asynchronous

"asynchronous"的音标为[ˌæsɪərənˈθjuːkəs]。"asynchronous"的意思是不同步的。

基本翻译：异步的，不同步的。

速记技巧：asynchronous中的"syn"来自"synchronize"（同步），去掉"syn"就是"async"（异步）。

希望以上信息对您有帮助，具体请参考专业词典的解释。

Asynchronous的词源：

- 词源：拉丁语“asynergeticus”，意为“不同步的”。

变化形式：

- 过去式：asynchronous

- 过去分词：asynchronous

- 现在分词：asynchronous

相关单词：

- asynchronous communication（异步通信）

- asynchronous processing（异步处理）

- asynchronous system（异步系统）

- asynchronous signal（异步信号）

- asynchronous transmission（异步传输）

- asynchronous clock（异步时钟）

- asynchronous data（异步数据）

- asynchronous load（异步负载）

- asynchronous event（异步事件）

- asynchronous loop（异步循环）

Asynchronous这个词在计算机科学中常用于描述不同部分或组件之间的通信方式，强调的是各自独立、不相互干扰。这种特性使得系统更加灵活，能够更好地应对突发情况。

常用短语：

1. asynchronous communication

2. asynchronous processing

3. asynchronous transfer mode (ATM)

4. asynchronous transfer

5. asynchronous programming

6. asynchronous event

7. asynchronous operation

双语句例：

1. Asynchronous communication allows messages to be sent asynchronously, meaning that they can be sent at any time without waiting for a response.

2. The asynchronous processing of data can be challenging, but it can also lead to more efficient and flexible systems.

3. ATM networks are commonly used in asynchronous transfer mode, which allows for high-speed data transmission over a shared network.

4. Asynchronous programming can be tricky to master, but it can lead to more responsive and responsive applications.

5. An asynchronous event occurs when a task is performed without waiting for a previous task to complete.

6. An asynchronous operation can be tricky to manage, but it can lead to more efficient and reliable systems.

7. When dealing with multiple tasks, it"s important to use asynchronous programming techniques to ensure that tasks are performed in the correct order and efficiently.

英文小作文：

Asynchronous Programming in Modern Computing Systems

Asynchronous programming is a key aspect of modern computing systems, allowing for more responsive and efficient systems that handle multiple tasks simultaneously. It can be tricky to master, but it is essential for developing applications that handle multiple tasks without causing bottlenecks or delays.

When dealing with multiple tasks, it"s important to use asynchronous programming techniques to ensure that tasks are performed in the correct order and efficiently. This can be achieved through the use of message queues, event-driven programming, or asynchronous communication protocols such as TCP/IP.

Asynchronous programming allows for more flexible and responsive systems that can handle a variety of tasks simultaneously, making it a key component of modern computing systems. It"s essential for developing efficient and reliable applications that handle multiple tasks without causing bottlenecks or delays, ensuring that users are provided with a seamless and enjoyable experience.