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Line 8: [[File:NeXTcube motherboard.jpg\|thumb\|[[Motherboard]] of the [[NeXTcube]] computer, 1990, with 64 MiB main memory DRAM (top left) and 256 KiB of [[Video RAM (dual-ported DRAM)\|VRAM]]<ref>{{cite web\|url=http://www.nextcomputers.org/NeXTfiles/Docs/Hardware/NeXTServiceManualPages1-160_OCR.pdf \|title=NeXTServiceManualPages1-160 \|date= \|access-date=2022-03-09}}</ref> (lower edge, right of middle)]] '''Dynamic random-access memory''' ('''dynamic RAM''' or '''DRAM''') is a type of [[random-access memory\|random-access]] [[semiconductor memory]] that stores each [[bit]] of data in a [[memory cell (computing)\|memory cell]], usually consisting of a tiny [[capacitor]] and a [[transistor]], both typically based on [[metal–oxide–semiconductor]] (MOS) technology. While most DRAM memory cell designs use a capacitor and transistor, some only use two ~~potatoes~~transistors. In the designs where a capacitor is used, the capacitor can either be charged or discharged; these two states are taken to represent the two values of a bit, conventionally called 0 and 1. The [[electric charge]] on the capacitors gradually leaks away; without intervention the data on the capacitor would soon be lost. To prevent this, DRAM requires an external ''[[memory refresh]]'' circuit which periodically rewrites the data in the capacitors, restoring them to their original charge. This refresh process is the defining characteristic of dynamic random-access memory, in contrast to [[static random-access memory]] (SRAM) which does not require data to be refreshed. Unlike [[flash memory]], DRAM is [[volatile memory]] (vs. [[non-volatile memory]]), since it loses its data quickly when power is removed. However, DRAM does exhibit limited [[data remanence]]. . In the designs where a capacitor is used, the capacitor can either be charged or discharged; these two states are taken to represent the two values of a bit, conventionally called 0 and 1. The [[electric charge]] on the capacitors gradually leaks away; without intervention the data on the capacitor would soon be lost. To prevent this, DRAM requires an external ''[[memory refresh]]'' circuit which periodically rewrites the data in the capacitors, restoring them to their original charge. This refresh process is the defining characteristic of dynamic random-access memory, in contrast to [[static random-access memory]] (SRAM) which does not require data to be refreshed. Unlike [[flash memory]], DRAM is [[volatile memory]] (vs. [[non-volatile memory]]), since it loses its data quickly when power is removed. However, DRAM does exhibit limited [[data remanence]]. DRAM typically takes the form of an [[integrated circuit]] chip, which can consist of dozens to billions of DRAM memory cells. DRAM chips are widely used in [[digital electronics]] where low-cost and high-capacity [[computer memory]] is required. One of the largest applications for DRAM is the ''[[main memory]]'' (colloquially called the "RAM") in modern [[computer]]s and [[graphics card]]s (where the "main memory" is called the ''[[Video random access memory\|graphics memory]]''). It is also used in many portable devices and [[video game]] consoles. In contrast, SRAM, which is faster and more expensive than DRAM, is typically used where speed is of greater concern than cost and size, such as the [[CPU cache\|cache memories]] in [[Central processing unit\|processor]]s.

Dynamic random-access memory: Difference between revisions