| ID | 原文 | 译文 |
| 17465 | 针对上述问题,该文提出一种面向安全协议的虚拟化可编程数据平面(VCP4),其通过引入描述头降低包头解析次数,提高包头解析效率。 | In view of the above problems, VCP4(VirtualizationCryptogram P4) as a virtualized programmable data plane for security protocols is proposed, which reduces thenumber of parsing times and improves the header parsing efficiency by introducing a description header. |
| 17466 | 使用控制流队列生成器和动态映射表实现可编程数据平面的虚拟化,实现多租户下数据平面的隔离,解决独占数据平面问题。 | The control flow queue generator and the dynamic mapping table are used to achieve the virtualization of the programmable data plane, thereby realizing the isolation of the data plane under the multi-tenant and solving the problem of the exclusive data plane. |
| 17467 | 在VCP4的语言编译器中添加密码算法原语,实现密码算法可重用。 | A cryptographic algorithm primitive is added to the VCP4 languagecompiler to implement a cryptographic algorithm that can be reused. |
| 17468 | 最后针对VCP4资源利用率,虚拟化性能和安全协议性能进行实验评估,结果显示在实现功能的基础上带来较小的性能损失,且能降低50%的代码量。 | Finally, the VCP4 resource utilization,virtualization performance and security protocol performance are evaluated. The results show that theimplementation of VCP4 brings less performance loss, and the code amount can be reduced by 50%. |
| 17469 | 该文从频率域电磁法满足的控制方程出发,采用有限单元法实现了频率域2.5维探地雷达(GPR)正演模拟。 | Based on the governing equations satisfied by the electromagnetic method of the frequency domain, the finite element method is used to realize the forward simulation of 2.5-Dimensional a (2.5D) Ground Penetrating Radar (GPR) in the frequency domain. |
| 17470 | 重点分析了波数域电磁场谱随相对介电常数和收发距变化的规律,探讨了2.5维GPR正演模拟的波数选取问题; | The law of the electromagnetic field spectrum in thewavenumber domain with the relative permittivity and the transmission and reception distance is analyzed indetail. The selection of the wave number in the 2.5D GPR forward modeling simulation is discussed. |
| 17471 | 基于Open MP并行算法与串行算法的计算效率对比,表明频率域2.5维GPR数值模拟方法具有高效率、高精度和高度并行性的特点,为雷达正演提供重要理论参考依据和技术支撑,是GPR全波形反演的重要基础。 | Based on the comparison of the computational efficiency of the Open MP parallel algorithm and the serial algorithm, the results show that the 2.5D GPR numerical simulation method in the frequency domain has the characteristics of high efficiency, high precision, and high parallelism. It provides important theoretical reference and technicalsupport for radar forward modeling, and provides an important foundation for GPR full waveform inversion. |
| 17472 | 针对高频场景(>52.6 GHz)面临的主要问题:路径损耗比较大、功率放大器的效率比较低和相位噪声比较高等,该文设计了一种高频场景候选波形方案。 | A candidate waveform scheme is designed to deal with the main problems in the high-frequencyscenarios (>52.6 GHz) such as relatively large path loss, low efficiency of power amplifier and high phase noise. |
| 17473 | 该候选波形方案包括基本符号结构的增强设计、发射端和接收端结构的增强设计,以及尾部序列长度可变方案设计等。 | This candidate waveform scheme designs the enhanced fundamental symbol structure, the enhanced transmitterand the receiver structure, and tail sequence length variable schemes. |
| 17474 | 相比于5G现有波形DFT-s-OFDM,该文提出的高频场景候选波形方案具有更高的频谱效率。 | Compared with the 5G waveform DFT-s-OFDM, the proposed candidate waveform scheme improves the spectrum efficiency. |