On Grid Performance Evaluation using Synthetic Workloads

On Grid Performance Evaluation using Synthetic Workloads Carsten Franke, Alexander Papaspyrou, Lars Schley, Baiyi Song, and Ramin Yahyapour Alexandru Iosup, Dick Epema PDS Group, ST/EWI, TU Delft UniDo JSSPP 2006

Outline • A Brief Introduction to Grid Computing • On Grid Performance Evaluation • Experimental Environments • Performance Indicators • General Workload Modeling • Grid-Specific Workload Modeling • The GrenchMark Framework • Future Work • Conclusions

A Brief Introduction to Grid Computing • Typical grid environment • Applications [!] • Unitary, composite • Data • Resources • Compute (Clusters) • Storage • (Dedicated) Network • Virtual Organizations, Projects • Groups, Users • Grids vs. parallel production environments • Dynamic • Heterogeneous • Very large-scale (world) • No central administration →Most resource management problems are NP-hard

Experimental Environments Real-World Testbeds • Real-World Testbed • DAS, NorduGrid, Grid3/OSG, Grid’5000… • Pros • True performance, also shows “it works!” • Infrastructure in place • Cons • Time-intensive • Exclusive access (repeatability) • Controlled environment problem (limited scenarios) • Workload structure (little or no realistic data) • What to measure (new environment)

Experimental Environments Simulated and Emulated Testbeds • Simulated and Emulated Testbeds • GridSim, SimGrid, GangSim, MicroGrid … • Essentially trade-off precision vs. speed • Pros • Exclusive access (repeatability) • Controlled environment (unlimited scenarios) • Cons • Synthetic Grids: What to generate? How to generate? Clusters, Disks, Network, VOs, Groups, Users, Applications, etc. • Workload structure (little or no realistic data) • What to measure (new environment) • Validity of results (accuracy vs. time)

Grid Performance Evaluation Current Practice • Performance Indicators • Define my own metrics, or use U and AWT/ART, or both • Workload Structure • Run my own workload, or use traces that are not validated by peer researchers; do not make comparisons! • Run benchmarks from typical parallel production environments • Mostly all users are created equal assumption Need a common performance evaluation framework for Grid

Grid Performance Evaluation Current Issues • Performance Indicators • What should be the metrics for the new environment? • Workload Structure • Which general aspects could be important? • Which Grid-specific aspects need to be addressed? Need a common performance evaluation framework for Grid

Performance Indicators • Time-, Resource-, and System-Related Metrics • Traditional: utilization, A(W)RT, A(W)WT, A(W)SD • New: waste, fairness (or service quality reliability) • Workload Completion and Failure Metrics “ In Grids, functionality may be even more importantthan performance ” • Workload Completion (WC) • Task and Enabled Task Completion (TC, ETC) • System Failure Factor (SFF)

General Aspects for Workload Modeling • User/Group/VO model • Detailed modeling for top-5/10 users, then clustering (Use squash area to group) • Submission patterns • Yearly, monthly, weekly, daily • Do daily patterns exist? (Are Grids truly global?) • Temporal patterns • Repeated submission (batches of jobs) • Job dependencies (composite applications common in Grid(?)) • Feedback • Empiric rules (don’t submit jobs when system busy). But, reactive submission tools, co-allocators, evolving applications, etc.

Grid-Specific Workload ModelingComputation Management • Processor co-allocation • Fixed, non-fixed, semi-fixed jobs • Job flexibility and composition • Moldable, evolvable, flexible, etc. • Batches, workflows, other dependecies • Other aspects • Background load: define top jobs (by consumption), model the rest as background load • Project stage

Grid-Specific Workload ModelingData and Network Management • Clearly Defined I/O Requirements • Files, streams, others • Data location and size • Replicas • Replica location • Other aspects • HDD occupancy • Clearly Defined Network Requirements • Bandwidth, latency • Communication pattern • Special Situations • Dedicated paths, other QoS • Other aspects • Background load

Grid-Specific Workload ModelingLocality/Origin Management • Job issuer and execution site Not all VOs are created equal ! • Two-level view: Which VO generates the next job? Within a VO, which user generates the next job? • Three-level view, Multi-level view (Project, VO, Group, User) • (Usage) Service Level Agreements • Use my system 50% for 7 days, or 20% for 30 days • Dedicated paths, other QoS • Other aspects • Background load pertaining to same (u)SLA

Grid-Specific Workload ModelingFailure Modeling • Error level • Infrastructure • Middleware • Application • User • Fault tolerance scheme for submitted jobs • Catch the system feedback into the model • Other aspects • Cascading errors

Grid-Specific Workload ModelingEconomic Models • Utility • Resource utility • Application utility • Pricing policies • Time-dependent pricing: pay cheaper on off-peak hours • Load-dependent pricing: pay cheaper for unused resources • Package pricing: pay cheaper for bundles of resources • Trust-building pricing: pay cheaper as old users • Other aspects • Available information • Penalty / user satisfaction

GrenchMark: a Framework for Analyzing, Testing, and Comparing grids • What’s in a name?grid benchmark→ working towards a generic tool for the whole community: help standardizing the testing procedures, but benchmarks are too early; we use synthetic grid workloads instead • What’s it about?A systematic approach to analyzing, testing, and comparing grid settings, based on synthetic workloads • A set of metrics for analyzing grid settings • A set of representative grid applications • Both real and synthetic • Easy-to-use tools to create synthetic grid workloads • Flexible, extensible framework

GrenchMark Overview: Easy to Generate and Run Synthetic Workloads

Workload structure User-defined and statistical models Dynamic jobs arrival Burstiness and self-similarity Feedback, background load Machine usage assumptions Users, VOs Metrics A(W) Run/Wait/Resp. Time Efficiency, MakeSpan Failure rate [!] (Grid) notions Co-allocation, interactive jobs, malleable, moldable, … Measurement methods Long workloads Saturated / non-saturated system Start-up, production, and cool-down scenarios Scaling workload to system Applications Synthetic Real Workload definition language Base language layer Extended language layer Other Can use thesame workload for both simulations and real environments … but More Complicated Than You Think GrenchMark may become a vehicle for proving (performance indicators, workload modeling) research in dynamic, heterogeneous, very large-scale environments

GrenchMark: Iterative Research Roadmap

GrenchMark: Iterative Research Roadmap Simple functional system A.Iosup, J.Maassen, R.V.van Nieuwpoort, D.H.J.Epema, Synthetic Grid Workloads with Ibis, KOALA, and GrenchMark, CoreGRID IW, Nov 2005.

GrenchMark: Iterative Research Roadmap Open- GrenchMark CommunityEffort This work Complex extensible system A.Iosup, D.H.J.Epema, GrenchMark: A Framework for Analyzing, Testing, and Comparing Grids, IEEE CCGrid'06, May 2006.

Take home message • Performance Evaluation of Grid Systems - need a common performance evaluation framework for grids- need real grid traces (scheduling, accounting, monitoring, etc.)- need more research on workload modeling and performance indicators • Performance indicators - failure metrics as important as traditional performance metrics • Workload modeling - generic workload modeling needs validation based on real grid traces- computation/data/network management- locality/origin management- failure modelingeconomic models • GrenchMark- generic tool for the whole community- generates diverse grid workloads- easy-to-use, flexible, portable, extensible, …

Thank you! Questions? Remarks? Observations? All welcome! GrenchMarkhttp://grenchmark.st.ewi.tudelft.nl/ http://grenchmark.st.ewi.tudelft.nl/

On Grid Performance Evaluation using Synthetic Workloads