仿真通常在VM和底层硬件和操作系统之间提供层以便创建如图1中所示的预期的平台环境的幻想。
Emulation commonly provides a layer between the VM and the underlying hardware and operating system to create the illusion of the desired platform environment as shown in Figure 1.
对基于SCDMA接入方案的H FC上下行通信系统的发送机进行了功能仿真,为H FC接入网上行信道物理层的硬件实现创造了有利条件。
The function model of HFC communication system sender based on SCDMA is constructed in this paper, The modules of communication system can be simulated approaching the behavior of the hardware.
针对单隐层感知器的硬件设计进行了计算机仿真,得到了满足设计要求的隐层神经元个数和量化比特数。
For multilayer perceptron with single hidden layer, the computer simulation is done to get the number of hidden neurons and quantization bit which satisfy the design requirement.
同一层次的各个模块互连构成这一层次的硬件结构,仿真可以在设计的各个层次进行。
The interconnecting of the modules on the same design level comprises the hardware structure of this level and the simulation can be made on every level of the design.
通过硬件基本功能测试、物理层功能仿真验证以及模拟业务试验,证实了REPON系统可以稳定且可靠的运行,且其物理层光纤链路上的收发误码率在10-9以下。
The experimentation results show that this REPON hardware system can provide a stable and reliable performance, e. g. the bit error rate of its physical fiber link is less than 10 -9.
通过硬件基本功能测试、物理层功能仿真验证以及模拟业务试验,证实了REPON系统可以稳定且可靠的运行,且其物理层光纤链路上的收发误码率在10-9以下。
The experimentation results show that this REPON hardware system can provide a stable and reliable performance, e. g. the bit error rate of its physical fiber link is less than 10 -9.
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