它被迅速地移植到多种平台,并得到更新,包括支持多处理器配置。
It was quickly ported to multiple platforms and was updated to include support for multiprocessor installations.
Linux用于嵌入式的因特网设备也是很合适的,原因是它支持多处理器系统,该特性使Linux具有了伸缩性。
Linux is also well-suited for embedded Internet devices, because of its support of multiprocessor systems, which lends it scalability.
它是64位的文件系统,虽然它是在原来的JFS的基础上开发的,但却较之有所改进,即:JFS2具有更优的扩展性能,而且支持多处理器架构。
JFS2 is a 64-bit file system that, although based on the original JFS, was enhanced to be more scalable and support multi-processor architectures.
此外,由极快的主板架构支持的多处理器架构的出现,似乎使得分布式文件系统问题变得不太重要。
In addition, the appearance of multiple-processor architectures supported by extremely fast motherboard architectures seems to make distributed file system issues a lesser priority.
抢占和对多处理器体系架构的更好支持使整个系统更接近于多桌面和实时系统都非常有用的操作系统。
Preemption and better support for multiprocessor architectures move it closer to an operating system that's useful both on the desktop and on the real-time system.
现在,多处理器系统很便宜,而且数量很多,几乎每个主要微处理器都内置了多处理支持,其中许多系统支持数十个或数百个处理器。
Today, multiprocessor systems are cheap and plentiful, nearly every major microprocessor has built-in support for multiprocessing, and many support dozens or hundreds of processors.
尽管Verve还有很多局限性,但它的创建者觉得只有对多处理器的支持是明显的障碍,因为那可能需要对当前的结构进行本质上的修改。
While Verve does have some limitations, its creators feel only multi-processor support is a significant hurdle which may require fundamental changes to its current incarnation.
另外,一些多处理器系统支持并行处理。
In addition, some multiprocessor systems support parallel processing.
本文以rtems为例,通过对源代码的剖析,深入探讨嵌入式操作系统对多处理器系统的支持。
In this paper, We discuss the multiprocessor support of embedded system, illustrating with an example of RTEMS.
超速主板结构支持的多处理器结构的出现使分布式文件系统处于劣势。
The appearance of multiple-processor architectures supported by extremely fast motherboard architectures seems to make distributed file system issues a lesser priority.
分段和分页机制被配置成支持单任务系统、多任务系统或多处理器系统。
These two mechanisms (segmentation and paging) can be configured to support simple single-program (or single-task) systems, multitasking systems, or multiple-processor systems that used shared memory.
真正的多处理器和多线程支持,它利用硬件进步的优势。
True multi-processor and multi-threading support that takes advantage of hardware advancements.
真正的多处理器和多线程支持,它利用硬件进步的优势。
True multi-processor and multi-threading support that takes advantage of hardware advancements.
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