Control System for Energy Efficient Data Centers Ozlem Bilgir.

Slides:

Advertisements

Similar presentations

Exploring the Potential of CMP Core Count Management on Data Center Energy Savings Ozlem Bilgir * Margaret Martonosi * Qiang Wu * Princeton University.

Advertisements

Feedback Control Real-Time Scheduling: Framework, Modeling, and Algorithms Chenyang Lu, John A. Stankovic, Gang Tao, Sang H. Son Presented by Josh Carl.

Tuning of Model Predictive Controllers Using Fuzzy Logic Emad Ali King Saud University Saudi Arabia.

Cost-Based Cache Replacement and Server Selection for Multimedia Proxy Across Wireless Internet Qian Zhang Zhe Xiang Wenwu Zhu Lixin Gao IEEE Transactions.

Thread Criticality Predictors for Dynamic Performance, Power, and Resource Management in Chip Multiprocessors Abhishek Bhattacharjee Margaret Martonosi.

1 MemScale: Active Low-Power Modes for Main Memory Qingyuan Deng, David Meisner*, Luiz Ramos, Thomas F. Wenisch*, and Ricardo Bianchini Rutgers University.

Increasing the Cache Efficiency by Eliminating Noise Philip A. Marshall.

Cost Tradeoff of Consistency Over Data Centers Ozlem Bilgir.

GREEN DATA CENTERS : LOAD BALANCING AND ENERGY MANAGEMENT OZLEM BILGIR.

A Layered Hybrid ARQ Scheme for Scalable Video Multicast over Wireless Networks Zhengye Liu, Joint work with Zhenyu Wu.

Adaptive Sampling for Sensor Networks Ankur Jain ٭ and Edward Y. Chang University of California, Santa Barbara DMSN 2004.

AQM for Congestion Control1 A Study of Active Queue Management for Congestion Control Victor Firoiu Marty Borden.

A Hybrid Approach of Failed Disk Recovery Using RAID-6 Codes: Algorithms and Performance Evaluation Yinlong Xu University of Science and Technology of.

Power Analysis of WEP Encryption Jack Kang Benjamin Lee CS252 Final Project Fall 2003.

VCR-oriented Video Broadcasting for Near Video-On- Demand Services Jin B. Kwon and Heon Y. Yeon Appears in IEEE Transactions on Consumer Electronics, vol.

A Survey of proxy Cache Evaluation Techniques 系統實驗室田坤銘

12006/9/26 Load Balancing in Dynamic Structured P2P Systems Brighten Godfrey, Karthik Lakshminarayanan, Sonesh Surana, Richard Karp, Ion Stoica INFOCOM.

1 Efficient Management of Data Center Resources for Massively Multiplayer Online Games V. Nae, A. Iosup, S. Podlipnig, R. Prodan, D. Epema, T. Fahringer,

Selective Sampling on Probabilistic Labels Peng Peng, Raymond Chi-Wing Wong CSE, HKUST 1.

Using Standard Industry Benchmarks Chapter 7 CSE807.

ElasticTree: Saving Energy in Data Center Networks 許倫愷 2013/5/28.

CS An Overlay Routing Scheme For Moving Large Files Su Zhang Kai Xu.

OPTIMAL SERVER PROVISIONING AND FREQUENCY ADJUSTMENT IN SERVER CLUSTERS Presented by: Xinying Zheng 09/13/ XINYING ZHENG, YU CAI MICHIGAN TECHNOLOGICAL.

ParaScale : Exploiting Parametric Timing Analysis for Real-Time Schedulers and Dynamic Voltage Scaling Sibin Mohan 1 Frank Mueller 1,William Hawkins 2,

Multi Core Processor Submitted by: Lizolen Pradhan

Stochastic sleep scheduling (SSS) for large scale wireless sensor networks Yaxiong Zhao Jie Wu Computer and Information Sciences Temple University.

GZ06 : Mobile and Adaptive Systems A Secure On-Demand Routing Protocol for Ad Hoc Networks Allan HUNT Wandao PUNYAPORN Yong CHENG Tingting OUYANG.

UNIVERSITY OF SOUTHERN CALIFORNIA 1 ELECTION: Energy-efficient and Low- latEncy sCheduling Technique for wIreless sensOr Networks S. Begum, S. Wang, B.

1 On the Placement of Web Server Replicas Lili Qiu, Microsoft Research Venkata N. Padmanabhan, Microsoft Research Geoffrey M. Voelker, UCSD IEEE INFOCOM’2001,

1 Server-level Power Control Ming Chen. 2 Motivations(1) Clusters of hundreds, even thousands of servers; Occupy one room of a building or even a whole.

Thread Criticality Predictors for Dynamic Performance, Power, and Resource Management in Chip Multiprocessors Abhishek Bhattacharjee and Margaret Martonosi.

Budget-based Control for Interactive Services with Partial Execution 1 Yuxiong He, Zihao Ye, Qiang Fu, Sameh Elnikety Microsoft Research.

INTERACTIVE ANALYSIS OF COMPUTER CRIMES PRESENTED FOR CS-689 ON 10/12/2000 BY NAGAKALYANA ESKALA.

Adaptive Data Aggregation for Wireless Sensor Networks S. Jagannathan Rutledge-Emerson Distinguished Professor Department of Electrical and Computer Engineering.

An Energy-Efficient Hypervisor Scheduler for Asymmetric Multi- core 1 Ching-Chi Lin Institute of Information Science, Academia Sinica Department of Computer.

Lei Tang∗ Yanjun Sun† Omer Gurewitz‡ David B. Johnson∗

1 On the Placement of Web Server Replicas Lili Qiu, Microsoft Research Venkata N. Padmanabhan, Microsoft Research Geoffrey M. Voelker, UCSD IEEE INFOCOM’2001,

Advanced Spectrum Management in Multicell OFDMA Networks enabling Cognitive Radio Usage F. Bernardo, J. Pérez-Romero, O. Sallent, R. Agustí Radio Communications.

“Capping the Brown Energy Consumption of Internet Services at Low Cost” by K. Le, R. Bianchini, T. D. Nguyen, O. Bilgir, and M. Martonosi – An Algorithmic.

OPERETTA: An Optimal Energy Efficient Bandwidth Aggregation System Karim Habak†, Khaled A. Harras‡, and Moustafa Youssef† †Egypt-Japan University of Sc.

Michael J. Neely, University of Southern California CISS, Princeton University, March 2012 Asynchronous Scheduling for.

Towards Dynamic Green-Sizing for Database Servers Mustafa Korkmaz, Alexey Karyakin, Martin Karsten, Kenneth Salem University of Waterloo.

Efficient AOI-Cast for Peer-to-Peer Networked Virtual Environments.

1 CMP-MSI.07 CARES/SNU A Reusability-Aware Cache Memory Sharing Technique for High Performance CMPs with Private Caches Sungjune Youn, Hyunhee Kim and.

Frankfurt (Germany), 6-9 June 2011 Marcus R. Carvalho – Brazil – RIF Session 5 – Paper ID 0728 LONG TERM PLANNING BASED ON THE PREDICTION AND ANALYSIS.

Utilization Based Duty Cycle Tuning MAC Protocol for Wireless Sensor Networks Shih-Hsien Yang, Hung-Wei Tseng, Eric Hsiao-Kuang Wu, and Gen-Huey Chen Computer.

Outline Introduction Bluetooth Low Energy (BLE)

1 A Cross-Layer Scheduling Algorithm With QoS Support in Wireless Networks Qingwen Liu, Student Member, IEEE, Xin Wang, Member, IEEE, and Georgios B. Giannakis,

An Energy-Efficient Approach for Real-Time Tracking of Moving Objects in Multi-Level Sensor Networks Vincent S. Tseng, Eric H. C. Lu, & Kawuu W. Lin Institute.

Dynamic Bandwidth Reservation in Cellular Networks Using Road Topology Based Mobility Predictions InfoCom 2004 Speaker : Bo-Chun Wang

Developing Predictive Border Crossing Delay Models Lei Lin, Ph.D. Qian Wang, Ph.D. Adel W. Sadek, Ph.D. First Annual Transportation Informatics Symposium.

Efficient Geographic Routing in Multihop Wireless Networks Seungjoon Lee*, Bobby Bhattacharjee*, and Suman Banerjee** *Department of Computer Science University.

Best detection scheme achieves 100% hit detection with

Accurate WiFi Packet Delivery Rate Estimation and Applications Owais Khan and Lili Qiu. The University of Texas at Austin 1 Infocom 2016, San Francisco.

1 Decentralized Adaptive Voltage Control with Distributed Energy Resources Presenter: Huijuan Li.

SizeCap: Efficiently Handling Power Surges for Fuel Cell Powered Data Centers Yang Li, Di Wang, Saugata Ghose, Jie Liu, Sriram Govindan, Sean James, Eric.

Web Servers load balancing with adjusted health-check time slot.

DASH2M: Exploring HTTP/2 for Internet Streaming to Mobile Devices

Abhinav Kamra, Vishal Misra CS Department Columbia University

Cognitive Link Layer for Wireless Local Area Networks

Video Multicast over the Internet (IEEE Network, March/April 1999)

Managing Online Services

Vlad Nae, Radu Prodan, Thomas Fahringer Institute of Computer Science

Find your friend – An Android application

TimeTrader: Exploiting Latency Tail to Save Datacenter Energy for Online Search Balajee Vamanan, Hamza Bin Sohail, Jahangir Hasan, and T. N. Vijaykumar.

Presentation by Andrew Keating for CS577 Fall 2009

Qingbo Zhu, Asim Shankar and Yuanyuan Zhou

Pramod Bhatotia, Ruichuan Chen, Myungjin Lee

ADVISOR : Professor Yeong-Sung Lin STUDENT : Hung-Shi Wang

August 8, 2006 Danny Budik, Itamar Elhanany Machine Intelligence Lab

Presentation transcript:

Control System for Energy Efficient Data Centers Ozlem Bilgir

Outline Motivation System Design Simulation Results Conclusion & Future Work

Motivation Take advantage from energy cost differences at different geographical regions Different server architectures Different cooling schemes Adaptive control methodologies …..

Motivation (cont.) If we know the request rate, we can adjust processing rate and/or number of servers in order to achieve desired performance & energy dissipation Ex. Desired avg. latency =0.5 s Predicted load rate = 8 req/s Processing rate = 10 req/s Obtained latency = 0.5 s

Motivation (cont.) Nothing is perfect.. – Prediction errors !!! time Load rate Predicted Load rate Actual Load rate

System Design What if we have an adaptive control system 1 q(t+Δt) –q(t) =(λ(t)- μ(t)) x Δt 1. Q. Wu, P. Juang, M. Martonosi, and D. W. Clark, "Formal Online Methods for Voltage/Frequency Control in Multiple Clock Domain Microprocessors“, 2004

System Design(cont.)

Kp’ = 0.6 Ki’ = 0.2

Results Load Rate time -Load rate -Proc. rate

Motivation (cont.) If we know the request rate, we can adjust processing rate and/or server number in order to achieve desired performance & energy dissipation Ex. Desired avg. latency =0.5 s Predicted load rate = 8 req/s Processing rate = 10 req/s Obtained latency = 0.5 s

Results Load Rate time -Load rate -Proc. rate

Effect of Q-REF λλ latency Latency is not bounded!! It is not under our control!! Q-ref latency

2-Loop System Design w desired

2-Loop System Design(cont.) Kp’ = Ki’ = 0.241

Results lambda Energy vs Lambda lambda

Conclusion & Future Work Energy consumption can be reduced by using an adaptive control system Latency can be fixed to a some level Multi-server case Real system design

THANK YOU FOR LISTENING