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Currently Browsing: Results for Tag "7nm"

Samsung: Full speed ahead for 10nm, EUV deploys at the 7nm node

Samsung: Full speed ahead for 10nm, EUV deploys at the 7nm node For the past 12 months, Samsung’s foundry division has occupied a leadership position at the 14nm node.The image above shows why companies continue to claw for EUV lithography, despite its problems, power costs, and vastly increased cooling requirements.

How Intel lost the mobile market, part 2: the rise and neglect of Atom

How Intel lost the mobile market, part 2: the rise and neglect of Atom The common explanation for why Intel lost the mobile market is that its x86 mobile processors either drew too much power, or weren’t powerful enough compared with their ARM counterparts.Despite being initially starved for resources, 32nm Atom chips were competitive in the midrange mobile market.

ARM announces new Artemis CPU core, first 10nm test chip, built at TSMC

ARM announces new Artemis CPU core,  first 10nm test chip, built at TSMC As of yesterday, ARM is announcing that it has successfully validated a new 10nm FinFET design at TSMC.The unnamed multi-core test chip features a quad-core CPU from ARM, codenamed Artemis, a single-core GPU as a proof of concept, and the chip’s interconnect and other various features.

GlobalFoundries announces new 7nm FinFET process, full node shrink

GlobalFoundries announces new 7nm FinFET process, full node shrink Even more interesting is the fact that the company intends to execute a full node shrink at 7nm, rather than using a hybrid node.A quick word on “full node” versus “hybrid node.

New rumors claim to shed light on AMD’s upcoming Vega 10 and 11 GPUs, forecast 7nm Vega 20

New rumors claim to shed light on AMD’s upcoming Vega 10 and 11 GPUs, forecast 7nm Vega 20 There’s a new set of rumors cropping up about AMD’s Vega.That works out to up to 1TB/s of memory bandwidth for a full implementation — and the first-generation HBM implementations that AMD shipped were full implementations.

Samsung’s 10nm node, SoCs now in mass production

Samsung’s 10nm node, SoCs now in mass production According to Samsung, its 10nm LPE (Low Power Early) process node will offer “up to 30-percent increase in area efficiency with 27-percent higher performance or 40-percent lower power consumption.” Or this, from the company’s page on its 32nm process node.