根據(jù)一則媒體報道,我國科學家正在建造一臺低耗能、高性能的超導計算機,旨在最早于2022年建成樣機。
Scientists at the Chinese Academy of Sciences launched the project worth one-billion yuan last November.
中國科學院的科學家們是在去年11月啟動了這個預算10億元的項目。
The unprecedented machine will have central processing units running at a frequency of 770 gigahertz or higher. By contrast, the fastest existing commercial processor runs at just 5 Ghz.
這臺史無前例的機器的中央處理器將以770千兆赫或更高頻率運行。相比之下,現(xiàn)有的最快商業(yè)處理器的運行速度僅為5千兆赫。
The machine will also help find a way to reduce the massive energy consumption of supercomputers. As supercomputers grow bigger, so does their appetite.
這臺機器還將有助于找尋降低超導計算機巨大能耗的方法。隨著超級計算機變得越來越大,它們的胃口也越來越大。
China's Sunway TaihuLight, the world's second-fastest supercomputer behind the Summit in the US, requires 15 megawatts of power to run for one year, according to a researcher involved in the R&D process.
據(jù)參與研發(fā)過程的研究人員稱,中國的神威太湖一號是全球第二大超級計算機,僅次于美國的Summit,需要15兆瓦的電力才能運行一年。
By 2040, the world's computers may need more electricity than our global energy production can deliver, according to a report released by the Semiconductor Industry Association and the Semiconductor Research Corporation in 2015.
根據(jù)半導體行業(yè)協(xié)會和半導體研究公司2015年發(fā)布的一份報告顯示,到2040年,全球的計算機需要的電力可能要比全球能源生產(chǎn)的電力更多。
The superconducting computer could be one of the most radical solutions to an ever-increasing energy demand. The concept rests on sending electric currents through supercooled circuits made of superconducting materials.
超導計算機可能是不斷增長的能源需求的最激進的解決方案之一。該概念依賴于通過由超導材料制成的過冷電路發(fā)送電流。