Hiroyuki Tashiro scite author profile

A leading edge 22nm 3-D tri-gate transistor technology has been optimized for low power SoC products for the first time. Low standby power and high voltage transistors exploiting the superior short channel control, < 65mV/dec subthreshold slope and <40mV DIBL, of the Tri-Gate architecture have been fabricated concurrently with high speed logic transistors in a single SoC chip to achieve industry leading drive currents at record low leakage levels. NMOS/PMOS Idsat=0.41/0.37mA/um at 30pA/um Ioff, 0.75V, were used to build a low standby power 380Mb SRAM capable of operating at 2.6GHz with 10pA/cell standby leakages. This technology offers mix-and-match flexibility of transistor types, high-density interconnect stacks, and RF/mixed-signal features for leadership in mobile, handheld, wireless and embedded SoC products. IntroductionAs CMOS technology scales down to 22nm, traditional planar transistor architectures [1-3] have reached a fundamental limit for the required short channel control necessary to continue scaling at the rate dictated by Moore's Law. Recently, novel 3-D Tri-Gate transistors have been proven to be capable of high volume manufacturing for high performance CPU products [4]. This paper reports, for the first time, a leading edge 22nm SoC process technology featuring 3-D Tri-Gate transistors which employs high speed logic transistors, low standby power transistors and highvoltage tolerant transistors simultaneously in a single SoC chip to support a wide range of products, including premium smart phones, tablets, netbooks, embedded systems, wireless communications, and ASIC products.

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RF CMOS technology scaling in High-k/metal gate era for RF SoC (system-on-chip) applications

Jan

Agostinelli

Deshpande

et al. 2010

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A 32nm SoC platform technology with 2<sup>nd</sup> generation high-k/metal gate transistors optimized for ultra low power, high performance, and high density product applications

Jan

Agostinelli

Buehler

et al. 2009

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Safety assessment of semichronic suprachoroidal electrical stimulation to rabbit retina

Terasawa

Tashiro

Nakano

et al. 2013

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Confirming safety of chronic electrical stimulation is of prime importance for the practical use of visual prostheses. Here we applied electrical stimulation to eyes of freely-moving rabbits eight hour per day for one month. Examinations including fundus photo, optical coherence tomography (OCT), electrically evoked potentials (EEPs) were performed before and after one-month stimulation to detect tissue damage. No adverse effect caused by electrical stimulation was observed in electrophysiological and histological evaluation. We also found that there was no sign of morphological and electrochemical degradation of stimulating electrodes.

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Constraining mixed dark-matter scenarios of WIMPs and primordial black holes from CMB and 21-cm observations

Tashiro

Kadota²

2021

Phys. Rev. D

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