一种高效节能的协同设计无序处理器

Abhishek Deb, J. M. Codina, Antonio González
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引用次数: 1

摘要

协同设计的处理器通过协同设计某些关键的性能支持因素,有助于降低复杂性和功耗。本文提出了一种基于FIFO的协同设计乱序处理器。添加多个fifo是为了以一种复杂性有效的方式动态调度微操作。我们提出了一种提交逻辑,它能够像超级块一样自动提交程序状态。这使我们能够完全摆脱重新排序缓冲区(ROB)。为了保持正确的程序状态,我们建议使用4 / 8个条目的超级块排序缓冲区(SOB)。我们还建议使用每个超级块的寄存器重命名表(SRRT)来保存与超级块相关的寄存器状态。我们提出的处理器功耗降低了6%,SPECFP的加速提高了12%,因此消耗的能量更少。此外,我们提出了一种增强的导向启发式和早期释放机制,以提高基于FIFO的乱序处理器的性能。对于四个FIFO和两个FIFO配置,我们分别获得了近25%和70%的性能改进。我们还表明,我们提出的基于转向启发式的处理器比之前提出的转向启发式处理器消耗的能量少10%。
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A Power-Efficient Co-designed Out-of-Order Processor
A co-designed processor helps in cutting down both the complexity and power consumption by co-designing certain key performance enablers. In this paper, we propose a FIFO based co-designed out-of-order processor. Multiple FIFOs are added in order to dynamically schedule, in a complexity-effective manner, the micro-ops. We propose a commit logic that is able to commit the program state as a superblock commits atomically. This enables us to get rid of the Reorder Buffer (ROB) entirely. Instead to maintain the correct program state, we propose a four/eight entry Superblock Ordering Buffer (SOB). We also propose the per superblock Register Rename Table (SRRT) that holds the register state pertaining to the superblock. Our proposed processor dissipates 6% less power and obtains 12% speedup for SPECFP, as a result, it consumes less energy. Furthermore, we propose an enhanced steering heuristic and an early release mechanism to increase the performance of a FIFO based out-of-order processor. We obtain performance improvement of nearly 25% and 70% for a four FIFO and for a two FIFO configurations, respectively. We also show that our proposed steering heuristic based processor consumes 10% less energy than the previously proposed steering heuristic.
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