Dynamic Random Access Memory Stocks List

Dynamic Random Access Memory Stocks Recent News

Date Stock Title
Nov 20 MU Micron (MU) Stock Moves 0.65%: What You Should Know
Nov 20 MU Here’s Why Micron Technology (MU) Detracted in Q3
Nov 20 MU Micron: Here's Why It Keeps Dropping And Here's Why I Keep Buying
Nov 20 MU Is Micron Technology, Inc.'s (NASDAQ:MU) Stock Price Struggling As A Result Of Its Mixed Financials?
Nov 20 MU Why Nvidia earnings could be a sink-or-swim moment for this bull market
Nov 18 MU Micron Technology snaps six straight sessions of losses
Nov 18 MU Could Micron Technology, Inc. (MU) Grow 10x Over the Next 3 Years?
Nov 18 MU Is Micron Technology (MU) A Cheap NASDAQ Stock To Invest In Now?
Nov 18 MU Zacks Investment Ideas feature highlights: Taiwan Semiconductor, Nvidia, Constellation Energy and Micron
Nov 16 MU Should You Buy Micron Stock After the Dip? Wall Street Has a Clear Answer for Investors.
Nov 16 MU 2 Artificial Intelligence (AI) Stocks to Buy on the Dip
Nov 15 MU Better Artificial Intelligence (AI) Stock: Nvidia vs. Micron Technology
Nov 15 MU Micron Technology (MU): Piper Sandler Bullish on AI-Driven Growth Prospects
Nov 15 MU Micron (MU): Buy, Sell, or Hold?
Nov 15 MU 3 AI Stocks to Buy Now On the Dip Not Named Nvidia
Nov 15 MU Third Point Hedge Fund Buys Tesla, Dumps Micron
Nov 14 MU Renaissance Tech adds Micron, exits Broadcom, among Q3 trades
Nov 14 MU Micron (MU) Declines More Than Market: Some Information for Investors
Nov 14 MU Micron Technology, Inc. (NASDAQ:MU) Faces Selling Pressure, Edgewater Issues Bearish DRAM Market Call
Nov 14 MU Dan Loeb's Third Point enters Tesla, CVS, exits Uber, Verizon, among top Q3 trades
Dynamic Random Access Memory

Dynamic random-access memory (DRAM) is a type of random access semiconductor memory that stores each bit of data in a separate tiny capacitor within an integrated circuit. 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 slowly leaks off, so without intervention the data on the chip 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. Because of this refresh requirement, it is dynamic memory as opposed 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 is widely used in digital electronics where low-cost and high-capacity memory is required. One of the largest applications for DRAM is the main memory (colloquially called the "RAM") in modern computers and graphics cards (where the "main memory" is called the 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 cache memories in processors.
Due to its need of a system to perform refreshing, DRAM has more complicated circuitry and timing requirements than SRAM, but it is much more widely used. The advantage of DRAM is the structural simplicity of its memory cells: only one transistor and a capacitor are required per bit, compared to four or six transistors in SRAM. This allows DRAM to reach very high densities, making DRAM much cheaper per bit. The transistors and capacitors used are extremely small; billions can fit on a single memory chip. Due to the dynamic nature of its memory cells, DRAM consumes relatively large amounts of power, with different ways for managing the power consumption.DRAM had a 47% increase in the price-per-bit in 2017, the largest jump in 30 years since the 45% percent jump in 1988, while in recent years the price has been going down.

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