coarse-grained的音標(biāo)是["k???s-gri?n] ，基本翻譯是“粗粒的，粗大的；粗糙的；粗略的”，速記技巧是：coarse是形容詞粗糙的意思，中間的e不發(fā)音，grain是不可數(shù)名詞谷物，粒的意思。

Coarse-grained這個詞的英文詞源可以追溯到拉丁語“granum”和“granosus”，意為“顆粒狀的”或“粗糙的”。它的變化形式包括其復(fù)數(shù)形式“coarse-grains”和過去式、過去分詞形式“coarsed-grained”。

相關(guān)單詞：

1. Coarseness：意為“粗糙；粗魯；粗俗”。這個詞可以用來形容物體的表面質(zhì)地，也可以用來形容人的行為舉止。

2. Coarsen：意為“使粗糙；變粗糙”。這個詞可以用來描述使某物變得更加粗糙的過程。

3. Grainy：意為“顆粒狀的；有紋理的”。這個詞常用來形容圖像或視頻的質(zhì)感，也可以用來形容某種質(zhì)地或特征。

4. Coarsely：意為“粗糙地；粗魯?shù)亍薄＿@個詞可以用來修飾動詞或形容詞，表示以一種粗糙或不禮貌的方式進(jìn)行某事。

5. Coarse-grained modeling：意為“細(xì)化建模”。這是一種計(jì)算機(jī)圖形學(xué)中的技術(shù)，用于創(chuàng)建具有豐富細(xì)節(jié)的模型，同時保持整體模型的規(guī)模。

6. Coarse-grained view：意為“粗略的視圖”。這是一種從整體上觀察事物的方法，通常用于快速了解整體情況，而不需要深入了解細(xì)節(jié)。

7. Coarse-grained simulation：意為“粗粒度模擬”。這是一種模擬方法，用于處理大規(guī)模的系統(tǒng)或過程，通過簡化細(xì)節(jié)來加快計(jì)算速度。

8. Coarse-grained design：意為“粗粒度設(shè)計(jì)”。這是一種設(shè)計(jì)方法，將復(fù)雜系統(tǒng)分解為更小的子系統(tǒng)或模塊，以簡化設(shè)計(jì)和實(shí)現(xiàn)。

9. Coarse-grained language：意為“粗粒度語言”。這是一種編程語言，旨在簡化高級別的系統(tǒng)設(shè)計(jì)，通常用于分布式系統(tǒng)或云計(jì)算環(huán)境。

10. Coarse-grained architecture：意為“粗粒度架構(gòu)”。這是一種計(jì)算機(jī)系統(tǒng)或網(wǎng)絡(luò)架構(gòu)的設(shè)計(jì)方法，通過簡化細(xì)節(jié)來提高性能和可擴(kuò)展性。

常用短語：

1. coarse-grained model

2. coarse-grained view

3. coarse-grained simulation

4. coarse-grained classification

5. coarse-grained texture

6. coarse-grained behavior

7. coarse-grained analysis

例句：

1. The coarse-grained model of the system is easy to understand and analyze.

2. We need to develop a coarse-grained view of the problem to find a solution.

3. The coarse-grained simulation of the market showed a clear trend of growth.

4. The coarse-grained classification of the data is helpful for efficient processing.

5. The coarse-grained texture of the painting gives a sense of depth and richness.

6. The coarse-grained behavior of the system is determined by its architecture.

7. The coarse-grained analysis of the problem led to a better solution.

英文小作文：

Coarse-graining is a process of reducing a complex system into simpler components, which can be more easily understood and analyzed. In many fields, such as physics, biology, and computer science, coarse-graining plays an important role in simplifying complex systems and gaining insights into their behavior.

Coarse-graining can be applied to different levels of description, from macroscopic systems to microscopic details. For example, in physics, coarse-graining is often used to describe the behavior of complex fluids or turbulence in fluids. In biology, coarse-graining can be applied to analyze the structure and dynamics of tissues or organs at different scales.

Coarse-graining can also be used to develop new models and simulations that are more efficient and accurate than traditional approaches. For instance, coarse-grained models can be used to study the behavior of complex materials or biological systems that are too large or complex to be fully simulated using traditional methods.

Coarse-graining is a powerful tool that can help us gain a deeper understanding of complex systems and find new ways to address their challenges. It is an ongoing process that requires continuous efforts and creativity to develop new methods and approaches that are tailored to specific problems and contexts.