source: soft/giet_vm/applications/router/main.c @ 455

Last change on this file since 455 was 451, checked in by alain, 10 years ago

Modify the "router" application to support the
explicit declaration and initialisation of the MWMR channels
by the user application itself.
Introduce the file "router.py"

File size: 4.8 KB
Line 
1/////////////////////////////////////////////////////////////////////////////////////////////
2// File   : main.c   (for router application)
3// Date   : november 2014
4// author : Alain Greiner
5/////////////////////////////////////////////////////////////////////////////////////////////
6// This multi-threaded application emulates a packet routing communication application,
7// described as a TCG (Task and Communication Graph).
8// It contains 2 + N tasks : one "producer", one "consumer" and N "router")
9// It contains 2 MWMR channels : "fifo_in" and "fifo_out".
10// - The "producer" task writes NMAX token into "fifo_in".
11// - The N "router" tasks read token from "fifo_in" and write them into "fifo_out".
12// - The "consumer" task read token from "fifo_out" and displays instrumentation results.
13// Token are indexed (by the producer) from 0 to NMAX-1.
14// The router task contain a random delay emulating a variable processing time.
15//
16// This application is intended to run on a multi-processors, multi-clusters architecture,
17//  with one thread per processor.
18//
19// It uses the he following hardware parameters, defined in the hard_config.h file:
20// - X_SIZE       : number of clusters in a row
21// - Y_SIZE       : number of clusters in a column
22// - NB_PROCS_MAX : number of processors per cluster
23//
24// There is two global arrays (indexed by the token index) for insrumentation:
25// - The "router_tab" array is filled concurrently by all "router" tasks.
26//   Each entry contains the processor index that routed the token.
27// - The "consumer_tab" array is filled by the "consumer" task.
28//   Each entry contain the arrival order to the consumer task.
29/////////////////////////////////////////////////////////////////////////////////////////////
30
31#include "stdio.h"
32#include "mwmr_channel.h"
33#include "mapping_info.h"
34#include "hard_config.h"
35
36
37#define NMAX   50                       // total number of token
38#define DEPTH  20           // MWMR channels depth
39
40//////////////// MWMR channels /////////////////////////////////////////////
41
42__attribute__((section (".data_in")))  mwmr_channel_t fifo_in;
43__attribute__((section (".data_out"))) mwmr_channel_t fifo_out;
44 
45//////////////// Instrumentation Counters //////////////////////////////////
46
47__attribute__((section (".data_out")))  unsigned int consumer_tab[NMAX];
48__attribute__((section (".data_out")))  unsigned int router_tab[NMAX];
49
50
51
52/////////////////////////////////////////////
53__attribute__ ((constructor)) void producer()
54{
55
56    unsigned int        n;
57    unsigned int        buf;
58
59    // get processor identifiers
60    unsigned int    x;
61    unsigned int    y;
62    unsigned int    lpid;
63    giet_proc_xyp( &x, &y, &lpid );
64
65    giet_shr_printf("\n*** Starting task producer on P[%d,%d,%d] at cycle %d\n", 
66                    x, y, lpid, giet_proctime() );
67
68    // initializes fifo_in
69    mwmr_init( &fifo_in, 1 , DEPTH );
70
71    // main loop : display token value = source index
72    for(n = 0 ; n < NMAX ; n++) 
73    { 
74        buf = n;
75        mwmr_write( &fifo_in , &buf , 1 );
76    }
77
78    giet_exit( "Producer task completed");
79
80} // end producer()
81
82/////////////////////////////////////////////
83__attribute__ ((constructor)) void consumer()
84{
85    unsigned int        n;
86    unsigned int        buf;
87
88    // get processor identifiers
89    unsigned int    x;
90    unsigned int    y;
91    unsigned int    lpid;
92    giet_proc_xyp( &x, &y, &lpid );
93
94    giet_shr_printf("\n*** Starting task consumer on P[%d,%d,%d] at cycle %d\n", 
95                    x, y, lpid, giet_proctime() );
96
97    // initializes fifo_out
98    mwmr_init( &fifo_out, 1 , DEPTH );
99
100    // main loop : register token arrival index and value
101    for( n = 0 ; n < NMAX ; n++ ) 
102    { 
103        mwmr_read( &fifo_out , &buf , 1 );
104        consumer_tab[n] = buf;
105    }
106
107    // instrumentation display
108    giet_shr_printf("\n");
109    for( n = 0 ; n < NMAX ; n++ )
110    {
111        giet_shr_printf("@@@ arrival = %d / value = %d / router = %x\n",
112                        n, consumer_tab[n], router_tab[n] );
113    }
114
115    giet_exit( "Consumer task completed");
116
117} // end consumer()
118
119///////////////////////////////////////////
120__attribute__ ((constructor)) void router()
121{
122    unsigned int        buf;
123    unsigned int        n;
124    unsigned int        tempo;
125
126    // get processor identifiers
127    unsigned int    x;
128    unsigned int    y;
129    unsigned int    lpid;
130    giet_proc_xyp( &x, &y, &lpid );
131
132    giet_shr_printf("\n*** Starting task router on P[%d,%d,%d] at cycle %d\n", 
133                    x, y, lpid, giet_proctime() );
134
135    // waiting fifo_in and fifo_out initialisation
136    while( (fifo_in.depth == 0) || (fifo_out.depth == 0) ) asm volatile( "nop" ); 
137
138    // main loop
139    while(1)
140    {
141        mwmr_read( &fifo_in , &buf , 1 );
142
143        tempo = giet_rand();
144        for ( n = 0 ; n < tempo ; n++ ) asm volatile ( "nop" );
145
146        router_tab[buf] = (x<<(Y_WIDTH + P_WIDTH)) + (y<<P_WIDTH) + lpid;
147
148        mwmr_write( &fifo_out , &buf , 1 );
149    }
150} // end router
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