Design of a dynamic depth high-throughput multi-clock FIFO for the DSPIN

机译：DSPIN动态深度高吞吐量多时钟FIFO的设计

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The clock distribution within Chip-Multiprocessors(CPMs) and System-on-chips (SoCs) come to be difficult as the number of processing elements increasing and the communication between those components are becoming even more critical. In recent years, researchers proposed Globally Synchronous Locally Synchronous (GALS) clocking scheme to reduce clock skew, power, and energy consumption in CPMs and SoCs. In this paper we have demonstrated dynamic depth multi-synchronous first-in first-out (FIFO) buffer which is useful for transferring data between two processing elements within a Distributed Scalable Predictable Interconnect Network(DSPIN).It also demonstrates dynamic calculation of FIFO depth using two clock frequency and packet size of in coming data.

机译：作为增加的处理元件的数量并且这些组件之间的通信变得更加关键，芯片多处理器（CPM）和系统上芯片（SOC）中的时钟分布变得困难。近年来，研究人员提出全球同步的局部同步（GAL）时钟方案，以减少CPMS和SOC中的时钟偏斜，功率和能耗。在本文中，我们已经展示了动态深度多同步的首先（FIFO）缓冲器，其可用于在分布式可扩展可预测互连网络（DSPIN）内的两个处理元件之间传输数据。它也表明了FIFO深度的动态计算使用即将到来的两个时钟频率和数据包大小。

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来源
《International Conference on Next Generation Computing Technologies》|2015年||共6页
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作者
Rajeev Kamal; Juan M. Moreno Arostegui;
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中图分类计算技术、计算机技术;
关键词
Asynchronous; DSPIN; FIFO; NOC; On-chip interconnection networks; Router microarchitecture;

机译：异步;DSPIN;FIFO;NOC;片上互连网络;路由器微体系结构;

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Design of a dynamic depth high-throughput multi-clock FIFO for the DSPIN

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