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source: trunk/softs/test_llsc/top.cpp @ 546

Last change on this file since 546 was 546, checked in by meunier, 11 years ago
Rajout du composant Sim Helper dans le répertoire soft/test_llsc pour l'outil de test automatisé du LL/SC
File size: 38.9 KB

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1	/////////////////////////////////////////////////////////////////////////
2	// File: top.cpp
3	// Author: Alain Greiner
4	// Copyright: UPMC/LIP6
5	// Date : may 2013
6	// This program is released under the GNU public license
7	/////////////////////////////////////////////////////////////////////////
8	// This file define a generic TSAR architecture.
9	// The physical address space is 40 bits.
10	//
11	// The number of clusters cannot be larger than 256.
12	// The number of processors per cluster cannot be larger than 8.
13	//
14	// - It uses four dspin_local_crossbar per cluster as local interconnect
15	// - It uses two virtual_dspin routers per cluster as global interconnect
16	// - It uses the vci_cc_vcache_wrapper
17	// - It uses the vci_mem_cache
18	// - It contains one vci_xicu per cluster.
19	// - It contains one vci_multi_dma per cluster.
20	// - It contains one vci_simple_ram per cluster to model the L3 cache.
21	//
22	// The communication between the MemCache and the Xram is 64 bits.
23	//
24	// All clusters are identical, but the cluster 0 (called io_cluster),
25	// contains 6 extra components:
26	// - the boot rom (BROM)
27	// - the disk controller (BDEV)
28	// - the multi-channel network controller (MNIC)
29	// - the multi-channel chained buffer dma controller (CDMA)
30	// - the multi-channel tty controller (MTTY)
31	// - the frame buffer controller (FBUF)
32	//
33	// It is build with one single component implementing a cluster,
34	// defined in files tsar_xbar_cluster.* (with * = cpp, h, sd)
35	//
36	// The IRQs are connected to XICUs as follow:
37	// - The IRQ_IN[0] to IRQ_IN[7] ports are not used in all clusters.
38	// - The DMA IRQs are connected to IRQ_IN[8] to IRQ_IN[15] in all clusters.
39	// - The TTY IRQs are connected to IRQ_IN[16] to IRQ_IN[30] in I/O cluster.
40	// - The BDEV IRQ is connected to IRQ_IN[31] in I/O cluster.
41	//
42	// Some hardware parameters are used when compiling the OS, and are used
43	// by this top.cpp file. They must be defined in the hard_config.h file :
44	// - CLUSTER_X : number of clusters in a row (power of 2)
45	// - CLUSTER_Y : number of clusters in a column (power of 2)
46	// - CLUSTER_SIZE : size of the segment allocated to a cluster
47	// - NB_PROCS_MAX : number of processors per cluster (power of 2)
48	// - NB_DMA_CHANNELS : number of DMA channels per cluster (< 9)
49	// - NB_TTY_CHANNELS : number of TTY channels in I/O cluster (< 16)
50	// - NB_NIC_CHANNELS : number of NIC channels in I/O cluster (< 9)
51	//
52	// Some other hardware parameters are not used when compiling the OS,
53	// and can be directly defined in this top.cpp file:
54	// - XRAM_LATENCY : external ram latency
55	// - MEMC_WAYS : L2 cache number of ways
56	// - MEMC_SETS : L2 cache number of sets
57	// - L1_IWAYS
58	// - L1_ISETS
59	// - L1_DWAYS
60	// - L1_DSETS
61	// - FBUF_X_SIZE : width of frame buffer (pixels)
62	// - FBUF_Y_SIZE : heigth of frame buffer (lines)
63	// - BDEV_SECTOR_SIZE : block size for block drvice
64	// - BDEV_IMAGE_NAME : file pathname for block device
65	// - NIC_RX_NAME : file pathname for NIC received packets
66	// - NIC_TX_NAME : file pathname for NIC transmited packets
67	// - NIC_TIMEOUT : max number of cycles before closing a container
68	/////////////////////////////////////////////////////////////////////////
69	// General policy for 40 bits physical address decoding:
70	// All physical segments base addresses are multiple of 1 Mbytes
71	// (=> the 24 LSB bits = 0, and the 16 MSB bits define the target)
72	// The (x_width + y_width) MSB bits (left aligned) define
73	// the cluster index, and the LADR bits define the local index:
74	// \| X_ID \| Y_ID \|---\| LADR \| OFFSET \|
75	// \|x_width\|y_width\|---\| 8 \| 24 \|
76	/////////////////////////////////////////////////////////////////////////
77	// General policy for 14 bits SRCID decoding:
78	// Each component is identified by (x_id, y_id, l_id) tuple.
79	// \| X_ID \| Y_ID \|---\| L_ID \|
80	// \|x_width\|y_width\|---\| 6 \|
81	/////////////////////////////////////////////////////////////////////////
82
83	#include <systemc>
84	#include <sys/time.h>
85	#include <iostream>
86	#include <sstream>
87	#include <cstdlib>
88	#include <cstdarg>
89	#include <stdint.h>
90
91	#include "gdbserver.h"
92	#include "mapping_table.h"
93	#include "tsar_xbar_cluster.h"
94	#include "alloc_elems.h"
95
96	///////////////////////////////////////////////////
97	// OS
98	///////////////////////////////////////////////////
99
100	//#define USE_ALMOS
101	#define USE_GIET
102
103	#ifdef USE_ALMOS
104	#ifdef USE_GIET
105	#error "Can't use Two different OS"
106	#endif
107	#endif
108
109	#ifndef USE_ALMOS
110	#ifndef USE_GIET
111	#error "You need to specify one OS"
112	#endif
113	#endif
114
115	///////////////////////////////////////////////////
116	// Parallelisation
117	///////////////////////////////////////////////////
118	#define USE_OPENMP 0
119
120	#if USE_OPENMP
121	#include <omp.h>
122	#endif
123
124	// cluster index (computed from x,y coordinates)
125	#define cluster(x,y) (y + YMAX * x)
126
127	#define min(x, y) (x < y ? x : y)
128
129	///////////////////////////////////////////////////////////
130	// DSPIN parameters
131	///////////////////////////////////////////////////////////
132
133	#define dspin_cmd_width 39
134	#define dspin_rsp_width 32
135
136	///////////////////////////////////////////////////////////
137	// VCI parameters
138	///////////////////////////////////////////////////////////
139
140	#define vci_cell_width_int 4
141	#define vci_cell_width_ext 8
142
143	#ifdef USE_ALMOS
144	#define vci_address_width 32
145	#endif
146	#ifdef USE_GIET
147	#define vci_address_width 40
148	#endif
149	#define vci_plen_width 8
150	#define vci_rerror_width 1
151	#define vci_clen_width 1
152	#define vci_rflag_width 1
153	#define vci_srcid_width 14
154	#define vci_pktid_width 4
155	#define vci_trdid_width 4
156	#define vci_wrplen_width 1
157
158	////////////////////////////////////////////////////////////
159	// Main Hardware Parameters values
160	//////////////////////i/////////////////////////////////////
161
162	#ifdef USE_ALMOS
163	#include "almos/hard_config.h"
164	#define PREFIX_OS "almos/"
165	#endif
166	#ifdef USE_GIET
167	#include "scripts/soft/hard_config.h"
168	#define PREFIX_OS "giet_vm/"
169	#endif
170
171	////////////////////////////////////////////////////////////
172	// Secondary Hardware Parameters
173	//////////////////////i/////////////////////////////////////
174
175	#define XMAX CLUSTER_X
176	#define YMAX CLUSTER_Y
177
178	#define XRAM_LATENCY 0
179
180	#define MEMC_WAYS 16
181	#define MEMC_SETS 256
182
183	#define L1_IWAYS 4
184	#define L1_ISETS 64
185
186	#define L1_DWAYS 4
187	#define L1_DSETS 64
188
189	#ifdef USE_ALMOS
190	#define FBUF_X_SIZE 512
191	#define FBUF_Y_SIZE 512
192	#endif
193	#ifdef USE_GIET
194	#define FBUF_X_SIZE 128
195	#define FBUF_Y_SIZE 128
196	#endif
197
198	#ifdef USE_GIET
199	#define BDEV_SECTOR_SIZE 512
200	#define BDEV_IMAGE_NAME PREFIX_OS"display/images.raw"
201	#endif
202	#ifdef USE_ALMOS
203	#define BDEV_SECTOR_SIZE 4096
204	#define BDEV_IMAGE_NAME PREFIX_OS"hdd-img.bin"
205	#endif
206
207	#define NIC_RX_NAME PREFIX_OS"nic/rx_packets.txt"
208	#define NIC_TX_NAME PREFIX_OS"nic/tx_packets.txt"
209	#define NIC_TIMEOUT 10000
210
211	#define NORTH 0
212	#define SOUTH 1
213	#define EAST 2
214	#define WEST 3
215
216	////////////////////////////////////////////////////////////
217	// Software to be loaded in ROM & RAM
218	//////////////////////i/////////////////////////////////////
219
220	#ifdef USE_ALMOS
221	#define soft_name PREFIX_OS"bootloader.bin",\
222	PREFIX_OS"kernel-soclib.bin@0xbfc10000:D",\
223	PREFIX_OS"arch-info.bib@0xBFC08000:D"
224	#endif
225	#ifdef USE_GIET
226	#define soft_pathname "scripts/soft/soft.elf"
227	#endif
228
229	////////////////////////////////////////////////////////////
230	// DEBUG Parameters default values
231	//////////////////////i/////////////////////////////////////
232
233	#define MAX_FROZEN_CYCLES 1000000
234
235	/////////////////////////////////////////////////////////
236	// Physical segments definition
237	/////////////////////////////////////////////////////////
238	// There is 3 segments replicated in all clusters
239	// and 5 specific segments in the "IO" cluster
240	// (containing address 0xBF000000)
241	/////////////////////////////////////////////////////////
242
243	#ifdef USE_GIET
244	// specific segments in "IO" cluster : absolute physical address
245	#define BROM_BASE 0x00BFC00000
246	#define BROM_SIZE 0x0000100000 // 1 Mbytes
247
248	#define FBUF_BASE 0x00B2000000
249	#define FBUF_SIZE (FBUF_X_SIZE * FBUF_Y_SIZE * 2)
250
251	#define BDEV_BASE 0x00B3000000
252	#define BDEV_SIZE 0x0000001000 // 4 Kbytes
253
254	#define MTTY_BASE 0x00B4000000
255	#define MTTY_SIZE 0x0000001000 // 4 Kbytes
256
257	#define MNIC_BASE 0x00B5000000
258	#define MNIC_SIZE 0x0000080000 // 512 Kbytes (for 8 channels)
259
260	#define CDMA_BASE 0x00B6000000
261	#define CDMA_SIZE 0x0000004000 * NB_CMA_CHANNELS
262
263	// replicated segments : address is incremented by a cluster offset
264	// offset = cluster(x,y) << (address_width-x_width-y_width);
265
266	#define MEMC_BASE 0x0000000000
267	#define MEMC_SIZE 0x0010000000 // 256 Mbytes per cluster
268
269	#define XICU_BASE 0x00B0000000
270	#define XICU_SIZE 0x0000001000 // 4 Kbytes
271
272	#define MDMA_BASE 0x00B1000000
273	#define MDMA_SIZE 0x0000001000 * NB_DMA_CHANNELS // 4 Kbytes per channel
274
275	#define SIMH_BASE 0x00B7000000
276	#define SIMH_SIZE 0x0000001000
277	#endif
278
279	#ifdef USE_ALMOS
280	#define CLUSTER_INC (0x80000000ULL / (XMAX * YMAX) * 2)
281
282	#define MEMC_BASE 0x0000000000
283	#define MEMC_SIZE min(0x02000000, (0x80000000 / (XMAX * YMAX)))
284
285	#define BROM_BASE 0x00BFC00000
286	#define BROM_SIZE 0x0000100000 // 1 Mbytes
287
288	#define XICU_BASE (MEMC_SIZE)
289	#define XICU_SIZE 0x0000001000 // 4 Kbytes
290
291	#define MDMA_BASE (XICU_BASE + XICU_SIZE)
292	#define MDMA_SIZE 0x0000001000 * NB_DMA_CHANNELS // 4 Kbytes per channel
293
294	#define BDEV_BASE ((cluster_io_id * (CLUSTER_INC)) + MDMA_BASE + MDMA_SIZE)
295	#define BDEV_SIZE 0x0000001000 // 4 Kbytes
296
297	#define MTTY_BASE (BDEV_BASE + BDEV_SIZE)
298	#define MTTY_SIZE 0x0000001000 // 4 Kbytes
299
300	#define FBUF_BASE (MTTY_BASE + MTTY_SIZE)
301	#define FBUF_SIZE (FBUF_X_SIZE * FBUF_Y_SIZE * 2) // Should be 0x80000
302
303	// Unused in almos
304	#define MNIC_BASE (FBUF_BASE + FBUF_SIZE)
305	#define MNIC_SIZE 0x0000001000
306
307	#define CDMA_BASE (MNIC_BASE + MNIC_SIZE)
308	#define CDMA_SIZE 0x0000004000 * NB_CMA_CHANNELS
309
310	#endif
311
312
313	////////////////////////////////////////////////////////////////////
314	// TGTID definition in direct space
315	// For all components: global TGTID = global SRCID = cluster_index
316	////////////////////////////////////////////////////////////////////
317
318	#define MEMC_TGTID 0
319	#define XICU_TGTID 1
320	#define MDMA_TGTID 2
321	#define MTTY_TGTID 3
322	#define FBUF_TGTID 4
323	#define BDEV_TGTID 5
324	#define MNIC_TGTID 6
325	#define BROM_TGTID 7
326	#define CDMA_TGTID 8
327	#define SIMH_TGTID 9
328
329	bool stop_called = false;
330
331	/////////////////////////////////
332	int _main(int argc, char *argv[])
333	{
334	using namespace sc_core;
335	using namespace soclib::caba;
336	using namespace soclib::common;
337
338	#ifdef USE_GIET
339	char soft_name[256] = soft_pathname; // pathname to binary code
340	#endif
341	uint64_t ncycles = 0xFFFFFFFFFFFFFFFF; // simulated cycles
342	char disk_name[256] = BDEV_IMAGE_NAME; // pathname to the disk image
343	char nic_rx_name[256] = NIC_RX_NAME; // pathname to the rx packets file
344	char nic_tx_name[256] = NIC_TX_NAME; // pathname to the tx packets file
345	ssize_t threads_nr = 1; // simulator's threads number
346	bool debug_ok = false; // trace activated
347	size_t debug_period = 1; // trace period
348	size_t debug_memc_id = 0; // index of memc to be traced
349	size_t debug_proc_id = 0; // index of proc to be traced
350	uint32_t debug_from = 0; // trace start cycle
351	uint32_t frozen_cycles = MAX_FROZEN_CYCLES; // monitoring frozen processor
352	size_t cluster_io_id; // index of cluster containing IOs
353	struct timeval t1,t2;
354	uint64_t ms1,ms2;
355
356	////////////// command line arguments //////////////////////
357	if (argc > 1)
358	{
359	for (int n = 1; n < argc; n = n + 2)
360	{
361	if ((strcmp(argv[n], "-NCYCLES") == 0) && (n + 1 < argc))
362	{
363	ncycles = atoi(argv[n + 1]);
364	}
365	else if ((strcmp(argv[n], "-SOFT") == 0) && (n + 1 < argc))
366	{
367	#ifdef USE_ALMOS
368	assert( 0 && "Can't define almos soft name" );
369	#endif
370	#ifdef USE_GIET
371	strcpy(soft_name, argv[n + 1]);
372	#endif
373	}
374	else if ((strcmp(argv[n],"-DISK") == 0) && (n + 1 < argc))
375	{
376	strcpy(disk_name, argv[n + 1]);
377	}
378	else if ((strcmp(argv[n],"-DEBUG") == 0) && (n + 1 < argc))
379	{
380	debug_ok = true;
381	debug_from = atoi(argv[n + 1]);
382	}
383	else if ((strcmp(argv[n], "-MEMCID") == 0) && (n + 1 < argc))
384	{
385	debug_memc_id = atoi(argv[n + 1]);
386	assert((debug_memc_id < (XMAX * YMAX)) &&
387	"debug_memc_id larger than XMAX * YMAX" );
388	}
389	else if ((strcmp(argv[n], "-PROCID") == 0) && (n + 1 < argc))
390	{
391	debug_proc_id = atoi(argv[n + 1]);
392	assert((debug_proc_id < (XMAX * YMAX * NB_PROCS_MAX)) &&
393	"debug_proc_id larger than XMAX * YMAX * NB_PROCS");
394	}
395	else if ((strcmp(argv[n], "-THREADS") == 0) && ((n + 1) < argc))
396	{
397	threads_nr = atoi(argv[n + 1]);
398	threads_nr = (threads_nr < 1) ? 1 : threads_nr;
399	}
400	else if ((strcmp(argv[n], "-FROZEN") == 0) && (n + 1 < argc))
401	{
402	frozen_cycles = atoi(argv[n + 1]);
403	}
404	else if ((strcmp(argv[n], "-PERIOD") == 0) && (n + 1 < argc))
405	{
406	debug_period = atoi(argv[n + 1]);
407	}
408	else
409	{
410	std::cout << " Arguments are (key,value) couples." << std::endl;
411	std::cout << " The order is not important." << std::endl;
412	std::cout << " Accepted arguments are :" << std::endl << std::endl;
413	std::cout << " -SOFT pathname_for_embedded_soft" << std::endl;
414	std::cout << " -DISK pathname_for_disk_image" << std::endl;
415	std::cout << " -NCYCLES number_of_simulated_cycles" << std::endl;
416	std::cout << " -DEBUG debug_start_cycle" << std::endl;
417	std::cout << " -THREADS simulator's threads number" << std::endl;
418	std::cout << " -FROZEN max_number_of_lines" << std::endl;
419	std::cout << " -PERIOD number_of_cycles between trace" << std::endl;
420	std::cout << " -MEMCID index_memc_to_be_traced" << std::endl;
421	std::cout << " -PROCID index_proc_to_be_traced" << std::endl;
422	exit(0);
423	}
424	}
425	}
426
427	// checking hardware parameters
428	assert( ( (XMAX == 1) or (XMAX == 2) or (XMAX == 4) or
429	(XMAX == 8) or (XMAX == 16) ) and
430	"The XMAX parameter must be 1, 2, 4, 8 or 16" );
431
432	assert( ( (YMAX == 1) or (YMAX == 2) or (YMAX == 4) or
433	(YMAX == 8) or (YMAX == 16) ) and
434	"The YMAX parameter must be 1, 2, 4, 8 or 16" );
435
436	assert( ( (NB_PROCS_MAX == 1) or (NB_PROCS_MAX == 2) or
437	(NB_PROCS_MAX == 4) or (NB_PROCS_MAX == 8) ) and
438	"The NB_PROCS_MAX parameter must be 1, 2, 4 or 8" );
439
440	assert( (NB_DMA_CHANNELS < 9) and
441	"The NB_DMA_CHANNELS parameter must be smaller than 9" );
442
443	assert( (NB_TTY_CHANNELS < 15) and
444	"The NB_TTY_CHANNELS parameter must be smaller than 15" );
445
446	assert( (NB_NIC_CHANNELS < 9) and
447	"The NB_NIC_CHANNELS parameter must be smaller than 9" );
448
449	#ifdef USE_GIET
450	assert( (vci_address_width == 40) and
451	"VCI address width with the GIET must be 40 bits" );
452	#endif
453
454	#ifdef USE_ALMOS
455	assert( (vci_address_width == 32) and
456	"VCI address width with ALMOS must be 32 bits" );
457	#endif
458
459
460	std::cout << std::endl;
461	std::cout << " - XMAX = " << XMAX << std::endl;
462	std::cout << " - YMAX = " << YMAX << std::endl;
463	std::cout << " - NB_PROCS_MAX = " << NB_PROCS_MAX << std::endl;
464	std::cout << " - NB_DMA_CHANNELS = " << NB_DMA_CHANNELS << std::endl;
465	std::cout << " - NB_TTY_CHANNELS = " << NB_TTY_CHANNELS << std::endl;
466	std::cout << " - NB_NIC_CHANNELS = " << NB_NIC_CHANNELS << std::endl;
467	std::cout << " - MEMC_WAYS = " << MEMC_WAYS << std::endl;
468	std::cout << " - MEMC_SETS = " << MEMC_SETS << std::endl;
469	std::cout << " - RAM_LATENCY = " << XRAM_LATENCY << std::endl;
470	std::cout << " - MAX_FROZEN = " << frozen_cycles << std::endl;
471	std::cout << "[PROCS] " << NB_PROCS_MAX * XMAX * YMAX << std::endl;
472
473	std::cout << std::endl;
474	// Internal and External VCI parameters definition
475	typedef soclib::caba::VciParams<vci_cell_width_int,
476	vci_plen_width,
477	vci_address_width,
478	vci_rerror_width,
479	vci_clen_width,
480	vci_rflag_width,
481	vci_srcid_width,
482	vci_pktid_width,
483	vci_trdid_width,
484	vci_wrplen_width> vci_param_int;
485
486	typedef soclib::caba::VciParams<vci_cell_width_ext,
487	vci_plen_width,
488	vci_address_width,
489	vci_rerror_width,
490	vci_clen_width,
491	vci_rflag_width,
492	vci_srcid_width,
493	vci_pktid_width,
494	vci_trdid_width,
495	vci_wrplen_width> vci_param_ext;
496
497	#if USE_OPENMP
498	omp_set_dynamic(false);
499	omp_set_num_threads(threads_nr);
500	std::cerr << "Built with openmp version " << _OPENMP << std::endl;
501	#endif
502
503	// Define parameters depending on mesh size
504	size_t x_width;
505	size_t y_width;
506
507	if (XMAX == 1) x_width = 0;
508	else if (XMAX == 2) x_width = 1;
509	else if (XMAX <= 4) x_width = 2;
510	else if (XMAX <= 8) x_width = 3;
511	else x_width = 4;
512
513	if (YMAX == 1) y_width = 0;
514	else if (YMAX == 2) y_width = 1;
515	else if (YMAX <= 4) y_width = 2;
516	else if (YMAX <= 8) y_width = 3;
517	else y_width = 4;
518
519
520	#ifdef USE_ALMOS
521	cluster_io_id = 0xbfc00000 >> (vci_address_width - x_width - y_width); // index of cluster containing IOs
522	#else
523	cluster_io_id = 0;
524	#endif
525
526	/////////////////////
527	// Mapping Tables
528	/////////////////////
529
530	// internal network
531	MappingTable maptabd(vci_address_width,
532	IntTab(x_width + y_width, 20 - x_width - y_width),
533	IntTab(x_width + y_width, vci_srcid_width - x_width - y_width),
534	0x00FF800000);
535
536	for (size_t x = 0; x < XMAX; x++)
537	{
538	for (size_t y = 0; y < YMAX; y++)
539	{
540	sc_uint<vci_address_width> offset;
541	offset = (sc_uint<vci_address_width>)cluster(x,y)
542	<< (vci_address_width-x_width-y_width);
543
544	std::ostringstream si;
545	si << "seg_xicu_" << x << "_" << y;
546	maptabd.add(Segment(si.str(), XICU_BASE + offset, XICU_SIZE,
547	IntTab(cluster(x,y),XICU_TGTID), false));
548
549	std::ostringstream sd;
550	sd << "seg_mdma_" << x << "_" << y;
551	maptabd.add(Segment(sd.str(), MDMA_BASE + offset, MDMA_SIZE,
552	IntTab(cluster(x,y),MDMA_TGTID), false));
553
554	std::ostringstream sh;
555	sh << "seg_memc_" << x << "_" << y;
556	maptabd.add(Segment(sh.str(), MEMC_BASE + offset, MEMC_SIZE,
557	IntTab(cluster(x,y),MEMC_TGTID), true));
558
559	if ( cluster(x,y) == cluster_io_id )
560	{
561	maptabd.add(Segment("seg_mtty", MTTY_BASE, MTTY_SIZE,
562	IntTab(cluster(x,y),MTTY_TGTID), false));
563	maptabd.add(Segment("seg_fbuf", FBUF_BASE, FBUF_SIZE,
564	IntTab(cluster(x,y),FBUF_TGTID), false));
565	maptabd.add(Segment("seg_bdev", BDEV_BASE, BDEV_SIZE,
566	IntTab(cluster(x,y),BDEV_TGTID), false));
567	maptabd.add(Segment("seg_brom", BROM_BASE, BROM_SIZE,
568	IntTab(cluster(x,y),BROM_TGTID), true));
569	maptabd.add(Segment("seg_mnic", MNIC_BASE, MNIC_SIZE,
570	IntTab(cluster(x,y),MNIC_TGTID), false));
571	maptabd.add(Segment("seg_cdma", CDMA_BASE, CDMA_SIZE,
572	IntTab(cluster(x,y),CDMA_TGTID), false));
573	maptabd.add(Segment("seg_simh", SIMH_BASE, SIMH_SIZE,
574	IntTab(cluster(x,y),SIMH_TGTID), false));
575	}
576	}
577	}
578	std::cout << maptabd << std::endl;
579
580	// external network
581	MappingTable maptabx(vci_address_width,
582	IntTab(x_width+y_width),
583	IntTab(x_width+y_width),
584	0xFFFF000000ULL);
585
586	for (size_t x = 0; x < XMAX; x++)
587	{
588	for (size_t y = 0; y < YMAX ; y++)
589	{
590
591	sc_uint<vci_address_width> offset;
592	offset = (sc_uint<vci_address_width>)cluster(x,y)
593	<< (vci_address_width-x_width-y_width);
594
595	std::ostringstream sh;
596	sh << "x_seg_memc_" << x << "_" << y;
597
598	maptabx.add(Segment(sh.str(), MEMC_BASE + offset,
599	MEMC_SIZE, IntTab(cluster(x,y)), false));
600	}
601
602	}
603	std::cout << maptabx << std::endl;
604
605	////////////////////
606	// Signals
607	///////////////////
608
609	sc_clock signal_clk("clk");
610	sc_signal<bool> signal_resetn("resetn");
611
612	// Horizontal inter-clusters DSPIN signals
613	DspinSignals<dspin_cmd_width>*** signal_dspin_h_cmd_inc =
614	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_h_cmd_inc", XMAX-1, YMAX, 3);
615	DspinSignals<dspin_cmd_width>*** signal_dspin_h_cmd_dec =
616	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_h_cmd_dec", XMAX-1, YMAX, 3);
617	DspinSignals<dspin_rsp_width>*** signal_dspin_h_rsp_inc =
618	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_h_rsp_inc", XMAX-1, YMAX, 2);
619	DspinSignals<dspin_rsp_width>*** signal_dspin_h_rsp_dec =
620	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_h_rsp_dec", XMAX-1, YMAX, 2);
621
622	// Vertical inter-clusters DSPIN signals
623	DspinSignals<dspin_cmd_width>*** signal_dspin_v_cmd_inc =
624	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_v_cmd_inc", XMAX, YMAX-1, 3);
625	DspinSignals<dspin_cmd_width>*** signal_dspin_v_cmd_dec =
626	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_v_cmd_dec", XMAX, YMAX-1, 3);
627	DspinSignals<dspin_rsp_width>*** signal_dspin_v_rsp_inc =
628	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_v_rsp_inc", XMAX, YMAX-1, 2);
629	DspinSignals<dspin_rsp_width>*** signal_dspin_v_rsp_dec =
630	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_v_rsp_dec", XMAX, YMAX-1, 2);
631
632	// Mesh boundaries DSPIN signals
633	DspinSignals<dspin_cmd_width>**** signal_dspin_false_cmd_in =
634	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_false_cmd_in" , XMAX, YMAX, 4, 3);
635	DspinSignals<dspin_cmd_width>**** signal_dspin_false_cmd_out =
636	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_false_cmd_out", XMAX, YMAX, 4, 3);
637	DspinSignals<dspin_rsp_width>**** signal_dspin_false_rsp_in =
638	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_false_rsp_in" , XMAX, YMAX, 4, 2);
639	DspinSignals<dspin_rsp_width>**** signal_dspin_false_rsp_out =
640	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_false_rsp_out", XMAX, YMAX, 4, 2);
641
642
643	////////////////////////////
644	// Loader
645	////////////////////////////
646
647	soclib::common::Loader loader(soft_name);
648
649	typedef soclib::common::GdbServer<soclib::common::Mips32ElIss> proc_iss;
650	proc_iss::set_loader(loader);
651
652	////////////////////////////
653	// Clusters construction
654	////////////////////////////
655
656	TsarXbarCluster<dspin_cmd_width,
657	dspin_rsp_width,
658	vci_param_int,
659	vci_param_ext>* clusters[XMAX][YMAX];
660
661	#if USE_OPENMP
662	#pragma omp parallel
663	{
664	#pragma omp for
665	#endif
666	for (size_t i = 0; i < (XMAX * YMAX); i++)
667	{
668	size_t x = i / YMAX;
669	size_t y = i % YMAX;
670
671	#if USE_OPENMP
672	#pragma omp critical
673	{
674	#endif
675	std::cout << std::endl;
676	std::cout << "Cluster_" << x << "_" << y << std::endl;
677	std::cout << std::endl;
678
679	std::ostringstream sc;
680	sc << "cluster_" << x << "_" << y;
681	clusters[x][y] = new TsarXbarCluster<dspin_cmd_width,
682	dspin_rsp_width,
683	vci_param_int,
684	vci_param_ext>
685	(
686	sc.str().c_str(),
687	NB_PROCS_MAX,
688	NB_TTY_CHANNELS,
689	NB_DMA_CHANNELS,
690	x,
691	y,
692	cluster(x,y),
693	maptabd,
694	maptabx,
695	x_width,
696	y_width,
697	vci_srcid_width - x_width - y_width, // l_id width,
698	MEMC_TGTID,
699	XICU_TGTID,
700	MDMA_TGTID,
701	FBUF_TGTID,
702	MTTY_TGTID,
703	BROM_TGTID,
704	MNIC_TGTID,
705	CDMA_TGTID,
706	BDEV_TGTID,
707	SIMH_TGTID,
708	MEMC_WAYS,
709	MEMC_SETS,
710	L1_IWAYS,
711	L1_ISETS,
712	L1_DWAYS,
713	L1_DSETS,
714	XRAM_LATENCY,
715	(cluster(x,y) == cluster_io_id),
716	FBUF_X_SIZE,
717	FBUF_Y_SIZE,
718	disk_name,
719	BDEV_SECTOR_SIZE,
720	NB_NIC_CHANNELS,
721	nic_rx_name,
722	nic_tx_name,
723	NIC_TIMEOUT,
724	NB_CMA_CHANNELS,
725	loader,
726	frozen_cycles,
727	debug_from ,
728	debug_ok and (cluster(x,y) == debug_memc_id),
729	debug_ok and (cluster(x,y) == debug_proc_id)
730	);
731
732	#if USE_OPENMP
733	} // end critical
734	#endif
735	} // end for
736	#if USE_OPENMP
737	}
738	#endif
739
740	///////////////////////////////////////////////////////////////
741	// Net-list
742	///////////////////////////////////////////////////////////////
743
744	// Clock & RESET
745	for (size_t x = 0; x < (XMAX); x++){
746	for (size_t y = 0; y < YMAX; y++){
747	clusters[x][y]->p_clk (signal_clk);
748	clusters[x][y]->p_resetn (signal_resetn);
749	}
750	}
751
752	// Inter Clusters horizontal connections
753	if (XMAX > 1){
754	for (size_t x = 0; x < (XMAX-1); x++){
755	for (size_t y = 0; y < YMAX; y++){
756	for (size_t k = 0; k < 3; k++){
757	clusters[x][y]->p_cmd_out[EAST][k] (signal_dspin_h_cmd_inc[x][y][k]);
758	clusters[x+1][y]->p_cmd_in[WEST][k] (signal_dspin_h_cmd_inc[x][y][k]);
759	clusters[x][y]->p_cmd_in[EAST][k] (signal_dspin_h_cmd_dec[x][y][k]);
760	clusters[x+1][y]->p_cmd_out[WEST][k] (signal_dspin_h_cmd_dec[x][y][k]);
761	}
762
763	for (size_t k = 0; k < 2; k++){
764	clusters[x][y]->p_rsp_out[EAST][k] (signal_dspin_h_rsp_inc[x][y][k]);
765	clusters[x+1][y]->p_rsp_in[WEST][k] (signal_dspin_h_rsp_inc[x][y][k]);
766	clusters[x][y]->p_rsp_in[EAST][k] (signal_dspin_h_rsp_dec[x][y][k]);
767	clusters[x+1][y]->p_rsp_out[WEST][k] (signal_dspin_h_rsp_dec[x][y][k]);
768	}
769	}
770	}
771	}
772	std::cout << std::endl << "Horizontal connections established" << std::endl;
773
774	// Inter Clusters vertical connections
775	if (YMAX > 1) {
776	for (size_t y = 0; y < (YMAX-1); y++){
777	for (size_t x = 0; x < XMAX; x++){
778	for (size_t k = 0; k < 3; k++){
779	clusters[x][y]->p_cmd_out[NORTH][k] (signal_dspin_v_cmd_inc[x][y][k]);
780	clusters[x][y+1]->p_cmd_in[SOUTH][k] (signal_dspin_v_cmd_inc[x][y][k]);
781	clusters[x][y]->p_cmd_in[NORTH][k] (signal_dspin_v_cmd_dec[x][y][k]);
782	clusters[x][y+1]->p_cmd_out[SOUTH][k] (signal_dspin_v_cmd_dec[x][y][k]);
783	}
784
785	for (size_t k = 0; k < 2; k++){
786	clusters[x][y]->p_rsp_out[NORTH][k] (signal_dspin_v_rsp_inc[x][y][k]);
787	clusters[x][y+1]->p_rsp_in[SOUTH][k] (signal_dspin_v_rsp_inc[x][y][k]);
788	clusters[x][y]->p_rsp_in[NORTH][k] (signal_dspin_v_rsp_dec[x][y][k]);
789	clusters[x][y+1]->p_rsp_out[SOUTH][k] (signal_dspin_v_rsp_dec[x][y][k]);
790	}
791	}
792	}
793	}
794	std::cout << "Vertical connections established" << std::endl;
795
796	// East & West boundary cluster connections
797	for (size_t y = 0; y < YMAX; y++)
798	{
799	for (size_t k = 0; k < 3; k++)
800	{
801	clusters[0][y]->p_cmd_in[WEST][k] (signal_dspin_false_cmd_in[0][y][WEST][k]);
802	clusters[0][y]->p_cmd_out[WEST][k] (signal_dspin_false_cmd_out[0][y][WEST][k]);
803	clusters[XMAX-1][y]->p_cmd_in[EAST][k] (signal_dspin_false_cmd_in[XMAX-1][y][EAST][k]);
804	clusters[XMAX-1][y]->p_cmd_out[EAST][k] (signal_dspin_false_cmd_out[XMAX-1][y][EAST][k]);
805	}
806
807	for (size_t k = 0; k < 2; k++)
808	{
809	clusters[0][y]->p_rsp_in[WEST][k] (signal_dspin_false_rsp_in[0][y][WEST][k]);
810	clusters[0][y]->p_rsp_out[WEST][k] (signal_dspin_false_rsp_out[0][y][WEST][k]);
811	clusters[XMAX-1][y]->p_rsp_in[EAST][k] (signal_dspin_false_rsp_in[XMAX-1][y][EAST][k]);
812	clusters[XMAX-1][y]->p_rsp_out[EAST][k] (signal_dspin_false_rsp_out[XMAX-1][y][EAST][k]);
813	}
814	}
815
816	// North & South boundary clusters connections
817	for (size_t x = 0; x < XMAX; x++)
818	{
819	for (size_t k = 0; k < 3; k++)
820	{
821	clusters[x][0]->p_cmd_in[SOUTH][k] (signal_dspin_false_cmd_in[x][0][SOUTH][k]);
822	clusters[x][0]->p_cmd_out[SOUTH][k] (signal_dspin_false_cmd_out[x][0][SOUTH][k]);
823	clusters[x][YMAX-1]->p_cmd_in[NORTH][k] (signal_dspin_false_cmd_in[x][YMAX-1][NORTH][k]);
824	clusters[x][YMAX-1]->p_cmd_out[NORTH][k] (signal_dspin_false_cmd_out[x][YMAX-1][NORTH][k]);
825	}
826
827	for (size_t k = 0; k < 2; k++)
828	{
829	clusters[x][0]->p_rsp_in[SOUTH][k] (signal_dspin_false_rsp_in[x][0][SOUTH][k]);
830	clusters[x][0]->p_rsp_out[SOUTH][k] (signal_dspin_false_rsp_out[x][0][SOUTH][k]);
831	clusters[x][YMAX-1]->p_rsp_in[NORTH][k] (signal_dspin_false_rsp_in[x][YMAX-1][NORTH][k]);
832	clusters[x][YMAX-1]->p_rsp_out[NORTH][k] (signal_dspin_false_rsp_out[x][YMAX-1][NORTH][k]);
833	}
834	}
835	std::cout << "North, South, West, East connections established" << std::endl;
836	std::cout << std::endl;
837
838
839	////////////////////////////////////////////////////////
840	// Simulation
841	///////////////////////////////////////////////////////
842
843	sc_start(sc_core::sc_time(0, SC_NS));
844	signal_resetn = false;
845
846	// network boundaries signals
847	for (size_t x = 0; x < XMAX ; x++){
848	for (size_t y = 0; y < YMAX ; y++){
849	for (size_t a = 0; a < 4; a++){
850	for (size_t k = 0; k < 3; k++){
851	signal_dspin_false_cmd_in [x][y][a][k].write = false;
852	signal_dspin_false_cmd_in [x][y][a][k].read = true;
853	signal_dspin_false_cmd_out[x][y][a][k].write = false;
854	signal_dspin_false_cmd_out[x][y][a][k].read = true;
855	}
856
857	for (size_t k = 0; k < 2; k++){
858	signal_dspin_false_rsp_in [x][y][a][k].write = false;
859	signal_dspin_false_rsp_in [x][y][a][k].read = true;
860	signal_dspin_false_rsp_out[x][y][a][k].write = false;
861	signal_dspin_false_rsp_out[x][y][a][k].read = true;
862	}
863	}
864	}
865	}
866
867	sc_start(sc_core::sc_time(1, SC_NS));
868	signal_resetn = true;
869
870	if (gettimeofday(&t1, NULL) != 0)
871	{
872	perror("gettimeofday");
873	return EXIT_FAILURE;
874	}
875
876	for (uint64_t n = 1; n < ncycles && !stop_called; n++)
877	{
878	// Monitor a specific address for L1 & L2 caches
879	//clusters[0][0]->proc[0]->cache_monitor(0x800002c000ULL);
880	//clusters[1][0]->memc->copies_monitor(0x800002C000ULL);
881
882	if( (n % 5000000) == 0)
883	{
884
885	if (gettimeofday(&t2, NULL) != 0)
886	{
887	perror("gettimeofday");
888	return EXIT_FAILURE;
889	}
890
891	ms1 = (uint64_t) t1.tv_sec * 1000ULL + (uint64_t) t1.tv_usec / 1000;
892	ms2 = (uint64_t) t2.tv_sec * 1000ULL + (uint64_t) t2.tv_usec / 1000;
893	std::cerr << "platform clock frequency " << (double) 5000000 / (double) (ms2 - ms1) << "Khz" << std::endl;
894
895	if (gettimeofday(&t1, NULL) != 0)
896	{
897	perror("gettimeofday");
898	return EXIT_FAILURE;
899	}
900	}
901
902	if (debug_ok and (n > debug_from) and (n % debug_period == 0))
903	{
904	std::cout << "****************** cycle " << std::dec << n ;
905	std::cout << " ************************************************" << std::endl;
906
907	// trace proc[debug_proc_id]
908	size_t l = debug_proc_id % NB_PROCS_MAX ;
909	size_t y = (debug_proc_id / NB_PROCS_MAX) % YMAX ;
910	size_t x = debug_proc_id / (YMAX * NB_PROCS_MAX) ;
911
912	std::ostringstream proc_signame;
913	proc_signame << "[SIG]PROC_" << x << "_" << y << "_" << l ;
914	std::ostringstream p2m_signame;
915	p2m_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " P2M" ;
916	std::ostringstream m2p_signame;
917	m2p_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " M2P" ;
918	std::ostringstream p_cmd_signame;
919	p_cmd_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " CMD" ;
920	std::ostringstream p_rsp_signame;
921	p_rsp_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " RSP" ;
922
923	clusters[x][y]->proc[l]->print_trace();
924	clusters[x][y]->wi_proc[l]->print_trace();
925	clusters[x][y]->signal_vci_ini_proc[l].print_trace(proc_signame.str());
926	clusters[x][y]->signal_dspin_p2m_proc[l].print_trace(p2m_signame.str());
927	clusters[x][y]->signal_dspin_m2p_proc[l].print_trace(m2p_signame.str());
928	clusters[x][y]->signal_dspin_cmd_proc_i[l].print_trace(p_cmd_signame.str());
929	clusters[x][y]->signal_dspin_rsp_proc_i[l].print_trace(p_rsp_signame.str());
930
931	clusters[x][y]->xbar_rsp_d->print_trace();
932	clusters[x][y]->xbar_cmd_d->print_trace();
933	clusters[x][y]->signal_dspin_cmd_l2g_d.print_trace("[SIG]L2G CMD");
934	clusters[x][y]->signal_dspin_cmd_g2l_d.print_trace("[SIG]G2L CMD");
935	clusters[x][y]->signal_dspin_rsp_l2g_d.print_trace("[SIG]L2G RSP");
936	clusters[x][y]->signal_dspin_rsp_g2l_d.print_trace("[SIG]G2L RSP");
937
938	// trace memc[debug_memc_id]
939	x = debug_memc_id / YMAX;
940	y = debug_memc_id % YMAX;
941
942	std::ostringstream smemc;
943	smemc << "[SIG]MEMC_" << x << "_" << y;
944	std::ostringstream sxram;
945	sxram << "[SIG]XRAM_" << x << "_" << y;
946	std::ostringstream sm2p;
947	sm2p << "[SIG]MEMC_" << x << "_" << y << " M2P" ;
948	std::ostringstream sp2m;
949	sp2m << "[SIG]MEMC_" << x << "_" << y << " P2M" ;
950	std::ostringstream m_cmd_signame;
951	m_cmd_signame << "[SIG]MEMC_" << x << "_" << y << " CMD" ;
952	std::ostringstream m_rsp_signame;
953	m_rsp_signame << "[SIG]MEMC_" << x << "_" << y << " RSP" ;
954
955	clusters[x][y]->memc->print_trace();
956	clusters[x][y]->wt_memc->print_trace();
957	clusters[x][y]->signal_vci_tgt_memc.print_trace(smemc.str());
958	clusters[x][y]->signal_vci_xram.print_trace(sxram.str());
959	clusters[x][y]->signal_dspin_p2m_memc.print_trace(sp2m.str());
960	clusters[x][y]->signal_dspin_m2p_memc.print_trace(sm2p.str());
961	clusters[x][y]->signal_dspin_cmd_memc_t.print_trace(m_cmd_signame.str());
962	clusters[x][y]->signal_dspin_rsp_memc_t.print_trace(m_rsp_signame.str());
963
964	// trace replicated peripherals
965	// clusters[1][1]->mdma->print_trace();
966	// clusters[1][1]->signal_vci_tgt_mdma.print_trace("[SIG]MDMA_TGT_1_1");
967	// clusters[1][1]->signal_vci_ini_mdma.print_trace("[SIG]MDMA_INI_1_1");
968
969
970	// trace external peripherals
971	size_t io_x = cluster_io_id / YMAX;
972	size_t io_y = cluster_io_id % YMAX;
973
974	clusters[io_x][io_y]->brom->print_trace();
975	clusters[io_x][io_y]->wt_brom->print_trace();
976	clusters[io_x][io_y]->signal_vci_tgt_brom.print_trace("[SIG]BROM");
977	clusters[io_x][io_y]->signal_dspin_cmd_brom_t.print_trace("[SIG]BROM CMD");
978	clusters[io_x][io_y]->signal_dspin_rsp_brom_t.print_trace("[SIG]BROM RSP");
979
980	// clusters[io_x][io_y]->bdev->print_trace();
981	// clusters[io_x][io_y]->signal_vci_tgt_bdev.print_trace("[SIG]BDEV_TGT");
982	// clusters[io_x][io_y]->signal_vci_ini_bdev.print_trace("[SIG]BDEV_INI");
983	}
984
985	sc_start(sc_core::sc_time(1, SC_NS));
986	}
987
988
989	// Free memory
990	for (size_t i = 0; i < (XMAX * YMAX); i++)
991	{
992	size_t x = i / YMAX;
993	size_t y = i % YMAX;
994	delete clusters[x][y];
995	}
996
997	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_h_cmd_inc, XMAX - 1, YMAX, 3);
998	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_h_cmd_dec, XMAX - 1, YMAX, 3);
999	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_h_rsp_inc, XMAX - 1, YMAX, 2);
1000	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_h_rsp_dec, XMAX - 1, YMAX, 2);
1001	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_v_cmd_inc, XMAX, YMAX - 1, 3);
1002	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_v_cmd_dec, XMAX, YMAX - 1, 3);
1003	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_v_rsp_inc, XMAX, YMAX - 1, 2);
1004	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_v_rsp_dec, XMAX, YMAX - 1, 2);
1005	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_false_cmd_in, XMAX, YMAX, 4, 3);
1006	dealloc_elems<DspinSignals<dspin_cmd_width> >(signal_dspin_false_cmd_out, XMAX, YMAX, 4, 3);
1007	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_false_rsp_in, XMAX, YMAX, 4, 2);
1008	dealloc_elems<DspinSignals<dspin_rsp_width> >(signal_dspin_false_rsp_out, XMAX, YMAX, 4, 2);
1009
1010	return EXIT_SUCCESS;
1011	}
1012
1013
1014	void handler(int dummy = 0) {
1015	stop_called = true;
1016	sc_stop();
1017	}
1018
1019	void voidhandler(int dummy = 0) {}
1020
1021	int sc_main (int argc, char *argv[])
1022	{
1023	signal(SIGINT, handler);
1024	signal(SIGPIPE, voidhandler);
1025
1026	try {
1027	return _main(argc, argv);
1028	} catch (std::exception &e) {
1029	std::cout << e.what() << std::endl;
1030	} catch (...) {
1031	std::cout << "Unknown exception occured" << std::endl;
1032	throw;
1033	}
1034	return 1;
1035	}
1036
1037
1038	// Local Variables:
1039	// tab-width: 3
1040	// c-basic-offset: 3
1041	// c-file-offsets:((innamespace . 0)(inline-open . 0))
1042	// indent-tabs-mode: nil
1043	// End:
1044
1045	// vim: filetype=cpp:expandtab:shiftwidth=3:tabstop=3:softtabstop=3

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Project-Id-Version: Trac 0.12
Report-Msgid-Bugs-To: trac-dev@googlegroups.com
POT-Creation-Date: 2018-07-07 16:55+0000
PO-Revision-Date: 2010-07-19 23:05+0200
Last-Translator: Jeroen Ruigrok van der Werven <asmodai@in-nomine.org>
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