Тезис
This International Standard defines how user oriented performance of computer-based software systems (CBSS)
may be measured and rated. A CBSS is a data processing system as it is seen by its users, e.g. by users at various
terminals, or as it is seen by operational users and business users at the data processing center.
A CBSS includes hardware and all its software (system software and application software) which is needed to
realize the data processing functions required by the users or what may influence to the CBSS's time behaviour.
This International Standard is applicable for tests of all time constrained systems or system parts. Also a network
may be part of a system or may be the main subject of a test. The method defined in this International Standard is
not limited to special cases like classic batch or terminal-host systems, e.g. also included are client server systems
or, with a broader comprehension of the definition of ?task', real time systems. But the practicability of tests may be
limited by the expenditure required to test large environments.
This International Standard specifies the key figures of user oriented performance terms and specifies a method of
measuring and rating these performance values. The specified performance values are those which describe the
execution speed of user orders (tasks), namely the triple of:
- execution time,
- throughput,
- timeliness.
The user orders, subsequently called tasks, may be of simple or complex internal structure. A task may be a job,
transaction, process or a more complex structure, but with a defined start and end depending on the needs of the
evaluator. When evaluating the performance it is possible to use this International Standard for measuring the time
behaviour with reference to business transaction completion times in addition to other individual response times.
The rating is done with respect to users requirements or by comparing two or more measured systems (types or
versions).
Intentionally no proposals for measuring internal values, such as:
- utilisation values,
- mean instruction rates,
- path lengths,
- cache hit rates,
- queuing times,
- service times,
are given, because the definition of internal values depends on the architecture of the hardware and the software of
the system under test. Contrary to this the user oriented performance values which are defined in this International
Standard are independent of architecture. The definition of internal performance values can be done independently
from the definition of user oriented performance values. They may be used and can be measured in addition to the
user oriented performance values. Also the definition of terms for the efficiency with which the user oriented values
are produced can be done freely. In addition this International Standard gives guidance on how to establish at a
data processing system a stable and reproducible state of operation. This reproducible state may be used to
measure other performance values such as the above mentioned internal values.
This International Standard focuses on:
- application software;
- system software;
- turn-key systems (i.e. systems consisting of an application software, the system software and the
hardware for which it was designed);
- general data processing systems.
This International Standard specifies the requirements for an emulation (by a technical system - the so-called
remote terminal emulator (RTE) - of user interactions with a data processing system. It is the guideline for precisely
measuring and rating the user oriented performance values. It provides the guideline for estimating these values
with the required accuracy and repeatability of CBSSs with deterministic as well as random behaviour of users. It is
also a guidance for implementing a RTE or proving whether it works according to this International Standard.
This International Standard provides the guideline to measure and rate the performance of CBSS with random user
behaviour when the accuracy and repeatability is required. It specifies in detail how to prepare and carry out the
measurement procedure. Along with a description of the analysis of the measured values, the formulas for
computing the performance value and the rating value, are provided.
This International Standard also gives guidance on:
- how to design a user oriented benchmark test using a:
* transaction oriented workload,
* batch oriented workload,
* or transaction and batch mixed workload.
It specifies:
- how to describe such a workload,
- how to perform the measurement procedure,
- how to rate the measured results.
This International Standard is of interest to:
- evaluators,
- developers,
- buyers (including users of a data processing system),
- system integrators
of CBSSs.
NOTE 1 The field of application of this International Standard may be extended to include the following aspects.
Workloads fulfilling the specifications of this standard and having a sufficiently general structure may be used as standard
workloads. They may be used to measure and rate performance of data processing systems used in specific fields. E.g. a
standard workload for word-processing may be used to compare the time efficiency of different software products or
different versions of the same product running on the same hardware system. Such a standard workload may also be
used if always applying the same application software version and the same hardware to compare the efficiency of the
system software. When applying the same application software and workload to different systems, consisting of hardware
and system software, as normally sold by system vendors, the efficiency of the data processing systems may be
compared with respect to the application and workload used.
Общая информация
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Текущий статус: ОпубликованоДата публикации: 1999-11Этап: Рассылка краткого отчета о пересмотре [90.60]
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Версия: 1
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Технический комитет :ISO/IEC JTC 1/SC 7ICS :35.080
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Жизненный цикл
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Сейчас
ОпубликованоISO/IEC 14756:1999
Стандарт, который пересматривается каждые 5 лет
Этап: 90.60 (Hа стадии пересмотра)-
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Предварительная стадия
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10
Стадия, связанная с внесением предложения
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20
Подготовительная стадия
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30
Стадия, связанная с подготовкой проекта комитета
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40
Стадия, связанная с рассмотрением проекта международного стандарта
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50
Стадия, на которой осуществляется принятие стандарта
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60
Стадия, на которой осуществляется публикация
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90
Стадия пересмотра
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95
Стадия, на которой осуществляется отмена стандарта
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00