM)
SIMM modules were widely used from the late 1980s to 1990s, and are now
obsolete. They typically had 32-bit data bus and were available in two physical
types—30- and 72-pin.
·
Dual In-Line
Memory Module (DIMM)
Current memory modules come in DIMMs. "Dual in-line" refers to pins on both
sides of the modules. A DIMM originally had a 168-pin connector supporting
64-bit data bus, which is twice the data width of SIMMs. The wider bus means
that more data can pass through a DIMM, translating to faster overall
performance. Latest DIMMs based on fourth-generation double data rate (DDR4)
SDRAM have 288-pin connectors for increased data throughput.
The table below shows a size comparison among different types of DRAM modules.
DIMM Type |
Size (L x H mm) |
|
DDR4 |
Standard |
133.35 x 31.25 |
VLP (Very Low Profile) |
133.35 x 18.75 |
|
DDR3 |
Standard |
133.35 x 30 |
VLP |
133.35 x 18.28 to 18.79 |
|
ULP (Ultra-Low Profile) |
133.35 x 17.78 to 18.28 |
|
DDR2 |
Standard |
133.35 x 30 |
VLP |
133.35 x 18.28 to 18.79 |
|
DDR |
Standard |
133.35 x 30 |
VLP |
133.35 x 18.28 to 18.79 |
|
SDRAM |
Standard |
133.35 x 25.4 to 43.18 |
Table . Comparison of DDR4/DDR3/DDR2/DDR dimensions.
DRAM Modules Atpinc. Memory-types-dram-ram-module
Graphics Double Data Rate Synchronous Dynamic RAM (GDDR SDRAM)
- Time in market: 2003 to present
- Popular products using GDDR SDRAM: Video graphics cards, some tablets
GDDR SDRAM is a type of DDR SDRAM that is specifically designed for video graphics rendering, typically in conjunction with a dedicated GPU (graphics processing unit) on a video card. Modern PC games are known to push the envelope with incredibly realistic high-definition environments, often requiring hefty system specs and the best video card hardware in order to play
- Similar to DDR SDRAM, GDDR SDRAM has its own evolutionary line (improving performance and lowering power consumption): GDDR2 SDRAM, GDDR3 SDRAM, GDDR4 SDRAM, and GDDR5 SDRAM.
Despite sharing very similar characteristics with DDR SDRAM, GDDR SDRAM is not exactly the same. There are notable differences with the way GDDR SDRAM operates, particularly regarding how bandwidth is favored over latency. GDDR SDRAM is expected to process massive amounts of data (bandwidth), but not necessarily at the fastest speeds (latency). Comparatively, DDR SDRAM is expected to have low latency to immediately respond to the CPU;.
- Time in market: 1984 to present
- Popular products using flash memory: Digital cameras, smartphones/tablets, handheld gaming systems/toys
Flash memory is a type of non-volatile storage medium that retains all data after power has been cut off. Despite the name, flash memory is closer in form and operation (i.e. storage and data transfer) to solid-state drives than the aforementioned types of RAM. Flash memory is most commonly used in:
- USB flash drives
- Printers
- Portable media players
- Memory cards
- Small electronics/toys
By Stanley Goodner Types-of-ram
ROM stands for read-only memory, and the name stems from the fact that while data can be read from this type of computer memory, data cannot normally be written to it. It is a very fast type of computer memory which is usually installed close to the CPU on the motherboard.
ROM is a type of non-volatile memory, which means that the data stored in ROM persists in the memory even when it receives no power – for example when the computer is turned off. In that sense it is similar to secondary memory, which is used for long term storage.
The ROM usually contains “bootstrap code” which is the basic set of instructions a computer needs to carry out to become aware of the operating system stored in secondary memory, and to load parts of the operating system into primary memory so that it can start up and become ready to use.
ROM is also used in simpler electronic devices to store firmware which runs as soon as the device is switched on.
ROM is available in several different types, including PROM, EPROM, and EEPROM.
- PROM PROM stands for Programmable Read-Only Memory, and it is different from true ROM in that while a ROM is programmed (i.e. has data written to it) during the manufacturing process, a PROM is manufactured in an empty state and then programmed later using a PROM programmer or burner.
- EPROM EPROM stands for Erasable Programmable Read-Only Memory, and as the name suggests, data stored in an EPROM can be erased and the EPROM reprogrammed. Erasing an EPROM involves removing it from the computer and exposing it to ultraviolet light before re-burning it.
- EEPROM EEPROM stands for Electrically Erasable Programmable Read-Only Memory, and the distinction between EPROM and EEPROM is that the latter can be erased and written to by the computer system it is installed in. In that sense EEPROM is not strictly read-only. However in many cases the write process is slow, so it is normally only done to update program code such as firmware or BIOS code on an occasional basis
NAND flash memory (such as that found in USB memory sticks and solid state disk drives) is a type of EEPROM, but NAND flash is considered to be secondary memory.
Secondary memory comprises many different storage media which can be directly attached to a computer system. These include:
- solid state drives (SSDs)
- Optical (CD or DVD) drives
Secondary memory also includes:
- Storage arrays including 3D NAND flash arrays connected over a storage area network (SAN)
- Storage devices which may be connected over a conventional network (known as network attached storage, or NAS)
Arguably cloud storage can also be called secondary memory.
Differences between RAM and ROM
ROM:
- Non-volatile
- Fast to read
- Usually used in small quantities
- Cannot be written to quickly
- Used to store boot instructions or firmware
- Relatively expensive per megabyte stored compared to RAM
RAM:
- Volatile
- Fast to read and write
- Used as system memory to store data (including program code) that the CPU needs to process imminently
- Relatively cheap per megabyte stored compared to ROM, but relatively expensive compared to secondary memory
What Technology is Between Primary and Secondary Memory?
In the last year or so a new memory medium called 3D XPoint has been developed with characteristics that lie between primary and secondary memory.
3D XPoint is more expensive but faster than secondary memory, and lower cost but slower than RAM. It is also a non-volatile memory type.
These characteristics mean that it can be used as an alternative to RAM in systems which require vast amounts of system memory that would be too expensive to build using RAM (such as systems hosting in-memory databases). The trade-off is that such systems do not enjoy the full performance gains of using RAM.
Since 3D XPoint is non-volatile, systems that use 3D XPoint for system memory can be up and running again after a power failure or other interruption very quickly, without the need for all the data to be read back into system memory from secondary memory.
By Paul Rubens Enterprisestorageforum Types-of-computer-memory/
DDR3 |
DDR4 |
|
ReleaseYear |
2007 |
2014 |
Speed |
800MHz-2133MHz |
1600MHz-3200MHz |
Bandwidth |
12.8GB/s |
21.3GB/s |
Latency |
Slightly lower than DDR4 |
Negligibly higher than DDR3 |
Power Consumption |
1.5V (1.35 with power-saving) |
1.2V |
Capacity |
128GB (4 dyes) |
512GB (8 dyes) |
Error-Handling |
Less efficient than DDR4 |
Better detection, prevention, correction |
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