1 | ///////////////////////////////////////////////////////////////////////////////////////////// |
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2 | // File : main.c (for router application) |
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3 | // Date : november 2014 |
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4 | // author : Alain Greiner |
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5 | ///////////////////////////////////////////////////////////////////////////////////////////// |
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6 | // This multi-threaded application emulates a packet routing communication application, |
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7 | // described as a TCG (Task and Communication Graph). |
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8 | // It contains 2 + N tasks : one "producer", one "consumer" and N "router") |
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9 | // It contains 2 MWMR channels : "fifo_in" and "fifo_out". |
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10 | // - The "producer" task writes NMAX token into "fifo_in". |
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11 | // - The N "router" tasks read token from "fifo_in" and write them into "fifo_out". |
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12 | // - The "consumer" task read token from "fifo_out" and displays instrumentation results. |
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13 | // Token are indexed (by the producer) from 0 to NMAX-1. |
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14 | // The router task contain a random delay emulating a variable processing time. |
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15 | // |
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16 | // This application is intended to run on a multi-processors, multi-clusters architecture, |
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17 | // with one thread per processor. |
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18 | // |
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19 | // It uses the he following hardware parameters, defined in the hard_config.h file: |
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20 | // - X_SIZE : number of clusters in a row |
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21 | // - Y_SIZE : number of clusters in a column |
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22 | // - NB_PROCS_MAX : number of processors per cluster |
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23 | // |
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24 | // There is two global arrays (indexed by the token index) for insrumentation: |
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25 | // - The "router_tab" array is filled concurrently by all "router" tasks. |
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26 | // Each entry contains the processor index that routed the token. |
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27 | // - The "consumer_tab" array is filled by the "consumer" task. |
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28 | // Each entry contain the arrival order to the consumer task. |
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29 | ///////////////////////////////////////////////////////////////////////////////////////////// |
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30 | |
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31 | #include "stdio.h" |
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32 | #include "mwmr_channel.h" |
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33 | #include "mapping_info.h" |
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34 | #include "hard_config.h" |
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35 | |
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36 | |
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37 | #define NMAX 50 // total number of token |
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38 | #define DEPTH 20 // MWMR channels depth |
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39 | |
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40 | //////////////// MWMR channels ///////////////////////////////////////////// |
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41 | |
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42 | __attribute__((section (".data_in"))) mwmr_channel_t fifo_in; |
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43 | __attribute__((section (".data_out"))) mwmr_channel_t fifo_out; |
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44 | |
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45 | //////////////// Instrumentation Counters ////////////////////////////////// |
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46 | |
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47 | __attribute__((section (".data_out"))) unsigned int consumer_tab[NMAX]; |
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48 | __attribute__((section (".data_out"))) unsigned int router_tab[NMAX]; |
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49 | |
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50 | |
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51 | |
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52 | ///////////////////////////////////////////// |
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53 | __attribute__ ((constructor)) void producer() |
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54 | { |
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55 | |
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56 | unsigned int n; |
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57 | unsigned int buf; |
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58 | |
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59 | // get processor identifiers |
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60 | unsigned int x; |
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61 | unsigned int y; |
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62 | unsigned int lpid; |
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63 | giet_proc_xyp( &x, &y, &lpid ); |
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64 | |
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65 | giet_shr_printf("\n*** Starting task producer on P[%d,%d,%d] at cycle %d\n", |
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66 | x, y, lpid, giet_proctime() ); |
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67 | |
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68 | // initializes fifo_in |
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69 | mwmr_init( &fifo_in, 1 , DEPTH ); |
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70 | |
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71 | // main loop : display token value = source index |
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72 | for(n = 0 ; n < NMAX ; n++) |
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73 | { |
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74 | buf = n; |
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75 | mwmr_write( &fifo_in , &buf , 1 ); |
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76 | } |
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77 | |
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78 | giet_exit( "Producer task completed"); |
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79 | |
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80 | } // end producer() |
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81 | |
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82 | ///////////////////////////////////////////// |
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83 | __attribute__ ((constructor)) void consumer() |
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84 | { |
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85 | unsigned int n; |
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86 | unsigned int buf; |
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87 | |
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88 | // get processor identifiers |
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89 | unsigned int x; |
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90 | unsigned int y; |
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91 | unsigned int lpid; |
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92 | giet_proc_xyp( &x, &y, &lpid ); |
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93 | |
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94 | giet_shr_printf("\n*** Starting task consumer on P[%d,%d,%d] at cycle %d\n", |
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95 | x, y, lpid, giet_proctime() ); |
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96 | |
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97 | // initializes fifo_out |
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98 | mwmr_init( &fifo_out, 1 , DEPTH ); |
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99 | |
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100 | // main loop : register token arrival index and value |
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101 | for( n = 0 ; n < NMAX ; n++ ) |
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102 | { |
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103 | mwmr_read( &fifo_out , &buf , 1 ); |
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104 | consumer_tab[n] = buf; |
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105 | } |
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106 | |
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107 | // instrumentation display |
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108 | giet_shr_printf("\n"); |
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109 | for( n = 0 ; n < NMAX ; n++ ) |
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110 | { |
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111 | giet_shr_printf("@@@ arrival = %d / value = %d / router = %x\n", |
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112 | n, consumer_tab[n], router_tab[n] ); |
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113 | } |
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114 | |
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115 | giet_exit( "Consumer task completed"); |
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116 | |
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117 | } // end consumer() |
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118 | |
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119 | /////////////////////////////////////////// |
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120 | __attribute__ ((constructor)) void router() |
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121 | { |
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122 | unsigned int buf; |
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123 | unsigned int n; |
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124 | unsigned int tempo; |
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125 | |
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126 | // get processor identifiers |
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127 | unsigned int x; |
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128 | unsigned int y; |
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129 | unsigned int lpid; |
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130 | giet_proc_xyp( &x, &y, &lpid ); |
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131 | |
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132 | giet_shr_printf("\n*** Starting task router on P[%d,%d,%d] at cycle %d\n", |
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133 | x, y, lpid, giet_proctime() ); |
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134 | |
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135 | // waiting fifo_in and fifo_out initialisation |
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136 | while( (fifo_in.depth == 0) || (fifo_out.depth == 0) ) asm volatile( "nop" ); |
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137 | |
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138 | // main loop |
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139 | while(1) |
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140 | { |
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141 | mwmr_read( &fifo_in , &buf , 1 ); |
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142 | |
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143 | tempo = giet_rand(); |
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144 | for ( n = 0 ; n < tempo ; n++ ) asm volatile ( "nop" ); |
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145 | |
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146 | router_tab[buf] = (x<<(Y_WIDTH + P_WIDTH)) + (y<<P_WIDTH) + lpid; |
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147 | |
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148 | mwmr_write( &fifo_out , &buf , 1 ); |
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149 | } |
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150 | } // end router |
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