What is IBM's relationship with grid computing?
IBM views grid computing as critical to the ongoing development of on demand operating environments. For all the excitement and innovation that grid represents, much of the thinking and technology that drive grid are anything but new to IBM. IBM was an early leader in "virtualization" — the driving force behind grid computing — which has enabled the computer to do many processing jobs simultaneously for thousands of users. Grid computing is an advanced evolution of virtualization — and IBM Grid Computing continues IBM's history of IT innovation for business. Deep experience in e-business processes, support for open standards, enabling of our products and services for grid, partnership role in the grid community and relationships with Business Partners make IBM an important force in bringing the benefits of grid to enterprise computing.
Grid and e-business on demand: what's the connection?
Grid computing is a key element in e-business on demand. Because it enables new kinds of power, flexibility and integration, IBM Grid Computing is a key element of the on demand operating environment.
Does IBM use grid computing in its own infrastructure?
Yes. IBM is a major user of grid computing. IBM's intraGrid, based on the Globus Toolkit, is a research and development grid that allows IBM to leverage many worldwide assets for research purposes and help us understand the complexities of managing a grid infrastructure on an enterprise scale. And IBM uses grids for other purposes throughout the company. One example is the IBM Boeblingen Lab Grid, composed of three IBM pSeries? clusters running AIX and LoadLeveler, a cross-departmental grid used to run zSeries processor unit simulations. Jobs are submitted through a web portal, presenting users with the same interface as the one they used when running simulations on an isolated cluster. The WebSphere based portal uses the Globus Java CoG Kit to pre-select candidate queues for submitting each simulation, using Globus Metacomputing Directory Service. This pre-selection is based on cluster loads and job characteristics. Access to a shared DB2 database allows for the automated generation of proxy certificates and for the monitoring and reporting of user jobs.
If I want to learn more about IBM Grid Computing, what's the first step?
Sign up for a Grid Innovation Workshop. These sessions offer a hands-on, business-specific understanding of grid computing's strategic, financial and operational advantages for your business. Customized to individual organizations, IBM Grid Innovation Workshops help companies examine how grid technology can help solve their specific information problems. The Workshop includes an Executive Session, work sessions, validation of findings and a preliminary plan.
To sign up, contact us today
What does it take to build a grid?
Building a grid can be as simple as enabling a small number of PCs (or server or storage network) to take advantage of underutilized processing and storage. This can radically speed completion of a single set of data- or compute-intensive tasks. From a relatively small deployment, you could expand slowly or quickly, narrowly or widely, depending on business needs. Ultimately, an entire enterprise can be enabled for grid — and grids can bring together not only departments and processes within a single company but also those among separate enterprises.
What about security in grid environments?
Grid Security Infrastructure (GSI) is a public-key-based security protocol, using X.509 certificates, a widely employed standard. The protocol provides single sign-on authentication, which allows a user to create a proxy credential that can authenticate with any remote service on the user's behalf, as well as communication protection and initial support for restricted delegation.
更多軟考資料請(qǐng)?jiān)L問(wèn):考試吧軟件水平考試欄目
希望與更多網(wǎng)友交流�����,請(qǐng)進(jìn)入考試吧軟件水平考試論壇
