There are many definitions of the term Grid computing:
- A service for sharing computer power and data storage capacity over the Internet
- An ambitious and exciting global effort to develop an environment in which individual users can access computers, databases and experimental facilities simply and transparently, without having to consider where those facilities are located.
- Grid compting is a model for allowing companies to use a large number of computing resources on demand, no matter where they are located.
Cluster Computing VS. Grid Computing
When two or more computers are used together to solve a problem, it is called a computer cluster . Then there are several ways of implementing the cluster, Beowulf is maybe the most known way to do it, but basically it is just cooperation between computers in order to solve a task or a problem. Cluster Computing is then just the thing you do when you use a computer cluster.
Grid computing is something similar to cluster computing, it makes use of several computers connected is some way, to solve a large problem. There is often some confusion about the difference between grid vs. cluster computing. The big difference is that a cluster is homogenous while grids are heterogeneous. The computers that are part of a grid can run different operating systems and have different hardware whereas the cluster computers all have the same hardware and OS. A grid can make use of spare computing power on a desktop computer while the machines in a cluster are dedicated to work as a single unit and nothing else.
Grid are inherently distributed by its nature over a LAN, metropolitan or WAN. On the other hand, the computers in the cluster are normally contained in a single location or complex.
Another difference lies in the way resources are handled. In case of Cluster, the whole system (all nodes) behave like a single system view and resources are managed by centralized resource manager. In case of Grid, every node is autonomous i.e. it has its own resource manager and behaves like an independent entity.
Characteristics of Grid Computing
- Loosely coupled (Decentralization)
- Diversity and Dynamism
- Distributed Job Management & scheduling
Characteristics of Cluster computing
- Tightly coupled systems
- Single system image
- Centralized Job management & scheduling system
Areas of Grid Computing and it's applications for modeling and computing
- Predictive Modeling and Simulations Predictive Modeling is done through extensive computer simulation experiments, which often involve large-scale computations to achieve the desired accuracy and turnaround time. It can also be called "Modeling the Future". Such numerical modeling requires state-of-the-art computing at speeds approaching 1 GFLOPS and beyond. In case of Computational Biology , It is the modeling and simulation of self-organizing adaptive response of systems where spatial and proximal information is of paramount importance. Areas of Research include:
- Numerical Weather Forecasting.
- Flood Warning
- Semiconductor Simulation
- Astrophysics (Modeling of Black holes and Astronomical formations)
- Sequencing of the human genome
- Socio-economic and Government use
- Finite-element analysis
- Computational aerodynamics
- Remote Sensing Applications
- Artificial Intelligence and Automation
- Image Processing
- Pattern Recognition
- Computer Vision
- Seismic Exploration
- Reservoir Modeling
- Plasma Fusion Power
- Nuclear Reactor Safety
- Medical Imaging
- Quantum Mechanics problems
- Polymer Chemistry
- Nuclear Weapon Design
- Computer-generated graphics, films and animations
- Data Visualization
This is an excelent document that explain the diferences and characteristics of Cluster, Grid ans Cloud computing: Cluster, Grid and Cloud Computing