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Computer memory and data storage types
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Historical Williams–Kilburn tube (1946–1947) Delay-line memory (1947) Mellon optical memory (1951) Selectron tube (1952) Dekatron T-RAM (2009) Z-RAM (2002–2010)
Non-volatile
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In development CBRAM Racetrack memory NRAM Millipede memory ECRAM Patterned media Holographic data storage Electronic quantum holography 5D optical data storage DNA digital data storage Universal memory Time crystal Quantum memory UltraRAM
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v t e

Ferroelectric RAM (FeRAM, F-RAM or FRAM) is a random-access memory similar in construction to DRAM but using a ferroelectric layer instead of a dielectric layer to achieve non-volatility. FeRAM is one of a growing number of alternative non-volatile random-access memory technologies that offer the same functionality as flash memory. An FeRAM chip contains a thin film of ferroelectric material, often lead zirconate titanate, commonly referred to as PZT. The atoms in the PZT layer change polarity in an electric field, thereby producing a power-efficient binary switch. However, the most important aspect of the PZT is that it is not affected by power disruption or magnetic interference, making FeRAM a reliable nonvolatile memory.^[1]

FeRAM's advantages over Flash include: lower power usage, faster write speeds^[2] and a much greater maximum read/write endurance (about 10¹⁰ to 10¹⁵ cycles).^[3]^[4] FeRAMs have data retention times of more than 10 years at +85 °C (up to many decades at lower temperatures). Marked disadvantages of FeRAM are much lower storage densities than flash devices, storage capacity limitations and higher cost. Like DRAM, FeRAM's read process is destructive, necessitating a write-after-read architecture.

^ "FRAM technology". Cypress semiconductos.
^ "FeTRAM: memória não-volátil consome 99% menos energia". 29 September 2011.
^ "Memory FRAM 4 M Bit (512 K × 8) MB85R4001A" (PDF). Fujitsu Semiconductor Data Sheet. Fujitsu Semiconductor. 2013. DS501-00005-3v0-E.
^ Cite error: The named reference CY15 was invoked but never defined (see the help page).