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Transcript
Distributed Systems
Alexis Delis
[email protected]
Monday 6:00-9:00
Spring 2002
www.di.uoa.gr/~ad/MDE519.html
1
Grades - Evaluation
Final Examination: 35%
In-class Presentations & Homeworks: 30%
Project(s): 35%
Book:
A.S. Tanenbaum, M. van Steen, Distributed Systems, Prentice Hall, 2002.
Other:
Papers (available from the course’s WWW site)
2
Definition of a Distributed System
A distributed system is:
A collection of independent
computers that appears to its
users as a single coherent
system.
3
Definition of a Distributed System
1.1
A distributed system is organized as middleware.
Note that the middleware layer may extend over multiple
machines.
Examples: Workflow Systems, WWW-services (URL)
4
Goals of Distributed Systems
• connecting users with resources
• transparency
• openess
• scalability
5
Transparency in a Distributed System
Transparency
Description
Access
Hide differences in data representation and how a
resource is accessed
Location
Hide where a resource is located
Migration
Hide that a resource may move to another location
Relocation
Hide that a resource may be moved to another
location while in use
Replication
Hide that a resource may be shared by several
competitive users
Concurrency
Hide that a resource may be shared by several
competitive users
Failure
Hide the failure and recovery of a resource
Persistence
Hide whether a (software) resource is in memory or
on disk
Different forms of transparency in a distributed system.
6
Openness
Open DS: a system that offer services
according to Standard Rules.
Such rules are described in terms of protocols
IDLs help in the description of such protocols.
 Interoperability?
Portability?
Difference between the two?
7
Scalability
Numerous “definitions” of scalability
 system can be scalable in terms of size
Add more users/resources into the system
Geographically Scalable system
Users/resources may lie far apart
Administratively Scalable
Easy to manage even if it spans multiple orgs.
GOLDEN RULE: as system becomes scalable in one of these
three dimension exhibits loss in performance.
8
Scalability Problems
Concept
Example
Centralized services
A single server for all users
Centralized data
A single on-line telephone book
Centralized algorithms
Doing routing based on complete information
Examples of scalability limitations.
9
Scaling Techniques
 asynchronous communication
 filling (database) forms.
 distribution (take a component, break into
smaller pieces, spread these components
across the system
Example: DNS – Domain Name Service.
Division in (non-overlapping) zones – domains
10
Scaling Techniques
1.4
The difference between letting:
a) a server (character/string-based communication) or
b) a client check forms as they are being filled (bulk
uploading).
11
Scaling Techniques
1.5
An example of dividing the DNS name space into zones.
12
Scalability - Caching
Generally Good Idea: Replicate (data/services)
Replication increases availability (of systems)
Caching (difference from replication?)
Main problem with caching/replication?
 Is this a serious problem?
 CDNs (how do they do it?)
13
Hardware Concepts
1.6
Different basic organizations and memories in distributed
computer systems
14
Multiprocessors
1.7
A bus-based multiprocessor.
15
Multiprocessors
1.8
a) A crossbar switch (n*n crosspoint switches needed)
b) An omega switching network (low latency problem)
c) How to avoid latency?
use hierarchical schemes: NUMA (NonUniform Memory Access)
16
Homogeneous Multicomputer Systems
(building is “easy”-problem:interconnection network)
Homogeneous Multi-computers: System Area Networks (SANs)
1-9
a) Bus-based (FDDI/ Fast-Ethernet /Gigabit network )
b) Grid (switched based; messages are routed via the interconnection network)
c) Hypercube(switched based; four dimensional (b); two ordinary cubes with 8
17
vertices and 12 edges)
Switched Multi-computers
Can vary significantly…
From…
• Massively Parallel Processors ($$ MPP –
CM5, IBM SP2 etc.)
To..
• Clusters/Networks of Workstations (cheap$ COWs or NOWs)
18
Software Concepts
System
Description
Main Goal
DOS
Tightly-coupled operating system for multiprocessors and homogeneous
multicomputers
Hide and manage
hardware
resources
NOS
Loosely-coupled operating system for
heterogeneous multicomputers (LAN and
WAN)
Offer local
services to remote
clients
Middleware
Additional layer atop of NOS implementing
general-purpose services
Provide
distribution
transparency
An overview between
• DOS (Distributed Operating Systems)
• NOS (Network Operating Systems)
• Middleware
19
Uniprocessor Operating Systems
1.11
Separating applications from operating system code
through a microkernel.
20
Multiprocessor Operating Systems
monitor Counter {
private:
int count = 0;
public:
int value() { return count;}
void incr () { count = count + 1;}
void decr() { count = count – 1;}
}
A monitor to protect an integer against concurrent access.
21
Multiprocessor Operating Systems (2)
monitor Counter {
private:
int count = 0;
void decr() {
if (count ==0) {
int blocked_procs = 0;
blocked_procs = blocked_procs + 1;
condition unblocked;
wait (unblocked);
public:
blocked_procs = blocked_procs – 1;
int value () { return count;}
}
void incr () {
else
if (blocked_procs == 0)
count = count + 1;
else
count = count – 1;
}
}
signal (unblocked);
}
A monitor to protect an integer against concurrent access, but
22
blocking a process.
Distributed Shared Memory Systems (DSM)
a)
b)
c)
Pages of address
space distributed
among four
machines
Situation after
CPU 1 references
page 10
Situation if page
10 is read only
and replication is
used
Trick: replicate pages that are referenced frequently!
Another: replicate all pages (??) – problems? Solutions?
23
Distributed Shared Memory Systems
•Always an issue: size of a page in DSM – why?
•Large sized page are potentially good but they may
entail false sharing
•Having data belonging to two independent processes in the
same page…
24
Network Operating System
1-19
General structure of a network operating system.
25
Network Operating System
1-20
Two clients and a server in a network operating system.
• Services allowed to users…
• rlogin machineA
• rcp machineA:file1 machineB:file2
• ftp, http, sftp, ssh, etc.
26
Network Operating System
•Issue of FS mount-ing
1.21
Different clients may mount the servers in different places.
27
Positioning Middleware
1-22
General structure of a distributed system as middleware.
28
Middleware and Openness
1.23
In an open middleware-based distributed system, the protocols
used by each middleware layer should be the same, as well as
the interfaces they offer to applications.
29
Comparison between Systems
Item
Distributed OS
Network
OS
Middlewarebased OS
Multiproc.
Multicomp.
Very High
High
Low
High
Yes
Yes
No
No
1
N
N
N
Basis for
communication
Shared
memory
Messages
Files
Model specific
Resource management
Global,
central
Global,
distributed
Per node
Per node
Scalability
No
Moderately
Yes
Varies
Openness
Closed
Closed
Open
Open
Degree of transparency
Same OS on all nodes
Number of copies of OS
A comparison between multiprocessor operating systems,
multicomputer operating systems, network operating
systems, and middleware based distributed systems.
30
Clients and Servers
1.25
General interaction between a client and a server.
31
An Example Client and Server
The header.h file used by the client and server.
32
An Example: The Server
A sample server.
33
An Example: The Client
1-27 b
A client using the server to copy a file.
34
Three Processing Levels
1-28
The general organization of an Internet Search Engine into
three different layers
35
Multitiered Architectures
1-29
Alternative client-server organizations (a) – (e).
36
Multitiered Architectures
1-30
An example of a server acting as a client.
37
Modern Architectures
1-31
An example of horizontal distribution of a Web service.
38
Ongoing (Research) Work
• DSs based on Horizontal Distribution(of
data/services)
• DSs based on Horizontal and/or Vertical
Distribution (of data/services)
• Peer-to-Peer
– Distributions of data
– Services (indexing, querying, TP processing)
– Self-organizing systems
39