reprogrammable

简明释义

英[ˌriːprəʊˈɡræməbəl]美[ˌriːˈprɑːɡrəˌmɑːbəl]

adj. [计] 可改编程序的；可重复编程的

英英释义

单词用法

同义词

反义词

例句

1.On this basis, the principle prototype is developed with high speed digital signal processor (DSP), the huge reprogrammable logic gate arrays (FPGA) and real-time software.

在此基础上，采用高速数字信号处理器、大规模可编程逻辑门阵列和实时软件进行系统设计，完成了原理样机的研制。

2.A reprogrammable, multifunctional manipulator designed to move materials, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks.

一个可再编程的多功能操作器，用来移动材料，零部件，工具等；或一个通过编程用于完成各种任务的专用设备。

3.The CKG, a reprogrammable encryption-key generator, will work with existing and next-generation information assurance products and equipment used in military vehicles, aircraft and ships.

这种重新编程生成的加密密钥(CKG)将与目前的和下一代信息保障产品和装备共同运行，用于军用车辆、飞机和舰船。

4.A reprogrammable, multifunctional manipulator designed to move materials, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks.

一个可再编程的多功能操作器，用来移动材料，零部件，工具等；或一个通过编程用于完成各种任务的专用设备。

5.Our company offers reprogrammable security systems to adapt to changing needs.

我们公司提供可重新编程的安全系统，以适应不断变化的需求。

6.Many modern robots are reprogrammable, which makes them versatile for different tasks.

许多现代机器人是可重新编程的，这使它们在不同任务中非常灵活。

7.The educational toy features reprogrammable functions that help children learn coding.

这个教育玩具具有可重新编程的功能，帮助孩子们学习编程。

8.The new smart thermostat is reprogrammable, allowing users to customize their heating schedule.

新的智能恒温器是可重新编程的，允许用户自定义加热时间表。

9.The reprogrammable microcontroller can be updated with new software as needed.

这个可重新编程的微控制器可以根据需要更新新软件。

作文

In today's rapidly advancing technological landscape, the concept of reprogrammable devices has gained significant attention. The term reprogrammable refers to the ability of a device or system to be programmed again or modified after its initial configuration. This flexibility has made reprogrammable technology essential in various fields, including computing, robotics, and telecommunications.One of the most prominent examples of reprogrammable technology is Field-Programmable Gate Arrays (FPGAs). These integrated circuits can be configured by the user after manufacturing, allowing for a wide range of applications from digital signal processing to cryptography. The reprogrammable nature of FPGAs enables engineers to adapt their designs to meet specific requirements without the need for new hardware. This adaptability not only saves time but also reduces costs associated with production.Moreover, reprogrammable systems are pivotal in the realm of software development. Programmers often utilize reprogrammable platforms to test and refine their applications. For instance, using virtual machines or containers allows developers to create reprogrammable environments where they can easily modify settings, install new software, or revert to previous configurations. This capability enhances productivity and fosters innovation, as it enables rapid prototyping and iterative testing.In robotics, reprogrammable robots have revolutionized manufacturing processes. Unlike traditional robots, which are designed for a single task, reprogrammable robots can be reconfigured to perform multiple tasks. For example, a robotic arm in an assembly line can be programmed to assemble different products by simply changing its software. This versatility not only increases efficiency but also allows companies to respond quickly to changing market demands.The educational sector has also embraced reprogrammable technology. Many educational institutions now incorporate reprogrammable kits and platforms into their curricula to teach students about programming and electronics. These hands-on experiences allow students to experiment with coding and hardware, fostering a deeper understanding of how technology works. By engaging with reprogrammable devices, students develop critical thinking and problem-solving skills that are essential in today's job market.However, the rise of reprogrammable technology is not without challenges. Security concerns arise when devices can be reprogrammed, as malicious actors may exploit vulnerabilities to gain unauthorized access. Thus, ensuring robust security measures is crucial in the design and implementation of reprogrammable systems. Developers must prioritize security protocols to protect sensitive data and maintain user trust.In conclusion, the concept of reprogrammable technology plays a vital role in shaping modern innovations across various industries. Its ability to adapt and evolve makes it a powerful tool for engineers, developers, educators, and manufacturers alike. As we continue to explore the potential of reprogrammable systems, it is essential to address the associated challenges while harnessing their benefits. The future of technology will undoubtedly be influenced by our capacity to create and utilize reprogrammable devices effectively, paving the way for more dynamic and responsive solutions in an ever-changing world.

在当今快速发展的技术环境中，可重编程设备的概念引起了人们的广泛关注。可重编程一词指的是设备或系统在初始配置后能够再次编程或修改的能力。这种灵活性使得可重编程技术在计算、机器人和电信等多个领域变得至关重要。最显著的可重编程技术之一是现场可编程门阵列（FPGAs）。这些集成电路可以在制造后由用户配置，允许从数字信号处理到密码学等多种应用。FPGAs的可重编程特性使工程师能够调整设计以满足特定要求，而无需新硬件。这种适应性不仅节省了时间，还减少了与生产相关的成本。此外，可重编程系统在软件开发领域也至关重要。程序员通常利用可重编程平台来测试和完善他们的应用程序。例如，使用虚拟机或容器可以让开发人员创建可重编程环境，在这里他们可以轻松修改设置、安装新软件或恢复到先前的配置。这种能力提高了生产力，促进了创新，因为它使快速原型设计和迭代测试成为可能。在机器人技术领域，可重编程机器人彻底改变了制造过程。与传统的为单一任务设计的机器人不同，可重编程机器人可以重新配置以执行多项任务。例如，装配线上的机械臂可以通过简单地更改其软件来编程以组装不同的产品。这种多功能性不仅提高了效率，还使公司能够迅速应对不断变化的市场需求。教育部门也开始接受可重编程技术。许多教育机构现在将可重编程工具包和平台纳入其课程，以教授学生编程和电子学。这些动手实践的经验使学生能够实验编码和硬件，深入理解技术的工作原理。通过与可重编程设备的互动，学生培养了在当今就业市场中至关重要的批判性思维和解决问题的能力。然而，可重编程技术的兴起并非没有挑战。当设备可以被重新编程时，安全问题随之而来，因为恶意行为者可能会利用漏洞获得未授权的访问。因此，在设计和实施可重编程系统时，确保强大的安全措施至关重要。开发人员必须优先考虑安全协议，以保护敏感数据并维护用户信任。总之，可重编程技术的概念在塑造现代创新方面发挥着至关重要的作用。其适应和发展的能力使其成为工程师、开发人员、教育工作者和制造商的重要工具。随着我们继续探索可重编程系统的潜力，解决相关挑战的同时利用其优势是至关重要的。未来的技术无疑将受到我们有效创建和利用可重编程设备能力的影响，为在瞬息万变的世界中提供更具动态性和响应性的解决方案铺平道路。