Impact of Dynamic Scheduling for Dual Core Architecture Using VHDL

2016 International Conference on Platform Technology and Service (PlatCon) Pub Date : 2016-02-01 DOI:10.1109/PLATCON.2016.7456801

J. Arul, Han-Yao Ko

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Abstract

Recently, computer industry has switched to multi- core rather than single core processors. Most high-performance design also have cores with speculative dynamic instruction scheduling done in hardware, which will try to eliminate all the data and control hazards. The main purpose of this technique is to increase the average number of instructions executed per clock cycle. By using such a dynamic scheduling approach, it is also possible to know how much ILP can be achieved in a single core or dual-core architecture. By adding dynamic scheduling to this simple architecture, most of the benchmarks had about 30% improvement in its cycle count using modelsim simulator provided by Altera corp. When dual core architecture was used with the dynamic scheduling, there was about 60% improvement in the cycle count. Finally, it can be noted that the increase in the hardware was about twice, but the overall improvement was about 60% only. In the future, it would be interesting to compare this hardware scheduling to software scheduling. If all these things can be achieved in software scheduling, it would be of less important with modern multi-core architectures to accomplish this improvement by hardware.

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VHDL对双核体系结构动态调度的影响

最近，计算机工业已经转向多核处理器而不是单核处理器。大多数高性能设计还具有在硬件中完成推测动态指令调度的核心，这将试图消除所有数据和控制危害。这种技术的主要目的是增加每个时钟周期执行的指令的平均数量。通过使用这种动态调度方法，还可以知道在单核或双核架构中可以实现多少ILP。通过在这个简单的体系结构中添加动态调度，使用Altera公司提供的modelsim模拟器，大多数基准测试的周期数提高了30%左右。当双核体系结构与动态调度一起使用时，周期数提高了60%左右。最后，可以注意到硬件增加了大约两倍，但总体改进仅为60%左右。将来，将这种硬件调度与软件调度进行比较将是一件有趣的事情。如果所有这些都可以在软件调度中实现，那么在现代多核架构中，通过硬件来完成这些改进就不那么重要了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 International Conference on Platform Technology and Service (PlatCon)

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