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Resource Management in Virtualization-based Data Centers

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Title: Resource Management in Virtualization-based Data Centers

1
Resource Management in Virtualization-based
Data Centers

Bhuvan Urgaonkar
Computer Systems Laboratory
Pennsylvania State University

2
Data Center

Cluster of compute and storage servers connected
by high-speed network
Rent out resources in return for revenue
Internet applications, Scientific applications,
Revenue scheme expressed using SLAs

3
Resource Management in Data Centers

Goal Meet application SLAs
Easy solution Over-provision resources
Over-provisioning can be very wasteful
Energy, management, failures,
Data center would like to maximize revenue!
Dynamic capacity provisioning match resource
allocations to varying workloads
Challenges
Determining changing resource needs of
applications
Effective sharing of resources among applications
E.g., server consolidation can reduce cost
Automating resource management

4
Resource Management in Data Centers

Goal Meet application SLAs
Easy solution Over-provision resources
Over-provisioning can be very wasteful
Energy, management, failures,
Data center would like to maximize revenue!
Dynamic capacity provisioning match resource
allocations to varying workloads
Challenges
Determining changing resource needs of
applications
Effective sharing of resources among applications
E.g., server consolidation can reduce cost
Automating resource management

5
Motivation for Virtualized Hosting in Data Centers

Key idea Design data center using virtualization
Virtual machine monitor (VMM) and virtual machine
(VM)
A software layer that runs on a server and allows
multiple OS/applications to co-exist
Each OS/application is given the illusion of its
own virtual machine that it has to itself
Why is this good?
Consolidation of diverse OS/apps possible
Migration made easier
Small code of VMM gt improved security
Not a new idea, but existing solutions are
inadequate
Goal Devise efficient resource management
solutions for a virtualization-based data center

6
The Xen Virtual Machine Monitor

VMM hypervisor
VM domain
Para-virtualization
Special domain called Dom0

Dom0
Dom2
Dom1
Mysql database
Apache Web server
Linux
Windows
Xen hypervisor
Hardware
7
Outline

Introduction and Motivation
Resource Management in a Xen-based Data Center
Resource Accounting
Resource Allocation and Scheduling
Performance Optimizations for Xen
Other Research
Concluding Remarks

8
Xen-based Data Center

Each application component runs within a Xen
domain

Online book-store
Online game server
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
Physical machine 1
Physical machine 2
9
Resource Usage Accounting

Need for accurate resource accounting
Estimate future needs
Relate performance and resource consumption
Charge applications for resource usage
Accounting in Xen-based hosting
Statistics for each DomU can be gathered by
hypervisor
E.g., number of bytes sent by a DomU
Hidden activity CPU activity performed by Dom0
Similar to activity done by a kernel for a
process
Techniques to de-multiplex Dom0s activity across
DomUs
How much work does Dom0 have to do for each DomU?

10
Resource Allocation

Multi-time scale resource allocation
Server assignment course time-scale
Scheduling fine time-scale
Placement
Like a knapsack problem
What time-scale?
Migration versus replication

11
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Physical machine 1
Physical machine 2
12
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Physical machine 1
Physical machine 2
13
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Physical machine 1
Physical machine 2
14
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Message waits till yellow app gets the CPU
Physical machine 1
Physical machine 2
15
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Message can be received Immediately if the yellow
app gets the CPU
Physical machine 1
Physical machine 2
16
Intelligent Scheduling of Distributed Applications

Motivation Co-scheduling of parallel
applications
Schedule distributed communicating components
together

Physical machine 1
Physical machine 2
17
Co-ordinated Schedulingof Communicating Domains

Idea 1 Preferentially schedule a DomU when it
receives data
Modify Xen CPU scheduler to give higher
preference to receiving DomU
Important Also need to ensure that Dom0 gets to
run to take care of I/O
Scheduler should partition the CPU allocation for
a DomU into those for Dom0 and DomU appropriately

18
Co-ordinated Schedulingof Communicating Domains

Idea 2 Try to schedule a sender DomU when it is
expected to receive the response
An application knows best, but mods undesirable
Let the hypervisor learn from past behavior
E.g., query responses might be returning in 1-2
seconds
Idea 3 Anticipatory CPU scheduling
If a domain has sent/received data, it may be
likely to do that again
E.g., queries may be issued in bursts
Trade-off between domain context switch and how
much extra time you let a sender DomU continue

19
Multi-processor Scheduling

Idea Dom0 should be scheduled together with a
DomU doing I/O
Utilize the multiple CPUs to co-schedule a
communicating DomU with Dom0
Ensure domains that communicate a lot do not
starve others
Relaxed fairness 50 CPU over intervals gt 1
second
Approach Decay the CPU priority of communicating
DomUs to ensure relaxed fairness is not violated

20
Outline

Introduction and Motivation
Resource Management in a Xen-based Data Center
Resource Accounting
Resource Allocation and Scheduling
Performance Optimizations for Xen
Other Research
Concluding Remarks

21
Performance Optimizations for Xen

Switching between native virtual hosting
Dynamic merging and splitting of domains
Overbooking of memory
Improved migration techniques
Coalesce network packets directed to the same
physical server

22
Performance Optimizations for Xen

Switching between native virtual hosting
Dynamic merging and splitting of domains
Overbooking of memory
Improved migration techniques
Coalesce network packets directed to the same
physical server

23
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
24
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
25
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
26
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
27
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
28
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
29
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
30
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
31
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
32
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
33
Optimizing Network Communication
Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
34
Optimizing Network Communication

(-) Increased CPU processing for coalescing and
splitting packets
() Reduced interrupt processing at receiver

Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
35
Optimizing Network Communication

What kinds of packets can be coalesced?
TCP ACKs? Other packets?
Would it make sense to do anticipatory packet
scheduling at the sender?

Dom0
Dom0
Dom2
Dom1
Dom2
Dom1
Mysql database
Apache
Mysql
Quake 1
Quake 2
Linux
Windows
Linux
Windows
Xen hypervisor
Xen hypervisor
Hardware
Hardware
36
Outline