| 1. | The machine architecture on which this deployment can run
可用于运行此部署的计算机体系结构。 |
| 2. | These sizes don ' t change from one machine architecture to another as they do in most languages
就象在大多数语言里那样,这些大小并不随着机器结构的变化而变化。 |
| 3. | Developers no longer need be impeded by the constraints of a machine architecture or physical infrastructure
开发者不再需要受制于机器架构或物理基础设施之类的限制。 |
| 4. | You can apply the overall concept in these design patterns to any machine architecture , operating system , and compiler combination
您可以在任何机器体系架构、操作系统和编译器上应用这两种设计模式中的概念。 |
| 5. | However , you can apply the overall concepts equally well to any machine architecture , operating system , and compiler combinations
不过,您同样可以将所有的思想应用到任意的机器体系结构、操作系统和编译器组合。 |
| 6. | Grid computing is an approach to distributed computing that spans not only locations but also organizations , machine architectures and software boundaries to provide unlimited power , collaboration and information access to everyone connected to a grid . " in fact , grid computing technology has been widely used in areas such as finance , defense research , medicine discovery , decision - making , and collaborative design
随着计算环境特别是因特网和宽带技术的发展,商业界出现了一种运动,就是应用这些新的、互相协作的技术与思想来解决金融业、国防研究、医药发明、决策制定和协作设计等领域的问题。 |
| 7. | Javassist isn t the only library for working with bytecode , but it does have one feature in particular that makes it a great starting point for experimenting with classworking : you can use javassist to alter the bytecode of a java class without actually needing to learn anything about bytecode or the java virtual machine architecture
Javassist不仅是一个处理字节码的库,而且更因为它的另一项功能使得它成为试验classworking的很好的起点。这一项功能就是:可以用javassist改变java类的字节码,而无需真正了解关于字节码或者java虚拟机( java virtual machine jvm )结构的任何内容。 |
| 8. | In this paper , a reconfigurable and extendable virtual machining architecture is put forward based on the detail analysis of the request for virtual machining made by virtual manufacturing . the key technologies related to realize virtual machining are also discussed , among which the modeling of reconfigurable virtual machining environment is the base and the difficult point
本文在详细分析了虚拟制造对虚拟加工的技术要求基础上,提出了可重构、可扩展的虚拟加工系统体系结构,并分析讨论了实现虚拟加工的关键技术,指出可重构的虚拟加工环境的建立是实现虚拟加工系统的基础和难点。 |
