Q : Could you please highlite the difference?
Let me start using a know-how from professionals in ITU-T ( former CCITT ), who have for decades spent many thousands of man*years of efforts on the highest levels of professional experience, and have developed an accurate and responsible methodology for measuring both:
What have the industry-standards adopted for coping with this ?
Since early years of international industry standards ( well, as far as somewhere deep in 60-ies ), these industry-professionals have created concept of testing complex systems in a repeatable and re-inspectable manner.
System-under-Test (SuT), inter-connected and inter-acting across a mediation service mezzo-system
SuT-component-[A]
|
+------------------------------------------------------------------------------------------------------------[A]-interface-A.0
| +------------------------------------------------------------------------------------------------[A]-interface-A.1
| |
| | SuT-component-[B]
| | |
| | +-------------------------[B]-interface-B.1
| | | +---------[B]-interface-B.0
| | ???????????????? | |
| | ? mezzo-system ? | |
+-----------+ ???????????????? +---------------+
| | ~~~~~~~~~~~~~~~~~~~~~~~~ ??? ... ... ??? ~~~~~~~~~~~~~~~~~~~~~~~~ | |
| | ~~<channel [A] to ???>~~ ??? ... ... ??? ~~<channel ??? to [B]>~~ | |
| | ~~~~~~~~~~~~~~~~~~~~~~~~ ??? ... ... ??? ~~~~~~~~~~~~~~~~~~~~~~~~ | |
+-----------+ ???????????????? +---------------+
|
No matter how formal this methodology may seem, it brings both clarity and exactness, when formulating ( the same when designing, testing and validating ) the requirements closely and explicitly related to SuT-components, SuT-interfaces, SuT-channels and also constraints for interactions across exo-system(s), including limitations of responses to an appearance of any external ( typically adverse ) noise/disturbing events.
At the end, and to the benefit of clarity, all parts of the intended SuT-behaviour could be declared against a set of unambiguously defined and documented REFERENCE_POINT(s), for which the standard defines and documents all properties.
A Rule of Thumb :
The LATENCY, most often expressed as a TRANSPORT-LATENCY ( between a pair of REFERENCE_POINTs ) is related to a duration of a trivial / primitive event-propagation across some sort of channel(s), where event-processing does not transform the content of the propagated-event. ( Ref. memory-access latency - does not re-process the data, but just delivers it, taking some time to "make it" )
The PROCESSING is meant as that kind of transforming an event, in some remarkable manner inside a SuT-component.
The RESPONSE TIME ( observed on REFERENCE_POINT(s) of the same SuT-component ) is meant as a resulting duration of some kind of rather complex, End-to-End transaction processing, that is neither a trivial TRANSPORT LATENCY across a channel, nor a simplistic in-SuT-component PROCESSING, but a some sort of composition of several ( potentially many ) such mutually interacting steps, working along the chain of causality ( adding random stimuli, where needed, for representing noise/errors disturbances ). ( Ref. database-engine response-times creep with growing workloads, right due to increased concurrent use of some processing resources, that are needed for such requested information internal retrieval, internal re-processing and for final delivery re-processing, before delivering resulting "answer" to the requesting counter-party )
|
| SuT_[A.0]: REFERENCE_POINT: receives an { external | internal } <sourceEvent>
| /
| / _SuT-[A]-<sourceEvent>-processing ( in SuT-[A] ) DURATION
| / /
| / / _an known-<channel>-transport-LATENCY from REFERENCE_POINT SuT-[A.1] to <mezzo-system> exosystem ( not a part of SuT, yet a part of the ecosystem, in which the SuT has to operate )
| / / /
| / / / _a mezzo-system-(sum of all)-unknown-{ transport-LATENCY | processing-DURATION } duration(s)
| / / / /
| / / / / _SuT_[B.1]: REFERENCE_POINT: receives a propagated <sourceEvent>
| / / / / /
| / / / / / _SuT_[B.0]: REFERENCE_POINT: delivers a result == a re-processed <sourceEvent>
| / / / / | / | /
|/ /| /................ / |/ |/
o<_________>o ~~< chnl from [A.1] >~~? ??? ... ... ??? ?~~<chnl to [B.1]>~~~~~~? o<______________>o
| |\ \ \
| | \ \ \_SuT-[B]-<propagated<sourceEvent>>-processing ( in SuT-[B] ) DURATION
| | \ \
| | \_SuT_[A.1]: REFERENCE_POINT: receives \_an known-<channel>-transport-LATENCY from <mezzo-system to REFERENCE_POINT SuT_[B.1]
| |
| | | |
o<--------->o-----SuT-test( A.0:A.1 ) | |
| | | |
| | o<-------------->o---SuT-test( B.1:B.0 )
| | | |
| o<----may-test( A.1:B.1 )-------------------------------------------->o |
| | exo-system that is outside of your domain of control, | |
| indirectly, using REFERENCE_POINT(s) that you control |
| |
| |
o<-----SuT-End-to-End-test( A.0:B.0 )------------------------------------------------------------->o
| |
Using this ITU-T / CCITT methodology, an example of a well defined RESPONSE TIME test would be a test of completing a transaction, that will measure a net duration between delivering a source-event onto REFERENCE_POINT [A.0] ( entering SuT-component-[A] ) and waiting here until the whole SuT delivers an answer from any remote part(s) ( like a delivery from [A]-to-[B], plus a processing inside a SuT-component-[B] and an answer delivery from [B]-back-to-[A] ) until an intended response is received back on a given REFERENCE_POINT ( be it the same one [A.0] or another, purpose-specific one [A.37] ).
Being as explicit as possible saves potential future mis-understanding ( which the international industry standards fought to avoid since ever ).
So a requirement expressed like:
1) a RESPONSE_TIME( A.0:A.37 ) must be under 125 [ms]
2) a net TRANSPORT LATENCY( A.1:B.1 ) ought exceed 30 [ms]
in less than 0.1% cases per BAU
are clear and sound ( and easy to measure ) and everybody interested can interpret both the SuT-setup and the test-results.
Meeting these unambiguous requirements qualify a such defined SuT-behaviour to safely become compliant with an intended set of behaviours, or let professionals to cheaply detect, document and disqualify those, who do not.