• Title/Summary/Keyword: Memory Saving

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Improving Energy Efficiency and Lifetime of Phase Change Memory using Delta Value Indicator

  • Choi, Ju Hee;Kwak, Jong Wook
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.16 no.3
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    • pp.330-338
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    • 2016
  • Phase change memory (PCM) has been studied as an emerging memory technology for last-level cache (LLC) due to its extremely low leakage. However, it consumes high levels of energy in updating cells and its write endurance is limited. To relieve the write pressure of LLC, we propose a delta value indicator (DVI) by employing a small cache which stores the difference between the value currently stored and the value newly loaded. Since the write energy consumption of the small cache is less than the LLC, the energy consumption is reduced by access to the small cache instead of the LLC. In addition, the lifetime of the LLC is further extended because the number of write accesses to the LLC is decreased. To this end, a delta value indicator and controlling circuits are inserted into the LLC. The simulation results show a 26.8% saving of dynamic energy consumption and a 31.7% lifetime extension compared to a state-of-the-art scheme for PCM.

Memory-saving Real-time Collaborative Editing System using Valid-Time Operational Transformation (유효시간 운영변환을 이용한 메모리 절약형 실시간 협업 편집 시스템)

  • Kwon, Oh-Seok;Kim, Young-Bong;Kwon, Oh-Jun;Lee, Suk-Hwan;Kwon, Ki-Ryong
    • Journal of Korea Multimedia Society
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    • v.21 no.2
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    • pp.232-241
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    • 2018
  • Operational Transformation (OT) algorithms for real-time collaborative editing systems are becoming increasingly important due to the increased demand for collaborative data processing. The operational transformation algorithm is a technique for real-time concurrency control and consistency maintenance with non-locking technique, and many studies have been conducted to overcome three issues of convergence, causality-prevention, and intention-prevention. However, previous work has the disadvantage of wasting memory by storing all operations that occurred during an edit operation in the history buffer to solve this problem. Therefore, we propose a memory-saving real-time collaborative editing system that maintains a constant memory space and concurrency control through a method of applying the valid-time to each user-generated operation in order to reduce memory waste. This system prevents long-term memory occupation of client-generated operations, thus it reduces the space and time complexity even with low-rate of collaboration work, so that the performance degradation avoids.

Dynamic Voltage and Frequency Scaling based on Buffer Memory Access Information (버퍼 메모리 접근 정보를 활용한 동적 전압 주파수 변환 기법)

  • Kwak, Jong-Wook;Kim, Ju-Hwan
    • Journal of the Korea Society of Computer and Information
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    • v.15 no.3
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    • pp.1-10
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    • 2010
  • As processor platforms are continuously moving toward wireless mobile systems, embedded mobile processors are expected to perform more and more powerful, and therefore the development of an efficient power management algorithm for these battery-operated mobile and handheld systems has become a critical challenge. It is well known that a memory system is a main performance limiter in the processor point of view. Although many DVFS studies have been considered for the efficient utilization of limited battery resources, recent works do not explicitly show the interaction between the processor and the memory. In this research, to properly reflect short/long-term memory access patterns of the embedded workloads in wireless mobile processors, we propose a memory buffer utilization as a new index of DVFS level prediction. The simulation results show that our solution provides 5.86% energy saving compared to the existing DVFS policy in case of memory intensive applications, and it provides 3.60% energy saving on average.

Design of Efficient Memory Architecture for Coeff_Token Encoding in H.264/AVC Video Coding Standard (H.264/AVC 동영상 압축 표준에서 Coeff_token 부호화를 위한 효율적임 메모리 구조 설계)

  • Moon, Yong Ho;Park, Kyoung Choon;Ha, Seok Wun
    • IEMEK Journal of Embedded Systems and Applications
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    • v.5 no.2
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    • pp.77-83
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    • 2010
  • In this paper, we propose an efficient memory architecture for coeff_token encoding in H.264/AVC standard. The VLCTs used to encode the coeff_token syntax element are implemented with the memory. In general, the size of memory must be reduced because it affects the cost and operation speed of the system. Based on the analysis for the codewords in VLCTs, new memory architecture is designed in this paper. The proposed memory architecture results in about 24% memory saving, compared to the conventional memory architecture.

Energy-Efficient Last-Level Cache Management for PCM Memory Systems

  • Bahn, Hyokyung
    • International Journal of Internet, Broadcasting and Communication
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    • v.14 no.1
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    • pp.188-193
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    • 2022
  • The energy efficiency of memory systems is an important task in designing future computer systems as memory capacity continues to increase to accommodate the growing big data. In this article, we present an energy-efficient last-level cache management policy for future mobile systems. The proposed policy makes use of low-power PCM (phase-change memory) as the main memory medium, and reduces the amount of data written to PCM, thereby saving memory energy consumptions. To do so, the policy keeps track of the modified cache lines within each cache block, and replaces the last-level cache block that incurs the smallest PCM writing upon cache replacement requests. Also, the policy considers the access bit of cache blocks along with the cache line modifications in order not to degrade the cache hit ratio. Simulation experiments using SPEC benchmarks show that the proposed policy reduces the power consumption of PCM memory by 22.7% on average without degrading performances.

Optimization Techniques for Power-Saving in Real-Time IoT Systems using Fast Storage Media (고속 스토리지를 이용한 실시간 IoT 시스템의 전력 절감 최적화 기술)

  • Yoon, Suji;Park, Heejin;Cho, Kyungwoon;Bahn, Hyokyung
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.21 no.6
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    • pp.71-76
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    • 2021
  • Recently, as the size of IoT data grows, the memory power consumption of real-time systems increases rapidly. This is because real-time systems always place entire tasks in memory, which increases the demand of DRAM significantly. In this paper, we adopt emerging fast storage media and move a certain portion of real-time tasks from DRAM to storage. The part of tasks in storage are, then, loaded into memory when they are actually used. We incorporate our memory/storage power-saving into the dynamic voltage/frequency scaling of processors, thereby optimizing power consumptions in CPU and memory simultaneously. Specifically, the proposed technique aims at minimizing the CPU idle time and the DRAM memory size by determining appropriate voltage modes of CPU and the swap ratio of memory, without violating the deadlines of all tasks. Through simulation experiments, we show that the proposed technique significantly reduces the power consumption of real-time systems.

Memory-Efficient Belief Propagation for Stereo Matching on GPU (GPU 에서의 고속 스테레오 정합을 위한 메모리 효율적인 Belief Propagation)

  • Choi, Young-Kyu;Williem, Williem;Park, In Kyu
    • Proceedings of the Korean Society of Broadcast Engineers Conference
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    • 2012.11a
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    • pp.52-53
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    • 2012
  • Belief propagation (BP) is a commonly used global energy minimization algorithm for solving stereo matching problem in 3D reconstruction. However, it requires large memory bandwidth and data size. In this paper, we propose a novel memory-efficient algorithm of BP in stereo matching on the Graphics Processing Units (GPU). The data size and transfer bandwidth are significantly reduced by storing only a part of the whole message. In order to maintain the accuracy of the matching result, the local messages are reconstructed using shared memory available in GPU. Experimental result shows that there is almost an order of reduction in the global memory consumption, and 21 to 46% saving in memory bandwidth when compared to the conventional algorithm. The implementation result on a recent GPU shows that we can obtain 22.8 times speedup in execution time compared to the execution on CPU.

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Effect of labor saving by crawler-type truck in steep slope orchards

  • Tsurusaki, T.;Yamashita, J.;Imoto, T.;Satou, K.;Hikita, M.
    • 제어로봇시스템학회:학술대회논문집
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    • 1991.10b
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    • pp.1580-1584
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    • 1991
  • The purpose of the present study is to investigate, from the viewpoint of labor science, the effect of labor saving by crawler-type truck, which has been used for the rationalization of transportation labor in the citrus orchard on steep slops, and to find out how effectively to utilize the crawler-type truck. In order to attain the purpose mentioned above, portable heart rate memory for measuring physical response of laborer was taken, and the experiment was carried out in the citrus orchard on steep slopes in Japan.

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Real-Time Power-Saving Scheduling Based on Genetic Algorithms in Multi-core Hybrid Memory Environments (멀티코어 이기종메모리 환경에서의 유전 알고리즘 기반 실시간 전력 절감 스케줄링)

  • Yoo, Suhyeon;Jo, Yewon;Cho, Kyung-Woon;Bahn, Hyokyung
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.20 no.1
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    • pp.135-140
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    • 2020
  • Recently, due to the rapid diffusion of intelligent systems and IoT technologies, power saving techniques in real-time embedded systems has become important. In this paper, we propose P-GA (Parallel Genetic Algorithm), a scheduling algorithm aims at reducing the power consumption of real-time systems in multi-core hybrid memory environments. P-GA improves the Proportional-Fairness (PF) algorithm devised for multi-core environments by combining the dynamic voltage/frequency scaling of the processor with the nonvolatile memory technologies. Specifically, P-GA applies genetic algorithms for optimizing the voltage and frequency modes of processors and the memory types, thereby minimizing the power consumptions of the task set. Simulation experiments show that the power consumption of P-GA is reduced by 2.85 times compared to the conventional schemes.

A Walsh-Based Distributed Associative Memory with Genetic Algorithm Maximization of Storage Capacity for Face Recognition

  • Kim, Kyung-A;Oh, Se-Young
    • Proceedings of the Korean Institute of Intelligent Systems Conference
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    • 2003.09a
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    • pp.640-643
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    • 2003
  • A Walsh function based associative memory is capable of storing m patterns in a single pattern storage space with Walsh encoding of each pattern. Furthermore, each stored pattern can be matched against the stored patterns extremely fast using algorithmic parallel processing. As such, this special type of memory is ideal for real-time processing of large scale information. However this incredible efficiency generates large amount of crosstalk between stored patterns that incurs mis-recognition. This crosstalk is a function of the set of different sequencies [number of zero crossings] of the Walsh function associated with each pattern to be stored. This sequency set is thus optimized in this paper to minimize mis-recognition, as well as to maximize memory saying. In this paper, this Walsh memory has been applied to the problem of face recognition, where PCA is applied to dimensionality reduction. The maximum Walsh spectral component and genetic algorithm (GA) are applied to determine the optimal Walsh function set to be associated with the data to be stored. The experimental results indicate that the proposed methods provide a novel and robust technology to achieve an error-free, real-time, and memory-saving recognition of large scale patterns.

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