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Changeset 444

Timestamp:

Nov 3, 2014, 12:40:50 PM (10 years ago)

Author:

alain

Message:

Introducing application "display"

Location:

soft/giet_vm/applications

Files:

: 1 added
: 1 deleted
: 6 edited

convol/main.c (modified) (6 diffs)
display/display.ld (modified) (1 diff)
display/display.py (added)
display/main.c (modified) (1 diff)
display/main_cma.c (deleted)
gameoflife/main.c (modified) (1 diff)
transpose/main.c (modified) (6 diffs)
transpose/transpose.py (modified) (1 diff)

Legend:

: Unmodified
: Added
: Removed

soft/giet_vm/applications/convol/main.c

-                      r432
+                      r444
 // Date   : june 2014
 // author : Alain Greiner
+////////////////////////////////////////////////////////////////////////////////////////////
+// This multi-threaded application application implements a 2D convolution product.
+// The convolution kernel is [201]*[35] pixels, but it can be factored in two
+// independant line and column convolution products.
+// It can run on a multi-processors, multi-clusters architecture, with one thread
+// per processor. It uses the he following hardware parameters, that must be defined
+// in the hard_config.h file:
+// - X_SIZE       : number of clusters in a row
+// - Y_SIZE       : number of clusters in a column
+// - NB_PROCS_MAX : number of processors per cluster
+// - FBUF_X_SIZE  : number of pixels per line in frame buffer
+// - FBUF_Y_SIZE  : number of lines  in frame buffer
+//
+// The (1024 * 1024) pixels image is read from a file (2 bytes per pixel).
 //
+// The "convol" application implements a 2D convolution product.
+// - The number of clusters containing processors must be a power of 2.
+// - The number of processors per cluster must be a power of 2.
 ////////////////////////////////////////////////////////////////////////////////////////////
 …
     unsigned int task_id     = (cluster_id * nprocs) + lpid;  // continuous task index
     unsigned int ntasks      = nclusters * nprocs;            // number of tasks
-    unsigned int npixels     = NB_PIXELS;                     // pixels per frame
     unsigned int frame_size  = FRAME_SIZE;                    // total size (bytes)
     unsigned int nblocks     = frame_size / 512;              // number of blocks per frame
 …
      // parameters checking
+    if ( (NP != FBUF_X_SIZE) || (NL != FBUF_Y_SIZE) )
+    {
+        giet_exit("[TRANSPOSE ERROR] Frame buffer size does not fit image size");
+    }
     if ((nprocs != 1) && (nprocs != 2) && (nprocs != 4))
         giet_exit( "[CONVOL ERROR] NB_PROCS_MAX must be 1, 2 or 4\n");
 …
     if ( (x==0) && (y==0) && (lpid==0) )
+    {
+        // parameters checking
+        if ( (NP != FBUF_X_SIZE) || (NL != FBUF_Y_SIZE) )
+            giet_exit("[TRANSPOSE ERROR] Frame buffer size does not fit image size");
+        if ((nprocs != 1) && (nprocs != 2) && (nprocs != 4))
+            giet_exit( "[CONVOL ERROR] NB_PROCS_MAX must be 1, 2 or 4\n");
+        if ((X_SIZE!=1) && (X_SIZE!=2) && (X_SIZE!=4) && (X_SIZE!=8) && (X_SIZE!=16))
+            giet_exit( "[CONVOL ERROR] X_SIZE must be 1, 2, 4, 8, 16\n");
+        if ((Y_SIZE!=1) && (Y_SIZE!=2) && (Y_SIZE!=4) && (Y_SIZE!=8) && (Y_SIZE!=16))
+            giet_exit( "[CONVOL ERROR] Y_SIZE must be 1, 2, 4, 8, 16\n");
+        if ( NL % nclusters != 0 )
+            giet_exit( "[CONVOL ERROR] NB_CLUSTERS must be a divider of NL");
+        if ( NP % nclusters != 0 )
+            giet_exit( "[CONVOL ERROR] NB_CLUSTERS must be a divider of NP");
         giet_shr_printf("\n[CONVOL] task[0,0,0] starts barrier init at cycle %d\n"
                         "- NB_CLUSTERS     = %d\n"
                         "- NB_LOCAL_PROCS  = %d\n"
+                        "- NB_PROCS_MAX    = %d\n"
                         "- NB_TASKS        = %d\n"
-                        "- NB_PIXELS       = %x\n"
-                        "- FRAME_SIZE      = %x\n"
                         "- NB_BLOCKS       = %x\n",
+                        giet_proctime(), nclusters, nprocs, ntasks,
+                        npixels, frame_size, nblocks );
+                        giet_proctime(), nclusters, nprocs, ntasks, nblocks );
 #if USE_SBT_BARRIER
         sbt_barrier_init( &barrier, ntasks );
 …
+            }
             giet_fb_sync_write( NP*(l + (task_id * lines_per_task) ),
                                 &TZ(cluster_id, line, 0),
                                 NP);
+            giet_fbf_sync_write( NP*(l + (task_id * lines_per_task) ),
+                                 &TZ(cluster_id, line, 0),
+                                 NP);
+        }
 …
+            }
             giet_fb_sync_write( NP*(l + (task_id * lines_per_task) ),
                                 &TZ(cluster_id, line, 0),
                                 NP);
+            giet_fbf_sync_write( NP*(l + (task_id * lines_per_task) ),
+                                 &TZ(cluster_id, line, 0),
+                                 NP);
+        }

soft/giet_vm/applications/display/display.ld

-                      r258
+                      r444
 *****************************************************************************/
 seg_code_base      = 0x00400000;
 seg_data_base      = 0x00500000;
+seg_code_base      = 0x10000000;
+seg_data_base      = 0x20000000;
 /***************************************************************************

soft/giet_vm/applications/display/main.c

-                      r297
+                      r444
+#include "stdio.h"
+#include "hard_config.h"
+ ///////////////////////////////////////////////////////////////////////////////
+//  file   : main.c  (for display application)
+//  date   : may 2014
+//  author : Alain Greiner
+///////////////////////////////////////////////////////////////////////////////////////
+//  This file describes the single thread "display" application.
+//  It uses the external chained buffer DMA to display a stream
+//  of images on the frame buffer.
+///////////////////////////////////////////////////////////////////////////////////////
+#define NBLOCKS 32   // (128 * 128) / 512
+#include <stdio.h>
+#include <hard_config.h>
+unsigned char buf[128*128] __attribute__((aligned(512)));
+#define FILENAME    "misc/images.raw"
+#define NPIXELS     128
+#define NLINES      128
+#define NIMAGES     10
+#define NBLOCKS     (NPIXELS*NLINES/512)   // number of blocks per image
+unsigned char buf0[NPIXELS*NLINES] __attribute__((aligned(512)));
+unsigned char buf1[NPIXELS*NLINES] __attribute__((aligned(512)));
+////////////////////////////////////////////
 __attribute__((constructor)) void main()
+{
+////////////////////////////////////////////
+{
+    // get processor identifiers
+    unsigned int    x;
+    unsigned int    y;
+    unsigned int    lpid;
+    giet_proc_xyp( &x, &y, &lpid );
     int             fd;
+    int             blocks;
+    unsigned int    ko;
+    unsigned int    blocks_to_skip = 8*NBLOCKS;
+    unsigned int    image = 0;
+    unsigned int    procid     = giet_procid();
+    unsigned int    cluster_xy = procid/NB_PROCS_MAX;
+    unsigned int    lpid       = procid%NB_PROCS_MAX;
+    unsigned int    x          = cluster_xy >> Y_WIDTH;
+    unsigned int    y          = cluster_xy & ((1<<Y_WIDTH)-1);
+    giet_tty_printf( "*** Starting task display on processor[%d,%d,%d] at cycle %d\n\n",
+                      x, y, lpid, giet_proctime() );
+    ///////////////////////////////////////////
+    fd = giet_fat_open( "misc/images.raw", 0 );
+    if ( fd < 0 ) giet_exit("echec giet_fat_open for misc/images.raw");
+    giet_tty_printf("\ngiet_fat_open completed for misc/images.raw at cycle %d\n",
+                    giet_proctime() );
+    /////////////////////////////////////////
+    while ( blocks_to_skip < (10 * NBLOCKS) )
+    // parameters checking
+    if ( (NPIXELS != FBUF_X_SIZE) || (NLINES != FBUF_Y_SIZE) )
+    {
+        // lecture image sur le disque
+        giet_fat_read( fd, buf, NBLOCKS, blocks_to_skip );
+        giet_tty_printf("\ngiet_fat_read for image %d completed at cycle %d \n",
+                        (blocks_to_skip>>5), giet_proctime());
+        // transfert vers le frame buffer
+        giet_fb_sync_write( 0, buf, 128 * 128 );
+        giet_tty_printf("\ndisplay completed for image %d at cycle %d \n",
+                        (blocks_to_skip>>5), giet_proctime());
+        blocks_to_skip = blocks_to_skip + NBLOCKS;
+        giet_exit("[DISPLAY ERROR] Frame buffer size does not fit image size");
+    }
+    giet_exit("completed");
+    giet_shr_printf("\n[DISPLAY] Processor[%d,%d,%d] starts at cycle %d\n",
+                    x, y, lpid, giet_proctime() );
+    // open file
+    fd = giet_fat_open( FILENAME , 0 );
+    if ( fd < 0 )
+    {
+        giet_exit("echec giet_fat_open for misc/images.raw");
+    }
+    else
+    {
+        giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] open file %s at cycle %d\n",
+                    x, y, lpid, FILENAME, giet_proctime() );
+    }
+    // get a Chained Buffer DMA channel
+    giet_fbf_cma_alloc();
+    // start Chained Buffer DMA channel
+    giet_fbf_cma_start( buf0, buf1, NPIXELS*NLINES );
+    giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] starts CMA at cycle %d\n",
+                    x, y, lpid, giet_proctime() );
+    // Main loop (on images)
+    while ( image < NIMAGES )
+    {
+        giet_fat_read( fd, buf0, NBLOCKS, image*NBLOCKS );
+        giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] load image %d to buf0 at cycle %d\n",
+                        x, y, lpid, image, giet_proctime() );
+        giet_fbf_cma_display( 0 );
+        giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] display image %d from buf0 at cycle %d\n",
+                        x, y, lpid, image, giet_proctime() );
+        image++;
+        giet_fat_read( fd, buf1, NBLOCKS, image*NBLOCKS );
+        giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] load image %d to buf1 at cycle %d\n",
+                        x, y, lpid, image, giet_proctime() );
+        giet_fbf_cma_display( 1 );
+        giet_shr_printf("\n[DISPLAY] Proc[%d,%d,%d] display image %d from buf1 at cycle %d\n",
+                        x, y, lpid, image, giet_proctime() );
+        image++;
+    }
+    // stop Chained buffer DMA channel
+    giet_fbf_cma_stop();
+    giet_exit("display completed");
+}

soft/giet_vm/applications/gameoflife/main.c

r432	r444
106	106	}
107	107
108		giet_fb_sync_write( base_line * WIDTH ,
	108	giet_fbf_sync_write( base_line * WIDTH ,
109	109	&world[NEW][base_line][0],
110	110	nb_line * WIDTH);

soft/giet_vm/applications/transpose/main.c

-                      r432
+                      r444
 ///////////////////////////////////////////////////////////////////////////////////////////////
+/////////////////////////////////////////////////////////////////////////////////////////////
 // File   : main.c   (for transpose application)
 // Date   : february 2014
 // author : Alain Greiner
+//
+// This application makes a transpose for a NN*NN pixels sequence of images.
+/////////////////////////////////////////////////////////////////////////////////////////////
+// This multi-threaded application makes a transpose for a NN*NN pixels sequence of images.
+// It can run on a multi-processors, multi-clusters architecture, with one thread
+// per processor. It uses the he following hardware parameters, that must be defined
+// in the hard_config.h file:
+// - X_SIZE       : number of clusters in a row
+// - Y_SIZE       : number of clusters in a column
+// - NB_PROCS_MAX : number of processors per cluster
+// - FBUF_X_SIZE  : number of pixels per line in frame buffer
+// - FBUF_Y_SIZE  : number of lines  in frame buffer
+//
 // The image sequence is read from a file (one byte per pixel).
 // The input and output buffers containing the image are distributed in all clusters.
 //
 // - The image size NN must be a power of 2.
+// - The image size NN must be a power of 2 and must fit the frame buffer size.
 // - The number of clusters containing processors must be a power of 2.
 // - The number of processors per cluster (NB_PROCS_MAX) must be a power of 2.
+// - The number of processors per cluster must be a power of 2.
 // - The image size NN must be larger or equal to the total number of processor.
 //
 // For each image the application makes a self test (checksum for each line).
 // The actual display on the frame buffer depends on frame buffer availability.
 ///////////////////////////////////////////////////////////////////////////////////////////////
+/////////////////////////////////////////////////////////////////////////////////////////////
 #include "hard_config.h"
 …
 #define NN                  128                 // image size : nlines = npixels = 128
 #define NB_IMAGES           2                   // number of images to be handled
+#define NB_IMAGES           5                   // number of images to be handled
 #define FILE_PATHNAME       "misc/images.raw"   // file pathname on disk
 #define NB_CLUSTERS         (X_SIZE * Y_SIZE)   // number of clusters
 …
 giet_barrier_t barrier;
 volatile unsigned int init_ok = 1;
+volatile unsigned int init_ok = 0;
 //////////////////////////////////////////
 …
+    {
         // Parameters checking
+        if ( (NN != FBUF_X_SIZE) || (NN != FBUF_Y_SIZE) )
+        {
+            giet_exit("[TRANSPOSE ERROR] Frame buffer size does not fit image size");
+        }
         if ((NB_PROCS_MAX != 1) && (NB_PROCS_MAX != 2) && (NB_PROCS_MAX != 4))
+        {
 …
             giet_shr_printf("\n[TRANSPOSE] Proc [0,0,0] open file misc/images.raw\n");
+        }
         init_ok = 0;
+        init_ok = 1;
+    }
     else   // others processors wait initialisation completion
+    {
+        while ( init_ok == 1 );
+        giet_shr_printf("\n[TRANSPOSE] Processor[%d,%d,%d] starts at cycle %d\n", x, y, lpid);
+        while ( init_ok == 0 );
+        giet_shr_printf("\n[TRANSPOSE] Processor[%d,%d,%d] starts at cycle %d\n",
+                        x, y, lpid, giet_proctime() );
+    }
 …
             unsigned int  npt   = npixels / ntasks;   // number of pixels per task
             giet_fb_sync_write( npt * task_id,
                                 &buf_out[cluster_id][lpid*npt],
                                 npt );
+            giet_fbf_sync_write( npt * task_id,
+                                 &buf_out[cluster_id][lpid*npt],
+                                 npt );
             if ( lpid == 0 )

soft/giet_vm/applications/transpose/transpose.py

r432	r444
25	25	x_size = mapping.x_size
26	26	y_size = mapping.y_size
27		nprocs = mapping.nprocs
	27	nprocs = mapping.nprocs
28	28	x_width = mapping.x_width
29	29	y_width = mapping.y_width

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