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273:. FCRAM has a shorter data access latency compared to contemporary commodity SDRAMs; and is used in where the lower data access latency is more desirable than low cost and high capacity (FCRAM is a moderate cost and capacity speciality DRAM). FCRAM achieves its low latency by dividing each row into multiple sub-rows, of which only one is activated during a row-activation operation. This had the effect of reducing the effective array size, improving the access time. FCRAM has a
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103:introducing citations to additional sources
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263:synchronous dynamic random-access memory
93:Relevant discussion may be found on the
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292:Memory Systems: Cache, DRAM, Disk
45:This article has multiple issues.
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333:Dynamic random-access memory
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279:dual in-line memory module
179:This article includes a
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208:more precise citations.
298:. pp. 494–495.
99:improve this article
457:Hybrid Memory Cube
181:list of references
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363:Synchronous
206:introducing
689:Categories
285:References
214:March 2024
155:March 2024
125:newspapers
50:improve it
612:Bandwidth
553:XDR2 DRAM
376:DDR SDRAM
275:DDR SDRAM
95:talk page
56:talk page
548:XDR DRAM
466:Graphics
353:EDO DRAM
348:FPM DRAM
281:(DIMM).
581:UniDIMM
445:HBM-PIM
411:(FCRAM)
271:Toshiba
267:Fujitsu
202:improve
139:scholar
535:Rambus
420:RLDRAM
335:(DRAM)
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695:SDRAM
640:This
595:Lists
543:RDRAM
523:GDDR7
518:GDDR6
513:GDDR5
508:GDDR4
503:GDDR3
498:GDDR2
488:SGRAM
483:MDRAM
450:HBM3E
435:HBM2E
415:eDRAM
403:LPDDR
371:SDRAM
259:FCRAM
187:, or
146:JSTOR
132:books
18:FCRAM
646:stub
586:CAMM
576:DIMM
571:SIMM
493:GDDR
478:WRAM
473:VRAM
440:HBM3
430:HBM2
396:DDR5
391:DDR4
386:DDR3
381:DDR2
269:and
118:news
425:HBM
101:by
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