A Fine-Grained Runtime Power/Performance Optimization Method for Processors with Adaptive Pipeline Depth

Nakamura

et al. 2013

IJNC

Increased energy consumption in processors caused by performance enhancement has recently become a critical problem. Many current processors employ dynamic voltage and frequency scaling (DVFS) which dynamically lowers the supply voltage and clock frequency in order to reduce energy consumption. However, it is difficult to deliver fine-grain energy optimization by using DVFS. Since a voltage regulator takes a long time for scaling the voltage and charging/discharging a power line has a large energy overhead, the useful interval of DVFS is limited to coarse-grain. To optimize energy consumption at fine-grain interval, we have proposed a variable stages pipeline (VSP) processor. VSP reduces energy consumption by dynamically varying the pipeline depth to suitable pipeline depth according to behavior of a running program. VSP can obtain finer-grained energy reduction than DVFS because pipeline scaling only requires a small overhead. In this paper, we fabricated a VSP processor chip using 180 nm technology and evaluated energy consumption of the chip. We present that the fabricated VSP chip dynamically varies the pipeline depth while a program is running and reduces the energy consumption at shorter interval than DVFS. We also analyze how to optimize the energy consumption according to system demand. Our analysis result shows that the VSP can adjust the energy consumption in the same manner for diverse program phases.

“…To achieve the requirements, Shimada, et.al. propose PSU [8][9][10][11], Koppanalil,et.al. propose DPS [12] and we propose VSP [4][5][6][7].…”

Section: Variable Stages Pipelinementioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Energy Optimization using Fine-Grain Variable Stages Pipeline Processor Chip

Nakamura

et al. 2013

IJNC

“…2 Variable stages pipeline processor VSP technique is similar to pipeline stage unification (PSU) [5][6][7][8][9] and dynamic pipeline scaling (DPS) [10] but is more energy efficient. The basic idea common to PSU, DPS and VSP is shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Design and evaluation of fine‐grain‐mode transition method based on dynamic memory access analysing for variable stages pipeline processor

IET Computers & Digital Techniques

Nomura

et al. 2013

This study proposes a fine-grain-mode transition method for variable stages pipeline (VSP) processor. The method is based on dynamic memory access analysing and it reduces energy consumption. A VSP processor varies the pipeline depth dynamically according to workload. When the workload is heavy, the processor shifts into a high-speed mode that drives a deep pipeline at a high clock frequency. When the workload is light, the processor shifts into a low-energy mode that unifies pipeline stages to make the pipeline shallower and drives it at a low clock frequency. The conventional mode transition method cannot follow sharp workload changes because it takes a long time to predict workload. The fine-grain pipeline depth control, this study proposes, is based on a high-speed workload prediction mechanism using memory access frequency, and it uses a novel method to conceal the overhead because of changing the pipeline depth. Simulation results show that the authors approach can reduce the energy-delay product 10% below what it would be with the conventional approach.

Measurement of Low-Energy Processor Chip Using Fine-Grain Variable Stages Pipeline Architecture

2012 Third International Conference on Networking and Computing

Ohno

et al. 2012

Increase of energy consumption caused by processor enhancement has recently become a serious problem. Dynamic voltage and frequency scaling (DVFS) which dynamically lowers the supply voltage and clock frequency is widely used to reduce energy consumption. However, it is difficult to deliver fine-grain energy optimization by using DVFS because a voltage regulator takes a long time for scaling the voltage. To reduce energy consumption at fine-grain interval, we propose a variable stages pipeline (VSP) processor. VSP reduces energy consumption by dynamically varying the pipeline depth to suitable pipeline depth according to behavior of a running program. VSP can optimize energy at finer-grain than DVFS because pipeline scaling has a small overhead. In this paper, we fabricated a VSP processor chip using 180 nm technology and evaluated energy consumption of the chip. We present that the fabricated VSP chip dynamically varies the pipeline depth while a program is running and reduces the energy consumption at shorter interval than DVFS.Index Terms-Energy optimization, VLSI design, Low-energy processor architecture, Variable-depth pipeline.