The GEOS-5 model normally runs at a resolution of 5 kilometers per pixel, though it can run at 3.5 kilometers, making it the most detailed global climate model in the world.
GEOS -5模型通常使用5公里每像素的分辨率运行,得到世界上最精细的全球气候模型,实际上它还能够使用更精细的3.5公里分辨率。
GEOS typically protects its clients' ships with help from a Nigerian police boat or small navy gunship.
GEOS主要通过尼警方船只或小型的海军舰船的帮助保护客户的船只。
Climate scientists use GEOS-5 to predict climate over the span of a few decades.
气候学家使用GEOS - 5来预测未来几十年的气候情况。
The GEOS-5 model USES mathematical equations that represent physical processes-such as precipitation and cloud processes-to calculate what the atmosphere will do.
GEOS - 5运用描述物理过程的数学方程(比如沉积过程和成云过程)来模拟大气的变化。
The model is called the Goddard Earth Observing System model, Version 5 (GEOS-5), and it is the highest-resolution global climate model to date.
使用的模型被称为戈达德地球观测系统模型第5版(GEOS -5, Goddard Earth Observing System Model, Version 5),是迄今为止分辨率最高的全球气候模型。
The GEOS-5 model runs on the Discover supercomputer in the new NASA Center for Climate Simulation at Goddard Space Flight Center. Discover contains nearly 15,000 processors and will soon be augmented.
GEOS - 5模型在戈达德太空飞行中心新建的美国国家航空航天局气候模拟中心的“探索”超级计算机上运行,它拥有约15000个处理器,并且即将增加。
E-GEOS and 4c will also work together on training activities and the development of applications.
e - GEOS公司和4c公司还将一起从事培训活动和应用开发。
The GEOS-5 model runs on the nearly 15,000 processors of the Discover supercomputer in the new NASA Center for Climate Simulation at Goddard Space Flight Center.
在NASA戈达德宇航中心新建的气候模拟中心的超级电脑“探索”上有将近15000个处理软件在运行GEOS - 5。
The GEOS-5 model runs on the nearly 15, 000 processors of the Discover supercomputer in the new NASA Center for Climate Simulation at Goddard Space Flight Center.
在NASA戈达德宇航中心新建的气候模拟中心的超级电脑“探索”上有将近15000个处理软件在运行GEOS - 5。
This means that a flat map of the globe produced by a typical climate model contains 777,000 grid cells (pixels). The five-kilometer GEOS map, like the one shown here, contains 24 million grid cells.
这意味着,典型气候模式生成的全球平面图包含777000个网格单元(像素),而这里展示的5公里分辨率的GEOS图则包含24000000个网格单元。
In this paper, the spatial enrichment regularities of gold are studied from the spatial distribution of ore bodies, lithology, construction and magmatic rocks with the methods of statistics and geos.
运用数理统计和地质统计学方法,从矿区地层岩性、构造、岩浆岩、矿体的空间分布等方面研究了墨江金厂金矿床金元素的空间富集规律。
In this paper, the spatial enrichment regularities of gold are studied from the spatial distribution of ore bodies, lithology, construction and magmatic rocks with the methods of statistics and geos.
运用数理统计和地质统计学方法,从矿区地层岩性、构造、岩浆岩、矿体的空间分布等方面研究了墨江金厂金矿床金元素的空间富集规律。
应用推荐