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DAGGEN: A synthethic task graph generator
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DAGGEN: A synthetic task graph generator This program generates random, synthetic task graphs for the purpose of simulation. This is useful, for instance, to evaluate scheduling algorithms that must be tested over a wide range of application configurations. The program outputs files that describe DAGs as set of nodes in two different formats. First we define an intuitive file format whose basic line format is NODE <index> <children list> <node type> <node cost> <parallelization overhead> Nodes can have four different types: * ROOT A unique artificial entry node with zero cost with no predecessor and with the DAG's entry node(s) as successor(s). * COMPUTATION A computation task is defined by an index, a list of children (transfers to dependent tasks), a sequential cost (in Flop), and an extra parameter that can be used for whatever purposes. For instance, we used that parameter to encode the overhead of parallelization of tasks (e.g., the alpha parameter of Amdahl's Law) in parallel task graphs. * TRANSFER A communication task is defined by an index, one child (the receiving task), and an amount of data (in Bytes) * END A unique artificial exit node with zero cost with no successor and with the DAG's exit node(s) as predecessor(s). The second available format is the popular DOT format. This output format is activated by adding the --dot flag to the command line. In this format, the dummy 'ROOT' and 'END' nodes are not produced. The basic line for a COMPUTATION is <index> [size="<node cost>", alpha="parallelization overhead"] while that for a TRANSFER is <src_index> -> <dst_index> [size ="<node_cost>"] DAGGEN generates task graphs based on the following popular parameters: --n Number of computation nodes in the DAG (i.e., application "tasks") --mindata Minimum size of data processed by a task --maxdata Maximum size of data processed by a task --minalpha Minimum value for extra parameter (e.g., Amdahl's law parameter) --maxalpha Minimum value for extra parameter (e.g., Amdahl's law parameter) --fat Width of the DAG, that is maximum number of tasks that can be executed concurrently. A small value will lead to a thin DAG (e.g., chain) with a low task parallelism, while a large value induces a fat DAG (e.g., fork-join) with a high degree of parallelism --density Determines the numbers of dependencies between taks of two consecutive DAG levels. --regular Regularity of the distribution of tasks between the different levels of the DAG --ccr Communication to computation ratio. In the current version this parameter in fact merely encodes the complexity of the computation of a task depending on the number of elements in the dataset if processes, n. This number of elements depend on the amount of data processed by a task. The encoding is as follows: 1 : a . n (a is a constant picked randomly between 26 and 29) 2 : a . n log n 3 : n3/2 0 : Random choice among the three complexities --jump Maximum number of levels spanned by inter-task communications. This allows to generate DAGs with execution paths of different lengths DAGGEN creates random DAGs through the following process: 1) Generate the tasks a) Determine the perfect number of tasks per levels in the DAG according to the values of the -n and --fat parameters: e fat * log(n) b) Assign a number of tasks per level according to the --regular parameter. Pick a random number around the perfect value with (100*(1-regular))% of latitude. For example, if regular is equal to 0.2, the number of tasks will be picked within [0.2*perfect; 1.8*perfect]. c) Assign a cost to each task. This depends on --mindata, --maxdata (to determine the size of the handled data) and --ccr. d) Pick a random alpha between --minalpha and --maxalpha 2) Generate the dependencies. For each task we randomly assign a number of parents according to --density. The number of parents of a given tasks is then given by MIN(1+random(0, density * #tasks in previous level), #tasks in previous level). The --jump parameter allows the generator to select a parents in a level at a "jump" distance. Each parent is then randomly determined in the selected level. 3) Add Transfer costs. These costs derive from the size of the data handled by the initiator of the transfer.
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