异构mpsoc的可调软件缓存一致性协议

Frank E. B. Ophelders, M. Bekooij, H. Corporaal
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引用次数: 7

摘要

在多处理器片上系统(MPSoC)中,私有缓存引入了缓存一致性问题。在这里,我们的目标是具有片上网络(NoC)的异构mpsoc。现有的硬件缓存一致性协议不太适合mpsoc,因为mpsoc中使用的许多现成处理器不支持这些协议。此外,这些协议通常依赖于全局可见性和写的序列化,这与NoC提供的并行点对点通信不太匹配。因此,我们提出了一种软件缓存一致性协议,该协议可以应用于具有NoC的异构MPSoC。软件缓存一致性协议依赖于软件中的显式同步。更具体地说,根据Release Consistency模型,缓存保证是一致的,在Release Consistency模型的基础上,我们实现了标准Pthreads通信库。异构mpsoc与现成的处理器可以很容易地得到支持,因为处理器只需要提供缓存控制操作,例如,清理和无效。所有缓存一致性操作都是可中断的,不会影响其他处理器上任务的执行,因此该协议适用于可预测的mpsoc。我们的软件缓存一致性协议在ARM926EJ-S MPSoC上实现,该MPSoC映射到FPGA上。从实验中我们得出结论,对于使用SPLASH-2基准集的应用程序来说,协议开销很低。对于这些应用程序,我们观察到两个处理器MPSoC的加速在1.89和2.01之间。
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A tuneable software cache coherence protocol for heterogeneous MPSoCs
In a multiprocessor system-on-chip (MPSoC) private caches introduce the cache coherence problem. Here, we target at heterogeneous MPSoCs with a network-on-chip (NoC). Existing hardware cache coherence protocols are less suitable for MPSoCs because many off-the-shelf processors used in MPSoCs do not support these protocols. Furthermore, these protocols typically rely on global visibility and serialization of writes which does not match well with the parallel point-to-point communication provided by a NoC. Therefore, we propose a software cache coherence protocol, which can be applied in a heterogeneous MPSoC with a NoC. The software cache coherence protocol relies on explicit synchronization in the software. More specifically, caches are guaranteed to be coherent according to the Release Consistency model, on top of which we have implemented the standard Pthreads communication library. Heterogeneous MPSoCs with off-the-shelf processors can easily be supported, because processors are only required to provide cache control operations, e.g., clean and invalidate. All cache coherence operations are interruptible and do not impact the execution of tasks on other processors, therefore this protocol is suitable for predictable MPSoCs. Our software cache coherence protocol is implemented on an ARM926EJ-S MPSoC which is mapped on an FPGA. From experiments we conclude that the protocol overhead is low for the applications taken from the SPLASH-2 benchmark set. For these applications we observed a speedup between 1.89 and 2.01 on the two processor MPSoC.
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