2. Outline
➔
Introduction to Grid Computing
➔
Grid Construction
➔
Grid Frameworks
➔
Globus Toolkit
➔
Gridbus Toolkit
➔
UNICORE
➔
Legion
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3. Outline
➔
Comparison
➔
Other emerging frameworks
➔
Conclusion
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4. Introduction to Grid Computing (I)
End of 1998 the concept of "Grid computing" was introduced in the monograph "The
Grid: Blueprint for a New Computing Infrastructure" by I. Foster and C. Kesselman.
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5. Introduction to Grid Computing (II)
➔
The notion of grid computing:
➔
The term grid is chosen as an analogy to a power grid !
➔
Grid computing is a special type of parallel computing
➔
How it differs from supercomputing?
➔
Few essential concepts related to grid computing:
➔
Utility computing
➔
Volunteer computing
➔
CPU scavenging
➔
Loosely coupled system
➔
Virtual supercomputers
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6. Introduction to Grid Computing (III)
➔
grids typically share at least some of the following characteristics:
➔
They are numerous.
➔
They are owned and managed by different, potentially mutually-distrustful
organizations and individuals.
➔
They are potentially faulty.
➔
They have different security requirements and policies.
➔
They are heterogeneous, e.g., they have different CPU architectures, run different
operating systems, and have different amounts of memory and disk.
➔
They are connected by heterogeneous, multi-level networks.
➔
They have different resource management policies.
➔
They are likely to be geographically-separated (on a campus, in an enterprise, on a
continent).
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7. Introduction to Grid Computing (IV)
Compute Grids Data Grids
Access Grids Knowledge Grids
Bio Grids Commodity Grids
Campus Grid Tera Grids
Science Grids Sensor Grids
Cluster Grids
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9. Grid Construction (I)
➔
General Principles (four main aspects characterize a grid)
➔
Multiple administrative domain and autonomy
➔
Heterogeneity
➔
Scalability
➔
Dynamicity or adaptability
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10. Grid Construction (II)
➔
The steps necessary to realize a grid
➔
Integration of individual software and hardware components
➔
Deployment of
➔
Low level middleware
➔
User level middleware
➔
Development and optimization of distributed
applications.
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11. Grid Construction (III)
➔
A Layered Grid Architecture
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13. Grid Frameworks (I)
➔
A software framework (or middleware)
➔
contains executables or tools
➔
provides inversion of control
➔
has a default behavior
➔
extensibility
➔
non-modifiable framework code
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14. Grid Frameworks (II)
●
Grid framework (or middleware), is a software stack that facilitates
●
writing grid applications
●
and manages the underlying grid infrastructure
➔
Grid frameworks can be categorized by the grid layers.
➔
Core middleware and toolkit:
➔
Globus, Gridbus (Alchemi, GridSim), UNICORE, Legion, GridGain, gLite
➔
User-level middleware and toolkit:
➔
SAGA, MetaMPI, Cactus, GrADS, Gridport, WebFlow, XtremeWeb
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15. Globus Toolkit (I)
➔
Open source software toolkit for developing Grid applications
➔
The de facto standard for open source grid computing infrastructure
➔
Supported by industry leaders such as IBM, Intel, HP with others (The Globus
Consortium)
➔
R&D project conducted by the “Globus Alliance”
➔
Work on the toolkit first began in 1996. Historically, the Globus Toolkit was used
widely by three groups of people
➔
Grid builders
➔
Application developers
➔
Application framework developers
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16. Globus Toolkit (II)
➔
Provides three main groups of services accessible through a security layer :
1. Resource Management
2. Data Management
3. Information Services
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17. Globus Toolkit (III)
Impact: Globus Toolkit have enabled many exciting new scientific and business
grids. (Source: http://www.globus.org/alliance/impact/)
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18. Gridbus Toolkit (I)
➔
Originated from Gridbus (GRIDcomputing andBUSiness) project.
➔
Toolkit for Service Oriented Grid and Utility Computing
➔
Supports development of grid infrastructure for eScience and eBusiness
applications.
➔
Uses economic models (supply and demand) for efficient management
of shared resources.
➔
Promotes commoditization of grid services at various levels:
➔
Raw resources level
➔
Application level
➔
Aggregated service level
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20. Gridbus Toolkit (III)
Impact: Gridbus Toolkit have enabled several exciting scientific and business grids.
(Source: http://www.cloudbus.org/applications.html)
● High Energy Physics and Grid Networks (BelleDataGrid): Melbourne School of Physics
● NeuroGrid: Brain Activity Analysis on the Grid : Osaka University, Japan
● KidneyGrid - Distributed Kidney Models Integration: Melbourne Medical School
● Austronomy: Australian Virtual Observatory
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21. UNICORE (I)
➔
UNICORE (Uniform Interface to Computing Resources)
➔
is a ready-to-run Grid system including client and server software
➔
is part of the European Middleware Initiative.
➔
Project was initially funded by the Federal Ministry of Education and Research (BMBF)
➔
UNICORE was started before "Grid computing"
➔
developed by several European partners under the leadership of Jülich Supercomputing
Centre.
➔
platform-independent, based on open standards and technologies such as Web Services
➔
mostly written in Java and is available as open source under BSD license and available at
SourceForge. Current version is UNICORE 6
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22. UNICORE (II)
➔
The architecture of UNICORE 6 is three-layered in
➔
client layer,
➔
service layer
➔
and system layer
UNICORE 6 Architecture
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23. UNICORE (III)
Impact: UNICORE6 has been the middleware of choice in numerous grids in EU.
(Source: http://www.unicore.eu/community/projects/)
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24. Legion (I)
➔
Legion is an object-based metasystem developed at the University of
Virginia.
➔
The software developed under the Legion project has been
commercialized by a spin-off company called Avaki Corporation
➔
The Legion system uses an object-oriented approach. In the Legion system
the following apply
➔
Everything is an object.
➔
Classes manage their instances
➔
Users can define their own classes
➔
The Legion interfaces are described in an Interface Definition Language
(IDL).
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25. Legion (II)
➔
Legion core objects support the basic services needed by the metasystem.
➔
Legion objects are independent, active, and capable of communicating
with each other via unordered non-blocking calls.
➔
Some core objects in Legion are:
➔
Host objects: represent processors in Legion.
➔
Vault objects: represent persistent storage.
➔
Context objects: Context objects map context names to Legion object IDs
➔
Binding agents: A binding agent maps object IDs to physical addresses
➔
Implementation object: hides the storage details of object implementations
➔
Class object : is used to define and manage its corresponding Legion object.
Class objects are given system-level responsibility.
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30. Other Emerging
Frameworks
➔
Alchemi: a .NET-based grid computing framework. For more
information on Alchemi please visit http://www.alchemi.net/
➔
Gridgain 2.0: Java Grid Computing Framework Released by GridGain
Systems.
➔
Since its release in August 2007 GridGain became the fastest growing Java grid
computing infrastructure with over 10,000 downloads
➔
more than 500 unique projects utilizing it
➔
and deployed in a dozen production systems.
➔
gLite: a framework for building applications tapping into distributed
computing and storage resources across the Internet
➔
used in the CERN LHC experiments and in other scientific domains
➔
adopted by more than 250 computing centres and used by more than 15000
researchers in Europe and around the world.
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32. References
➔
[01]: Parvin Asadzadeh et. al. “Global Grids and Software Toolkits: A
Study of Four Grid Middleware Technologies”.
➔
[02]: Mark Baker et. al. “Grids and Grid technologies for wide-area
distributed computing”
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