Blackghost 1.0测试芯片:迈向物联网超低vdd SoC商用之路

2017 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) Pub Date : 2017-10-01 DOI:10.1109/S3S.2017.8308750

Y. Pu, K. Easton, Chunlei Shi, R. Beraha, Adam Newham, Rashid Attar, Yang Du

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引用次数: 0

摘要

我们推出了在高通研究开发的Blackghost 1.0 SoC，这是我们的第一个测试芯片，为超低vdd Blackghost产品家族的商业化铺平了道路。通过无缝集成来自软件、硬件、架构和电路的许多低功耗创新，Blackghost为电池供电的物联网提供无与伦比的功率效率。它集成了一个基于ARM Cortex M0的低占用传感器/控制处理器，一个具有直接电池连接能力的片上电源管理单元，一个计算机视觉分类器处理器，一个可编程DSP硬件加速器和一个超低功耗模拟前端，采用台积电28LP CMOS工艺技术的3×3 mm2芯片。计算可以在接近阈值电压(<0.6V)下工作，频率高达50 MHz，并且直接连接的电池的功耗仅<9 μA/MHz。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Blackghost 1.0 test chip: On the road towards commercializing ultra-low-Vdd SoC for Internet-of-Things

We introduce the Blackghost 1.0 SoC developed in Qualcomm Research, which is our first test chip that paved the road towards the commercialization of the ultra-low-Vdd Blackghost product family. Through seamless integration of many low-power innovations from software, hardware, architecture and circuit, Blackghost delivers unmatched power efficiency for battery-powered Internet-of-Things. It integrates a low footprint sensor/control processor based on ARM Cortex M0, an on-die power management unit with direct battery attach capability, a computer vision classifier processor, a programmable DSP hardware accelerator and an ultra-low-power analog front end on a 3×3 mm2 die in TSMC 28LP CMOS process technology. The computation can operate at near-threshold voltages (<0.6V) at frequencies up to 50 MHz and draws only <9 μA/MHz from the directly attached battery.

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2017 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S)

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