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The evolution of Oracle has led to a revolution in design practices. For Oracle 10g, database physical structures have become more complex than ever before and database designers face multiple ways to implement their logical models. IS students studying database design and administration need to be able to implement management systems in a way that enables fast performance while preserving logical data structures.
Physical Database Design Using Oracle correlates logical data models with the physical implementation structures that Oracle provides. It allows students to learn how to take logical data models and convert them into a series of data structures that permit fast and easy logical access to data. Oracle 10g offers object-oriented data structures, pure relational data structures, and specialized data structures such as index-organized tables. Given so many choices, future DBAs and Oracle designers must understand the approprate use of each physical technology and how it maps to their data models.
This textbook is targeted at undergraduate and graduate IS students working to become the Oracle professionals of the near future. It is expected that they already have exposure to basic Oracle database administration. The expert guidance provided by this textbook offers the insight needed to choose appropriate physical models for mission-critical applications.
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Mahatma Gandhi (20th Century Biographies)
Mahatma Gandhi led the struggle for Indian independence from the British Empire. The British ruled India for many years. Gandhi also gained civil rights for the Indian population that lived in South Africa.
Although Gandhi was a small, frail man, he faced strong nations using only his weapons of nonviolent resistance. Encouraging... | | Refactoring in Ruby
The First Hands-On, Practical, All-Ruby Refactoring Workbook!
Refactoring the art of improving the design of existing code has taken the world by storm. So has Ruby. Now, for the first time, there's a refactoring... | | Principles of Molecular Neurosurgery (Progress in Neurological Surgery, Vol. 18)
The future of neurosurgery will be characterized by less invasive, molecular technologies that promise to revolutionize the field of neurosurgery and impact the treatment of additional neurological disorders, including neurometabolic diseases, stroke, dementias, affective and psychiatric diseases, movement disorders, epilepsy, and others.... |
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