Loading…

Incorporating memory layout in the modeling of message passing programs

One of the most fundamental tasks of an automatic parallelization tool is to find an optimal domain decomposition for a given application. For regular domain problems (such as simple matrix manipulations) this task may seem trivial. However, communication costs in message passing programs often sign...

Full description

Saved in:
Bibliographic Details
Main Authors: Seinstra, F.J., Koelma, D.
Format: Conference Proceeding
Language:English
Subjects:
Online Access:Request full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:One of the most fundamental tasks of an automatic parallelization tool is to find an optimal domain decomposition for a given application. For regular domain problems (such as simple matrix manipulations) this task may seem trivial. However, communication costs in message passing programs often significantly depend on the memory layout of data blocks to be transmitted. As a consequence, straightforward domain decompositions may be non-optimal. In this paper we introduce a new point-to-point communication model (called P-3PC) that is specifically designed to overcome this problem. In comparison with related models (e.g., LogGP) P-3PC is similar in complexity, but more accurate in many situations. Although the model is aimed at MPI's standard point-to-point operations, it is applicable to similar message passing definitions as well. The effectiveness of the model is tested in a framework for automatic parallelization of imaging applications. Experiments are performed on two Beowulf-type systems, each having a different interconnection network, and a different MPI implementation. Results show that, where other models frequently fail, P-3PC correctly predicts the communication costs related to any type of domain decomposition.
DOI:10.1109/EMPDP.2002.994294