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.
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.
由于这种多处理器架构的流行,很多供应商都生产了CMP设备。
Given the popularity of this multiprocessor architecture, many vendors produce CMP devices.
同样的过滤器可以在不同的GPU和CPU架构上高效运行,包括多核与多处理器系统。
Allows the same filter to run efficiently on different GPU and CPU architectures, including multi-core and multiprocessor systems.
这种模式可以仿真很多处理器架构,例如x86、x86_64、ARM、SPARC、PowerPC和MIPS,其动态转换的速度也比较理想。
This mode emulates a number of processor architectures, such as x86, x86_64, ARM, SPARC, PowerPC, and MIPS, with reasonable speed using dynamic translation.
构建松耦合多处理器架构很容易(由于使用了Beowulf之类的项目),但是它们也有自身限制。
Building loosely-coupled multiprocessor architectures is easy (thanks to projects like Beowulf), but they have their limitations.
构建松耦合多处理器架构很容易(由于使用了Beowulf之类的项目),但是它们也有自身限制。
Building loosely-coupled multiprocessor architectures is easy (thanks to projects like Beowulf), but they have their limitations.
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