X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/57ede4de69c189960532a287ae2f2f7779b11650..5937b88aaa18de687b2de15a97ee3ae0dc480f64:/docs/source/main_concepts.rst diff --git a/docs/source/main_concepts.rst b/docs/source/main_concepts.rst index 051dddd81d..fa5841217c 100644 --- a/docs/source/main_concepts.rst +++ b/docs/source/main_concepts.rst @@ -3,7 +3,7 @@ What is SimGrid =============== -SimGrid is a framework to simulate distributed computer systems. +SimGrid is a framework to simulate distributed computer systems. It can be used to either assess abstract algorithms, or to profile and debug real distributed applications. SimGrid enables studies in the @@ -40,7 +40,7 @@ Any SimGrid study entails the following components: - The studied **Application**. This can be either a distributed algorithm described in our simple APIs, or a full featured real - parallel application using for example the MPI interface + parallel application using for example the MPI interface @ref application "(more info)". - The **Virtual Platform**. This is a description of a given @@ -134,7 +134,7 @@ arrives first, and then rewind to the same point to explore the scenario where B arrives first. This is a very powerful mode, where you can evaluate the correction of -your application. It can verify either **safety properties** (asserts) +your application. It can verify either **safety properties** (asserts) or **liveless properties** stating for example that if a given event occures, then another given event will occur in a finite amount of steps. This mode is not only usable with the abstract algorithms @@ -184,7 +184,7 @@ SimGrid Limits -------------- This framework is by no means the perfect holly grail able to solve -every problem on earth. +every problem on earth. ** **SimGrid scope is limited to distributed systems.** Real-time multithreaded systems are not in the scope. You could probably tweak @@ -192,7 +192,7 @@ SimGrid for such studies (or the framework could possibily be extended in this direction), but another framework specifically targeting this usecase would probably be more suited. -** **There is currently no support for IoT studies and wireless networks**. +** **There is currently no support for IoT studies and wireless networks**. The framework could certainly be improved in this direction, but this is still to be done. @@ -200,7 +200,7 @@ is still to be done. The SimGrid models target fast, large studies yet requesting a realistic results. In particular, our models abstract away parameters and phenomenon that are often irrelevant to the realism in our -context. +context. SimGrid is simply not intended to any study that would mandate the abstracted phenomenon. Here are some **studies that you should not do @@ -220,9 +220,9 @@ SimGrid was cited in over 1,500 scientific papers (according to Google Scholar). Among them `over 200 publications `_ (written by about 300 individuals) use SimGrid as a scientific -instrument to conduct their experimental evaluation. These +instrument to conduct their experimental evaluation. These numbers do not count the articles contributing to SimGrid. -This instrument was used in many research communities, such as +This instrument was used in many research communities, such as `High-Performance Computing `_, `Cloud Computing `_, `Workflow Scheduling `_, @@ -242,7 +242,7 @@ If your platform description is accurate enough (see SimGrid can provide high-quality performance predictions. For example, we determined the speedup achieved by the Tibidabo Arm-based cluster before its construction -(`paper `_). In this case, +(`paper `_). In this case, some differences between the prediction and the real timings were due to misconfiguration or other problems with the real platforms. To some extent, SimGrid could even be used to debug the real platform :)