Index
A B C D E F G H I L M N O P Q R S T U V W
A
- applications
- deploying, 1-27
- design principles, 1-14
- development trends, 1-22
- implementing, 1-20
- performance, 2-8
B
- baselines, 2-8
- benchmarking workloads, 1-24
- big bang rollout strategy, 1-27
- bit-mapped indexes, 1-16
- bottlenecks
- fixing, 2-9
- identifying, 2-9
- BSTAT/ESTAT scripts, 2-7
- B-tree indexes, 1-16
- buffer caches, 2-4
- business logic, 1-9, 1-20
C
- column order, 1-17
- conceptual modeling, 2-12
- CPUs, 1-8
- statistics, 2-2
D
- data
- and transactions, 1-10
- baselines, 2-8
- gathering, 2-6
- historical, 2-8
- modeling, 1-14
- queries, 1-12
- searches, 1-12
- database statistics, 2-4
- databases
- size, 1-13
- debugging designs, 1-25
- deploying applications, 1-27
- design principles, 1-14
- designs
- debugging, 1-25
- testing, 1-25
- validating, 1-25
- development environments, 1-20
- disk statistics, 2-3
E
- EM (Enterprise Manager), 2-6
- emergencies
- performance, 3-2
- Emergency Performance Method, 3-2
- Enterprise Manager, 2-6
- estimating workloads, 1-23
- benchmarking, 1-24
- extrapolating, 1-24
- extrapolating workloads, 1-24
F
- function-based indexes, 1-16
G
- gathering data, 2-6
H
- hardware components, 1-7
- historical data, 2-8
- hours of service, 1-13
I
- implementing business logic, 1-9
- indexes
- adding columns, 1-15
- appending columns, 1-15
- bit-mapped, 1-16
- B-tree, 1-16
- column order, 1-17
- costs, 1-17
- design, 1-15
- function-based, 1-16
- partitioned, 1-16
- reverse key, 1-17
- sequences in, 1-17
- serializing in, 1-17
- index-organized tables, 1-16
- Internet scalability, 1-4
- IOT (index-organized table), 1-16
L
- linear scalability, 1-6
M
- managing the user interface, 1-9
- memory, 1-8
- modeling
- conceptual, 2-12
- data, 1-14
- workloads, 1-25
N
- network speed, 1-12
- network statistics, 2-3
- networks, 1-8
O
- object-orientation, 1-22
- operating system statistics, 2-2
- operating systems
- checking, 2-12
- collecting symptoms, 2-12
- Oracle performance improvement method, 2-9
- steps, 2-11
P
- partitioned indexes, 1-16
- performance emergencies, 3-2
- performance improvement method, 2-9
- steps, 2-11
- programming languages, 1-20
Q
- queries
- data, 1-12
R
- resource allocation, 1-9, 1-20
- response time, 1-12
- reverse key indexes, 1-17
- rollout strategies
- big bang approach, 1-27
- trickle approach, 1-27
S
- scalability, 1-3
- factors preventing, 1-6
- Internet, 1-4
- linear, 1-6
- service hours, 1-13
- shared pool, 2-4
- software components, 1-8
- statistics
- correlation with application workload, 2-8
- databases, 2-4
- buffer caches, 2-4
- shared pool, 2-4
- gathering tools, 2-6
- BSTAT/ESTAT scripts, 2-7
- database data, 2-6
- Oracle Enterprise Manager, 2-6
- Statspack, 2-6
- operating systems, 2-2
- CPU statistics, 2-2
- disk statistics, 2-3
- network statistics, 2-3
- virtual memory statistics, 2-3
- Statspack, 2-6
- system architecture, 1-7
- configuration, 1-10
- hardware components, 1-7
- CPUs, 1-8
- I/O subsystems, 1-8
- memory, 1-8
- networks, 1-8
- software components, 1-8
- data and transactions, 1-10
- implementing business logic, 1-9
- managing the user interface, 1-9
- user requests and resource allocation, 1-9
T
- tables
- design, 1-15
- testing designs, 1-25
- transactions and data, 1-10
- trickle rollout strategy, 1-27
U
- user requests, 1-9
- users
- interaction method, 1-12
- interfaces, 1-20
- location, 1-12
- network speed, 1-12
- number of, 1-11
- requests, 1-20
- response time, 1-12
V
- validating designs, 1-25
- views, 1-18
- virtual memory statistics, 2-3
W
- workloads
- estimating, 1-23
- benchmarking, 1-24
- extrapolating, 1-24
- modeling, 1-25
- testing, 1-25
