• Logic Technology Roadmap

    Advanced logic technology platforms are all now based on FinFETs. Intel lead with the introduction of its 2nd generation FinFET in their 14 nm technology. In order to catch up to Intel, the foundries paused scaling so they could manage risk during their 1st generation FinFET insertion. The Samsung 14LP and TSMC 16FF platforms are effectively on 20 nm class design rules, whereas Intel 14 nm overscaled from 22 nm class design rules. This has allowed Intel to overtake the foundries in routed gate density, by a significant factor. The foundries will be ahead of Intel to introduce a 10 nm platform, and we will soon see how much of a density lead the foundries take back, before Intel releases their 10 nm technology.

    There is intense demand for even lower power, higher performance, at lower cost. This is due to continued strength in mobile and cloud, but also due to a projected explosion in AI-based computing and 5G connectivity as drivers for market growth. To meet this demand, logic technology node scaling plans are accelerating, rather than slowing down, with 7 nm technology just around the corner.

    Fully-Depleted SOI technology has risen as an alternative technology for non-high performance applications, particularly where value-added features such as high-performance analog, RF, and embedded NVM are more important than cost and density. 28 nm class FD-SOI has hit the market and we expect to see more innovative designs on a 22FDX technology platform from Globalfoundries.

    NAND Flash Memory Technology/Products Roadmap

    NAND Flash has become an increasingly important part of today’s technological society with USB flash drives, smartphones, digital cameras, tablet PCs and iPads becoming a more and more integrated part of society on which we rely on. As a result, revenues are rising rapidly.

    The three largest markets for NAND Flash are smartphones, solid state drives (SSDs) and tablets in that order. Smartphones alone consume over a quarter of the world’s flash, an amazing ramp-up considering the first iPhone was released in 2007. SSDs are seeing significant consumer demand, but also in the large data server market as people migrate their information storage to the cloud and the cost of ownership of enterprise SSDs is dropping below their HDD equivalents.

    DRAM Technology/Products Roadmap

    DRAM devices are critical electronic components and still contribute about 45.4 billion USD, or 10% of revenue to the overall semiconductor industry. Moore's law has allowed DRAM density to increase exponentially over the last 40 years due mainly to continuous linewidth reductions.

    However, scaling is only one means to tackle DRAM’s three critical technical challenges: Increased bandwidth requirements, reduced power consumption, and reduced cost per bit. Bandwidth of the Input/Output is a key consideration, and I/O standards are set by JEDEC. Any company may freely manufacture products designed to a JEDEC standard.

    Emerging Memory Technology/Products Roadmap

    Given that the integration limit of 2D and 3D Flash memories is soon approaching, many new types of NVM memories have been proposed and developed. Some of chip makers already have mass-products on MRAM, STT-MRAM, PCRAM, ReRAM (including CBRAM) and FeRAM devices. There is on-going development on emerging memory technology to replace Flash Memory and Micron’s XPoint Memory is one of them.

    The keywords for developing emerging memory technology are mostly on materials and cell architecture. HfO2-based thin films for the feasible ferroelectricity, the active electrode and filament in the solid electrolyte for TiO/TaO-based 1T1R or 1D1R ReRAM, 3D stacked H-RRAM or V-RRAM, MTJ elements such as Free-Tunnel-Pinned layers for STT-MRAM, GeSbTe alloys for PCRAM, PZT and other materials for FeRAM materials are some examples.

    Major players include Samsung, Avalanche Technology, Crocus Nano Electronics, Everspin, Cobham and Honeywell (for MRAM and STT-MRAM), Intel, Micron and Samsung (for PCRAM), Adesto Technology, Fujitsu and Panasonic (ReRAM including CBRAM), Texas Instruments, Fujitsu, Lapis and Cypress (for FeRAM). Recently Everspin has developed 256 Mb STT-MRAM and Adesto revealed their 45 nm ZrTe/AlO-based CBRAM products.

    TechInsights will be analyzing the upcoming advanced emerging memory products this year, including Everspin pMTJ 256Mb STT-MRAM, Micron/Intel Optane XPoint memory, Adesto 45 nm RM33 CBRAM, and Avalanche 55 nm STT-MRAM.

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