主处理元素是一个非常标准的通用处理器。
The main processing element is a fairly standard general-purpose processor.
首先,通用处理器的设计是十分困难的!
龙芯2号是我国自主研发的高性能通用处理器,其设计十分复杂。
Godson2 processors are self-dependent general processors in our country, the design of which is very complicated.
事实上,这也是为什么大多数通用处理器架构的公司正在向多核心解决方案转型的原因之一。
In fact, this is one of the reasons why most of the general-purpose processor architecture companies are moving to multi-core solutions themselves.
通用处理器可以在一个非常广泛的基准算法上进行优化,目的是通过整体设置提供良好的性能。
To clarify, general purpose processors are optimized across a very wide set of benchmark algorithms, with the objective of providing good performance across the entire set.
目前的通用处理器无法对大量图案数据进行实时处理,这使得数码印花机的印花速度受到限制。
Current general-purpose micron-processors can not afford real-time data processing, which then limit the print speed of the inkjet printer.
整体看来他们最好还是像做上一代的产品一样去买现成的通用处理器,他们的竞争对手也是使 用的现成的。
Overall they would have been better buying an off the shelf generalised processor as they did for previous models and as their competitors did.
传统基于通用处理器和ASIC的解决方案无法兼顾网络信息审计系统对高性能和灵活性的要求。
Traditional system architectures based on general purpose processor and ASIC can not satisfy requirements to high performance and flexibility of network information audit system.
专用指令集处理器(ASIP)结合了ASIC协处理器的高效性与通用处理器的灵活性,在信息安全领域具有广泛的应用前景。
The ASIP, which features the high efficiency of ASIC co-processor and the flexibility of General Purpose Processor, has and will have popular application in information security domain.
实现了基于虚拟指令集的通用处理器内核,同时实现了通用的系统互联模型,处理器模型,存储器模型、外围设备模型和调试模型。
On the framework, it develops a universal instruction simulator core and system inter-connection model, processor model, memory model, device model and debug model.
从传统的以通用处理器(GPP)为基础的软件执行方式,到专用集成电路asic为代表的硬件执行方式,对上述的各项指标都没有得到很好的解决。
However neither the software execution mode based on general purpose processor (GPP) or hardware execution mode based on ASIC meets all of these requirements well.
根据其体系结构,媒体处理器可以分为专用可编程处理器、通用可编程处理器、专用处理器和可重配置处理器几大类。
Media processors can be classified into two pieces, special purpose programmable processor and general purpose programmable processor, or dedicated processor and reconfigurable processor.
根据其体系结构,媒体处理器可以分为专用可编程处理器、通用可编程处理器、专用处理器和可重配置处理器几大类。
Media processors can be classified into two pieces, special purpose programmable processor and general purpose programmable processor, or dedicated processor and reconfigurable processor.
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