#!/usr/bin/env python from mapping import * ###################################################################################### # file : convol.py (for the convol application) # date : may 2014 # author : Alain Greiner ####################################################################################### # This file describes the mapping of the multi-threaded "convol" # application on a multi-clusters, multi-processors architecture. # This include both the mapping of virtual segments on the clusters, # and the mapping of tasks on processors. # This mapping uses 5 platform parameters, (obtained from the "mapping" argument) # - x_size : number of clusters in a row # - y_size : number of clusters in a column # - x_width : number of bits coding x coordinate # - y_width : number of bits coding y coordinate # - procs_max : number of processors per cluster #################################################################################### ###################### def convol( mapping ): x_size = mapping.x_size y_size = mapping.y_size procs_max = mapping.procs_max x_width = mapping.x_width y_width = mapping.y_width # define vsegs base & size code_base = 0x10000000 code_size = 0x00010000 # 64 Kbytes data_base = 0x20000000 data_size = 0x00010000 # 64 Kbytes ptab_base = 0x30000000 ptab_size = 0x00040000 # 256 Kbytes heap_base = 0x40000000 heap_size = 0x01000000 # max 16 Mbytes (for all clusters) stack_base = 0x50000000 stack_size = 0x02000000 # max 32 Mbytes (for all processors) # create Vspace vspace = mapping.addVspace( name = 'convol', startname = 'conv_data' ) # non replicated vsegs in cluster[0,0] mapping.addVseg( vspace, 'conv_code', code_base , code_size, 'CXWU', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM', binpath = 'build/convol/convol.elf' ) mapping.addVseg( vspace, 'conv_data', data_base , data_size, 'C_WU', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM', binpath = 'build/convol/convol.elf' ) mapping.addVseg( vspace, 'conv_ptab', ptab_base , ptab_size, 'C_WU', vtype = 'PTAB', x = 0, y = 0, pseg = 'RAM', align = 13 ) # distributed heaps: one heap per cluster : size = 16 Mbytes/NCLUSTERS for x in xrange (x_size): for y in xrange (y_size): cluster_id = (x * y_size) + y size = heap_size / (x_size * y_size) base = heap_base + (cluster_id * size) mapping.addVseg( vspace, 'conv_heap_%d_%d' % (x,y), base, size, 'C_WU', vtype = 'BUFFER', x = x , y = y , pseg = 'RAM' ) # distributed stacks: one stack per processor : size = 32 Mbytes/(NCLUSTERS*NPROCS) for x in xrange (x_size): for y in xrange (y_size): for p in xrange( procs_max ): proc_id = (((x * y_size) + y) * procs_max) + p size = stack_size / (x_size * y_size * procs_max) base = stack_base + (proc_id * size) mapping.addVseg( vspace, 'conv_stack_%d_%d_%d' % (x,y,p), base, size, 'C_WU', vtype = 'BUFFER', x = x , y = y , pseg = 'RAM' ) # distributed tasks / one task per processor for x in xrange (x_size): for y in xrange (y_size): for p in xrange( procs_max ): trdid = (((x * y_size) + y) * procs_max) + p mapping.addTask( vspace, 'sort_%d_%d_%d' % (x,y,p), trdid, x, y, p, 'conv_stack_%d_%d_%d' % (x,y,p), 'conv_heap_%d_%d' % (x,y), 0 ) # extend mapping name mapping.name += '_convol' return vspace # useful for test ################################ test ###################################################### if __name__ == '__main__': vspace = convol( Mapping( 'test', 2, 2, 4 ) ) print vspace.xml() # Local Variables: # tab-width: 4; # c-basic-offset: 4; # c-file-offsets:((innamespace . 0)(inline-open . 0)); # indent-tabs-mode: nil; # End: # # vim: filetype=python:expandtab:shiftwidth=4:tabstop=4:softtabstop=4