最后,介绍了基于片上网络的模块化测试方法。
这时,片上网络做为一种新的解决途径被提出来了。
本文结合具体的片上网络实例验证了该平台的正确性。
We verify the correctness of the platform through evaluating a specific NoC instance.
近几年来,人们提出了片上网络这种新型的片上通信架构。
In recent years, people have proposed a new on-chip communication architecture -. Network-on-Chip.
因此,如何对片上网络设计进行性能评估就显得非常重要。
Therefore how to evaluate the performance of the NoC design become very significant.
论文对片上网络中异步路由节点的关键性技术进行了系统研究。
The thesis investigates the key technology of asynchronous routing node in network on chip systematically.
半导体技术的飞速发展推动了片上系统设计进入到片上网络阶段。
The fast development of the semiconductor technology had push the design of SOC into network on chips (NOC).
结构中包含数据处理单元、可配置加速部件以及连接各个核的片上网络。
The proposed architecture contains some data processing units and configurable accelerators and on-chip network connecting the heterogeneous cores.
提出的多播拥塞控制机制,能更有效地利用多播通信,提高片上网络的性能。
Finally, multicast congestion control techniques for NoC were employed to make multicast communications more efficient and enhance the NoC performance.
文章介绍了基于片上网络对系统芯片进行测试的原理和实例,这是一种新的设计方法。
This paper introduce the SoC testing, based on the new design methodology Network-on-Chip (NoC).
为求解通信时延受约束的低能耗片上网络(NoC)映射问题,提出一种改进禁忌搜索算法。
An improved tabu search algorithm is proposed to solve the low energy network-on-chip (NoC) mapping problem subject to communication latency constraints.
当前丰富多样的通信实体的选择、建模和仿真,对于精确评估和优化片上网络的整体性能非常重要。
The choice, modeling and simulation of current rich types of communicators are essential for an accurate evaluation and optimization of the global performance of a NoC.
应用映射是片上网络体系结构研究的关键问题之一,映射结果的好坏会极大地影响体系结构的性能。
In this paper, we proposed a topology-aware application mapping method for NoC architecture based on high level application transformation.
通过实验还证明实测性能难以达到理论预测值的两个主要原因:访存带宽有限和片上网络的资源竞争。
Experimental results also reveal two primary causes which make theoretical speedup hard to achieve: limited DRAM bandwidth and resource contention of on-chip network.
研究具有高度灵活性、适应性和可配置性的可重构片上网络,对于提高复杂应用的通信效率具有重要意义。
Therefore, it is of great significance to develop reconfigurable NoC with more flexibility, adaptability and configurability for improving the efficiency of complicated applications.
相比于传统的架构,片上网络可扩展性高,充分利用各处理器的并行处理能力,极大提高了系统芯片的性能。
Compared with traditional architectures, on-chip network's scalability and capability of full use of processor's parallel processing improve the performance of SoC.
片上网络作为一种全新的集成电路体系结构,可以很好的解决随着复杂度的增加所带来的片上通信需求问题。
Network on Chip (NoC) is an emerging IC architecture that cope with the increasing complexity and communication requirements of current System on Chip (SoC).
为了满足片上网络日益丰富的应用要求,多播路由机制被应用到片上网络,以弥补传统单播通信方式的不足。
The multicast routing method has been applied into the Network on Chip (NoC) since traditional unicast communication cannot meet the increasingly rich application requirements of NoC.
NOC是一个弹性的、可扩展的芯片微网络,网络的吞吐率、延迟、资源耗费以及功耗是片上网络重要的性能指标。
NOC is a kind of flexible and scalable micro-network on chip, of which the main guild lines are network throughput, delay, resource consumption and power consumption.
片上网络拓扑结构是目前的一个研究热点,是研究其它片上网络问题的基础,对网络的性能、通信可靠性、硬件实现代价和复杂度都有重大影响。
NoC topology is currently a research focus. NoC topology has a significant impact on network performance, communication reliability, cost and complexity of hardware implementation.
片上网络拓扑结构是目前的一个研究热点,是研究其它片上网络问题的基础,对网络的性能、通信可靠性、硬件实现代价和复杂度都有重大影响。
NoC topology is currently a research focus. NoC topology has a significant impact on network performance, communication reliability, cost and complexity of hardware implementation.
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