Energy, demand for computing power and the Green World

Modern Electronic Materials Pub Date : 2024-07-16 DOI:10.3897/j.moem.10.2.131698

N. A. Sobolev

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Abstract

The review looks at the main trends in global energy production and consumption over the last half century, based on P.L. Kapitza’s 1975 analysis using a unified approach based on the Umov–Poynting vector. Such aspects of the problem as the impact of energy consumption on gross national product per capita, reasons for different approaches of countries to the transition to renewable energy sources, existing sources of energy, global distribution of its production and consumption, features and prospects of different energy technologies, as well as technologies to reduce energy consumption are touched upon. Thus, since 1975, the price of one kilowatt-hour of "solar" electricity has fallen by orders of magnitude and this technology has moved to the forefront, while fusion still remains the "energy of the future" and coal continues to hold its position in the market. Somewhat unexpectedly, electronics and telecommunications have become a major consumer of energy, urging a shift from von Neumann architecture to neuromorphic technology in computers and the development of femto and attowatt optoelectronics. And a totally unforeseen energy consumer has been cryptocurrency mining. On the other hand, the harvesting of dissipated energy in a variety of ways is seen as an environmentally friendly alternative to the use of batteries in low and ultra-low-power devices.

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能源、计算能力需求与绿色世界

根据 P.L. Kapitza 1975 年使用基于 Umov-Poynting 向量的统一方法进行的分析，本综述探讨了过去半个世纪全球能源生产和消费的主要趋势。其中涉及的问题包括能源消耗对人均国民生产总值的影响、各国在向可再生能源过渡时采取不同方法的原因、现有能源、能源生产和消费的全球分布、不同能源技术的特点和前景以及减少能源消耗的技术。因此，自 1975 年以来，每千瓦时 "太阳能 "电力的价格下降了几个数量级，这项技术已走在前列，而核聚变仍是 "未来能源"，煤炭继续在市场上占有一席之地。有些出乎意料的是，电子和电信已成为能源消耗大户，促使计算机从冯-诺依曼架构向神经形态技术转变，并推动了毫微微和毫瓦级光电子技术的发展。而加密货币挖矿则是一个完全未曾预料到的能源消耗者。另一方面，在低功耗和超低功耗设备中，以各种方式收集耗散的能量被视为使用电池的环保替代品。

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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Modern Electronic Materials

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