6d.1
Schedulers and Resource Brokers
Topics
ITCS 4146/5146, UNC-Charlotte, B. Wilkinson, 2007 Feb 12, 2007
• Local schedulers• Condor
6d.2
Scheduler
• Job manager submits jobs to scheduler.
• Scheduler assigns work to resources to achieve specified time requirements.
6d.3From "Introduction to Grid Computing with Globus," IBM Redbooks
Scheduling
6d.4
Executing GT 4 jobs
Globus has the modes.
• Interactive• Interactive-streaming• Batch
6d.5
GT 4 “Fork” Scheduler
• Attempts to execute the job immediately
• Provided for starting and controlling a job on a local host if job does not require any special software loaded or requirements.
6d.6
Batch scheduling
• Batch, a term from old computing days, when one submitted a pack of punched cards as the program to a computer and one would come back after the program had been run on the computer, maybe overnight.
6d.7
GRAMservices
GT4 Java ContainerGRAM
services Localscheduler
Userjob
Compute element
GRAMadapter
Local jobcontrolJob
functions
Relationship between GT4 GRAM and a Local Scheduler
I Foster
Client
Various possible
6d.8
globusrun-ws-Ff flag
• Selects scheduler.• Default: Fork for single jobs.• Other schedulers have to be added
separately, and supported by a GRAM “adapter.”
6d.9
Scheduler adapters included in GT 4
• PBS (Portable Batch System)• Condor• LSF (Load Sharing Facility)
Third party adapter provided for:• SGE (Sun Grid Engine)
6d.10
globusrun-ws-Ff flag
Examples
globusrun-ws -Ft Condor on coit-grid02-4
globusrun-ws -Ft SGE coit-grid01 & toralds.cis.uncw.edu
6d.11
(Local) Scheduler Issues
• Distribute job• Based on load and characteristics of
machines, available disk storage, network characteristics, … .
• Runtime scheduling!
• Arrange data in right place (Staging)– Data Replication and movement as needed– Data Error checking
6d.12
Scheduler Issues (continued)• Performance
– Error checking – check pointing– Monitoring job, progress monitoring– QOS (Quality of service)– Cost (area considered by Nimrod-G scheduler)
• Security– Need to authenticate and authorize remote user
for job submission• Fault Tolerance• Automatic scheduling
6d.13
Scheduling policies
• First-in, First-out• Favor certain types of jobs• Shortest job first• Smallest (or largest) memory first• Short (or long) running job first• Fair sharing or priority to certain users• Dynamic policies
– Depending upon time of day and load– Custom, preemptive, process migration
6d.14
Advance Reservation• Requesting actions at times in future.
• “A service level agreement in which the conditions of the agreement start at some agreed-upon time in the future”
From: “The Grid 2, Blueprint for a New Computing Infrastructure,” I. Foster and C. Kesselman editors, Morgan Kaufmann, 2004.
6d.15
Resource Broker
• “A scheduler that optimizers the performance of a particular resource.
• Performance may be measured by such criteria as fairness (to ensure that all requests for the resources are satisfied) or utilization (to measure the amount of the resource used).”
From: “The Grid 2, Blueprint for a New Computing Infrastructure,” I. Foster and C. Kesselman editors, Morgan Kaufmann, 2004.
6d.16
Scheduler/Resource Broker Examples
We have used Condor and Sun Grid Engine:
• Condor/Condor-G– Used in Fall 2004 course and this year in
assignment 3.
• Sun Grid Engine– Used in Fall 2005 course
6d.17
Condor
• First developed at University of Wisconsin-Madison in mid 1980’s to convert a collection of distributed workstations and clusters into a high-throughput computing facility.
• Key concept - using wasted computer power of idle workstations.
6d.18
Condor
• Converts collections of distributed workstations and dedicated clusters into a distributed high-throughput computing facility.
6d.19
Uses• Consider following scenario:
– I have a simulation that takes two hours to run on my high-end computer
– I need to run it 1000 times with slightly different parameters each time.
– If I do this on one computer, it will take at least 2000 hours (or about 3 months)
From: “Condor: What it is and why you should worry about it,” by B. Beckles, University of Cambridge, Seminar, June 23, 2004
6d.20
– Suppose my department has 100 PCs like mine that are mostly sitting idle overnight (say 8 hours a day).
– If I could use them when their legitimate users are not using them, so that I do not inconvenience them, I could get about 800 CPU hours/day.
– This is an ideal situation for Condor.
• I could do my simulations in 2.5 days.
From: “Condor: What it is and why you should worry about it,” by B. Beckles, University of Cambridge, Seminar, June 23, 2004
6d.21
Condor Features
• Include:– Resource finder– Batch queue manager– Scheduler– Checkpoint/restart– Process migration
6d.22
Intended to run job even if:
• Machines crash• Disk space exhausted• Software not installed• Machines are needed by others• Machines are managed by others• Machines are far away
6d.23
How does Condor work?
• A collection of machines running Condor called a pool.
• Individual pools can be joined together in a process called flocking.
From: “Condor: What it is and why you should worry about it,” by B. Beckles, University of Cambridge, Seminar, June 23, 2004
6d.24
Machine Roles
• Machines have one or more of 4 roles:
– Central manager– Submit machine (Submit host)– Execution machine (Execute host)– Checkpoint server
6d.25
Central Manager
• Resource broker for a pool.
• Keeps track of which machines are available, what jobs are running, negotiates which machine will run which job, etc.
• Only one central manager per pool.
6d.26
Submit Machine
• Machine which submits jobs to pool.
• Must be at least one submit machine in a pool, and usually more than one.
6d.27
Execute Machine
• Machine on which jobs can be run.
• Must be at least one execute machine in a pool, and usually more than one.
6d.28
Checkpoint Server
• Machine which stores al checkpoint files produced by job which checkpoint.
• Can only be one checkpoint machine in a pool.
• Optional to have a checkpoint machine.
6d.29
Possible Configuration• A central manager.
• Some machine that can only be submit hosts.
• Some machine that can be only execute hosts.
• Some machines that can be both submit and execute hosts.
6d.30
6d.31
Types of Jobs• Classified according to environment it
provides. Currently seven environments:
– Standard– Vanilla– PVM– MPI– Globus– Java– Scheduler
6d.32
Standard• For jobs compiled with Condor libraries.
• Allows for checking pointing and remote system calls.
• Must be single threaded.
• Not available under Windows.
6d.33
Checkpointing• Certain jobs can checkpoint, both
periodically for safety and when interrupted.
• If checkpointed job interrupted, it will resume at the last checkpointed state when it starts again.
• Generally no change to source code - need to link Condor’s Standard Universe support library.
6d.34
Vanilla
• For jobs that cannot be compiled with Condor libraries, and for shell scripts and Windows batch files.
• No checkpointing or remote system calls.
6d.35
PVMFor PVM programs.
MPIFor MPI programs (MPICH).
Both PVM and MPI are message-passing libraries used in message passing programs.
Used for local clusters of computers.
MPI could be used in grid computing – we will talk about this later in the course.
6d.36
Globus For submitting jobs to resources managed by Globus (version 2.2 and higher).
JavaFor Java programs (written for Java Virtual Interface).
SchedulerUsed with DAG scheduled jobs, see later.
6d.37
Submitting a job• Job submitted to “submit host” using
Condor_submit command.
• Job described in “submit description” file.
• Submit description file includes details such as given in an RSL file in Globus, i.e. the name of the executable, arguments, etc.
6d.38
Condor Submit Description File
# This is a comment, condor submit fileUniverse = vanillaExecutable = /home/abw/condor/myProgInput = myProg.stdinOutput = myProg.stdoutError = myProg.stderrArguments = -arg1 -arg2InitialDir = /home/abw/condor/assignment4Queue
Describes job to Condor.Used with Condor _submit command.
Description File Example
6d.39
Submitting Multiple Jobs
• Submit file can specify multiple jobs– Example: Queue 500 will submit 500 jobs at once
• Condor calls groups of jobs a cluster
• Each job within cluster called a process
• Condor job ID is the cluster number, a period and process number, for example 26.2
• Single jobs also a cluster but with a single process (process 0)
6d.40
Submitting a job with requirements and preferences • Done using Condor’s “ClassAd”
mechanism, which may include:– What it requires– What it desires– What it prefers, and– What it will accept
• These details start in submit description file.
6d.41
condor-submit command creates a “ClassAd” from the submit description file, which is then used in ClassAd matchmaking mechanism.
Command:
condor_submit submit.prog1
ClassAd file
submit description file
6d.42
Specifying Requirements
• A C/Java-like Boolean expression that evaluates to TRUE for a match.
# This is a comment, condor submit fileUniverse = vanillaExecutable = /home/abw/condor/myProgInitialDir = /home/abw/condor/assignment4Requirements = Memory >= 512 && Disk > 10000queue 500
6d.43
ClassAd MatchmakingUsed to ensure job done according to constraints of users and owners.
Example of user constraints“ I need a Pentium IV with at least 512 Mbytes of
RAM and speed of at least 3.8 GHz
Example of machine owner constraints “Never run jobs owned by Fred”
6d.44
ClassAd Matchmaking Steps
1. Agents (jobs) and resources (computers) advertise their characteristics and requirements in “classified advertisements.”
2. Matchmaker scans ClassAds and creates pairs that satisfy each others constraints and preferences.
3. Matchmaker informs both parties of match.
4. Agent and resource make contact.
6d.45
Job
Job ClassAd
Machine ClassAdd
Machine ClassAdd
Machine
Match
Machine
6d.46
Job ClassAd Example
[MyType = “Job”TargetType=“Machine”Requirements =((other.Arch==“INTEL”&&other.OpSys==“LINUX”)&& other.Disk>myDiskUsage)DiskUsage = 6000] 6 MB
Requirements statement must evaluate to true
6d.47
Machine ClassAd Example[MyType=“Machine”TargetType=“Job”Machine=“coit-grid01.uncc.edu”Requirements=((LoadAvg<=0.300000)&&(KeyboardIdle>(15*60))Arch=“INTEL”OpSys=“LINUX”Disk=1000000]
Keyboard idle for more than 15 minutes
Low load average
6d.48
ClassAd’s Rank Statement
• Can be used in job ClassAdd for selection between compatible machines. Choose highest rank
• Rank expression should evaluate to a floating point number.
ExampleRank = (Memory * 10000) + KFlops
Machine speed
6d.49
Rank StatementCan also be used in Machines ClassAd in
matchmaking.
ExampleRank = (other.Department == self.Department)
where Department defined in job ClassAdd, say:
Department=“Computer Science”
6d.50
Job ClassAd[MyType = “Job”TargetType=“Machine”
…Department=“Computer
Science”…]
Machines ClassAd[MyType=“Machine”TargetType=“Job”
…Rank = (other.Department == self.Department)…]
Using rank in Machines ClassAd
6d.51
Directed Acyclic GraphManager (DAGMan)
Meta-scheduler
Allows one to specify dependencies between Condor Jobs.
6d.52
Example“Do not run Job B until Job A completed
successfully”
Especially important to jobs working together (as in Grid computing).
6d.53
Directed Acyclic Graph(DAG)
• A data structure used to represent dependencies.
• Directed graph.
• No cycles.
• Each job is a node in the DAG.
• Each node can have any number of parents and childred as long as there are no loops (Acyclic graph).
6d.54
DAG
Job A
Job CJob B
Job D
Do job A.
Do jobs B and C after job A finished
Do job D after both jobs B and C finished.
6d.55
Defining a DAG• Defined by a .dag file, listing each of the
nodes and their dependencies.
• Each “job” statement has an abstract job name (say A) and a file (say a.condor)
• PARENT-CHILD statement describes relationship between two or more jobs
• Other statements available.
6d.56
Example# diamond.dagJob A a.subJob B b.subJob C c.subJob D d.subParent A Child B CParent B C Child D
Job A
Job CJob B
Job D
6d.57
To start a DAG, use condor_submit_dag command with dag file:
condor_submit_dag diamond.dag
condor_submit_dag submits a Scheduler Universe Job with DAGMan as the executable.
6d.58
Running a DAG
• DAGMan acts as a scheduler managing the submission of jobs to Condor based upon DAG dependencies.
• DAGMan holds and submits jobs to Condor queue at appropriate times.
6d.59
Job Failures
• DAGMan continues until it cannot make progress and then creates a rescue file holding current state of DAG.
• When failed job ready to re-run, rescue file used to restore prior state of DAG.
6d.60
Summary of Key Condor Features
• High throughput computing using an opportunitistic environment.
• Provides a mechanisms for running jobs on remote machines.
• Matchmaking
• Checkpointing
• DAG scheduling
6d.61
QuizGive one reason why a scheduler or resource broker is used in conjunction with Globus:
(a)Globus does not provide the ability to submit jobs.
(b)Globus does not provide the ability to make advance reservations.
(c) No reason whatsoever.(d) Globus does not provide the ability to
transfer files.
6d.62
(a)There are no similarities.
(b)They both provide a means of specifying command line arguments for the job.
(c) They both provide a means of specifying whether a named user is allowed to execute a job.
(d)They both provide a means of specifying machine requirements for a job.
Identify which of the following are similarities between Condor ClassAd and Globus RSL (version 1 or 2). (There may be more than one similarity.)
6d.63
In the context of schedulers, what is meant by the term “Advance Reservation”?
(a) Requesting an advance.
(b) Submitting a more advanced job.
(c) Move onto the next job.
(d) Requesting actions at a future time.
6d.64
More Information• http://www.cs.wisc.org/condor
• Chapter 11, Condor and the Grid, D. Thain, T. Tannenbaum, and M. Livny, Grid Computing: Making The Global Infrastructure a Reality, F. Berman, A. J. G. Hey, and G. Fox, editors, John Wiley, 2003.
• “Condor-G: A Computation Management Agent for Multi-Institutional Grids,” J. Frey, T. Tannenbaum, I. Foster, M. Livny, S. Tuecke, Proc. 10th Int. Symp. High Performance Distributed Computing (HPDC-10) Aug. 2001.
6d.65
Questions