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source: trunk/platforms/tsar_generic_xbar/top.cpp @ 420

Last change on this file since 420 was 404, checked in by alain, 11 years ago
Updating the tsar_generic_sbar platform to comply with the new DSPIN format (explicit EOP).
File size: 35.0 KB

Rev	Line
[344]	1	/////////////////////////////////////////////////////////////////////////
	2	// File: top.cpp
	3	// Author: Alain Greiner
	4	// Copyright: UPMC/LIP6
[396]	5	// Date : may 2013
[344]	6	// This program is released under the GNU public license
	7	/////////////////////////////////////////////////////////////////////////
[396]	8	// This file define a generic TSAR architecture.
	9	// The physical address space is 40 bits.
	10	//
[344]	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
[396]	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.
[344]	21	//
[396]	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 5 extra components:
[344]	26	// - the boot rom (BROM)
	27	// - the disk controller (BDEV)
	28	// - the multi-channel network controller (MNIC)
	29	// - the multi-channel tty controller (MTTY)
	30	// - the frame buffer controller (FBUF)
	31	//
[396]	32	// It is build with one single component implementing a cluster,
	33	// defined in files tsar_xbar_cluster.* (with * = cpp, h, sd)
[344]	34	//
	35	// The IRQs are connected to XICUs as follow:
	36	// - The IRQ_IN[0] to IRQ_IN[7] ports are not used in all clusters.
	37	// - The DMA IRQs are connected to IRQ_IN[8] to IRQ_IN[15] in all clusters.
	38	// - The TTY IRQs are connected to IRQ_IN[16] to IRQ_IN[30] in I/O cluster.
	39	// - The BDEV IRQ is connected to IRQ_IN[31] in I/O cluster.
	40	//
[396]	41	// Some hardware parameters are used when compiling the OS, and are used
	42	// by this top.cpp file. They must be defined in the hard_config.h file :
[344]	43	// - CLUSTER_X : number of clusters in a row (power of 2)
	44	// - CLUSTER_Y : number of clusters in a column (power of 2)
	45	// - CLUSTER_SIZE : size of the segment allocated to a cluster
	46	// - NB_PROCS_MAX : number of processors per cluster (power of 2)
[396]	47	// - NB_DMA_CHANNELS : number of DMA channels per cluster (< 9)
	48	// - NB_TTY_CHANNELS : number of TTY channels in I/O cluster (< 16)
	49	// - NB_NIC_CHANNELS : number of NIC channels in I/O cluster (< 9)
[344]	50	//
[396]	51	// Some other hardware parameters are not used when compiling the OS,
	52	// and can be directly defined in this top.cpp file:
[344]	53	// - XRAM_LATENCY : external ram latency
	54	// - MEMC_WAYS : L2 cache number of ways
	55	// - MEMC_SETS : L2 cache number of sets
	56	// - L1_IWAYS
	57	// - L1_ISETS
	58	// - L1_DWAYS
	59	// - L1_DSETS
	60	// - FBUF_X_SIZE : width of frame buffer (pixels)
	61	// - FBUF_Y_SIZE : heigth of frame buffer (lines)
	62	// - BDEV_SECTOR_SIZE : block size for block drvice
	63	// - BDEV_IMAGE_NAME : file pathname for block device
	64	// - NIC_RX_NAME : file pathname for NIC received packets
	65	// - NIC_TX_NAME : file pathname for NIC transmited packets
	66	// - NIC_TIMEOUT : max number of cycles before closing a container
[396]	67	/////////////////////////////////////////////////////////////////////////
	68	// General policy for 40 bits physical address decoding:
	69	// All physical segments base addresses are multiple of 1 Mbytes
	70	// (=> the 24 LSB bits = 0, and the 16 MSB bits define the target)
[344]	71	// The (x_width + y_width) MSB bits (left aligned) define
[396]	72	// the cluster index, and the LADR bits define the local index:
[344]	73	// \| X_ID \| Y_ID \|---\| LADR \| OFFSET \|
[396]	74	// \|x_width\|y_width\|---\| 8 \| 24 \|
[344]	75	/////////////////////////////////////////////////////////////////////////
[396]	76	// General policy for 14 bits SRCID decoding:
	77	// Each component is identified by (x_id, y_id, l_id) tuple.
	78	// \| X_ID \| Y_ID \|---\| L_ID \|
	79	// \|x_width\|y_width\|---\| 6 \|
	80	/////////////////////////////////////////////////////////////////////////
[344]	81
	82	#include <systemc>
	83	#include <sys/time.h>
	84	#include <iostream>
	85	#include <sstream>
	86	#include <cstdlib>
	87	#include <cstdarg>
	88	#include <stdint.h>
	89
	90	#include "gdbserver.h"
	91	#include "mapping_table.h"
[378]	92	#include "tsar_xbar_cluster.h"
[344]	93	#include "alloc_elems.h"
	94
	95	///////////////////////////////////////////////////
	96	// OS
	97	///////////////////////////////////////////////////
	98	#define USE_ALMOS 0
	99
	100	#define almos_bootloader_pathname "bootloader.bin"
	101	#define almos_kernel_pathname "kernel-soclib.bin@0xbfc10000:D"
	102	#define almos_archinfo_pathname "arch-info.bin@0xBFC08000:D"
	103
	104	///////////////////////////////////////////////////
	105	// Parallelisation
	106	///////////////////////////////////////////////////
	107	#define USE_OPENMP 0
	108
	109	#if USE_OPENMP
	110	#include <omp.h>
	111	#endif
	112
	113	// cluster index (computed from x,y coordinates)
	114	#define cluster(x,y) (y + CLUSTER_Y*x)
	115
	116	///////////////////////////////////////////////////////////
	117	// DSPIN parameters
	118	///////////////////////////////////////////////////////////
	119
[404]	120	#define dspin_cmd_width 39
	121	#define dspin_rsp_width 32
[344]	122
[396]	123	///////////////////////////////////////////////////////////
	124	// VCI parameters
	125	///////////////////////////////////////////////////////////
	126
	127	#define int_vci_cell_width 4
	128	#define int_vci_plen_width 8
	129	#define int_vci_address_width 40
	130	#define int_vci_rerror_width 1
	131	#define int_vci_clen_width 1
	132	#define int_vci_rflag_width 1
	133	#define int_vci_srcid_width 14
	134	#define int_vci_pktid_width 4
	135	#define int_vci_trdid_width 4
	136	#define int_vci_wrplen_width 1
	137
	138	#define ext_vci_cell_width 8
	139	#define ext_vci_plen_width 8
	140	#define ext_vci_address_width 40
	141	#define ext_vci_rerror_width 1
	142	#define ext_vci_clen_width 1
	143	#define ext_vci_rflag_width 1
	144	#define ext_vci_srcid_width 14
	145	#define ext_vci_pktid_width 4
	146	#define ext_vci_trdid_width 4
	147	#define ext_vci_wrplen_width 1
	148
[344]	149	////////////////////////////////////////////////////////////
	150	// Main Hardware Parameters values
	151	//////////////////////i/////////////////////////////////////
	152
[370]	153	#include "giet_vm/hard_config.h"
[344]	154
	155	////////////////////////////////////////////////////////////
[396]	156	// Secondary Hardware Parameters
[344]	157	//////////////////////i/////////////////////////////////////
	158
	159	#define XRAM_LATENCY 0
	160
	161	#define MEMC_WAYS 16
	162	#define MEMC_SETS 256
	163
	164	#define L1_IWAYS 4
	165	#define L1_ISETS 64
	166
	167	#define L1_DWAYS 4
	168	#define L1_DSETS 64
	169
	170	#define FBUF_X_SIZE 128
	171	#define FBUF_Y_SIZE 128
	172
	173	#define BDEV_SECTOR_SIZE 512
[351]	174	#define BDEV_IMAGE_NAME "giet_vm/display/images.raw"
[344]	175
[379]	176	#define NIC_RX_NAME "giet_vm/nic/rx_packets.txt"
	177	#define NIC_TX_NAME "giet_vm/nic/tx_packets.txt"
[344]	178	#define NIC_TIMEOUT 10000
	179
	180	////////////////////////////////////////////////////////////
	181	// Software to be loaded in ROM & RAM
	182	//////////////////////i/////////////////////////////////////
	183
[396]	184	#define SOFT_NAME "giet_vm/soft.elf"
[344]	185
	186	////////////////////////////////////////////////////////////
	187	// DEBUG Parameters default values
	188	//////////////////////i/////////////////////////////////////
	189
	190	#define MAX_FROZEN_CYCLES 10000
	191
[396]	192	#define TRACE_MEMC_ID 1000000
	193	#define TRACE_PROC_ID 1000000
[344]	194
	195	/////////////////////////////////////////////////////////
	196	// Physical segments definition
	197	/////////////////////////////////////////////////////////
	198	// There is 3 segments replicated in all clusters
	199	// and 5 specific segments in the "IO" cluster
	200	// (containing address 0xBF000000)
	201	/////////////////////////////////////////////////////////
	202
	203	// specific segments in "IO" cluster : absolute physical address
	204
[396]	205	#define BROM_BASE 0x00BFC00000
	206	#define BROM_SIZE 0x0000100000 // 1 Mbytes
[344]	207
[396]	208	#define FBUF_BASE 0x00B2000000
	209	#define FBUF_SIZE FBUF_X_SIZE * FBUF_Y_SIZE
[344]	210
[396]	211	#define BDEV_BASE 0x00B3000000
	212	#define BDEV_SIZE 0x0000001000 // 4 Kbytes
[344]	213
[396]	214	#define MTTY_BASE 0x00B4000000
	215	#define MTTY_SIZE 0x0000001000 // 4 Kbytes
[344]	216
[396]	217	#define MNIC_BASE 0x00B5000000
[402]	218	#define MNIC_SIZE 0x0000080000 // 512 Kbytes (for 8 channels)
[344]	219
	220	// replicated segments : address is incremented by a cluster offset
	221	// offset = cluster(x,y) << (address_width-x_width-y_width);
	222
[396]	223	#define MEMC_BASE 0x0000000000
	224	#define MEMC_SIZE 0x0010000000 // 256 Mbytes per cluster
[344]	225
[396]	226	#define XICU_BASE 0x00B0000000
	227	#define XICU_SIZE 0x0000001000 // 4 Kbytes
[344]	228
[396]	229	#define MDMA_BASE 0x00B1000000
	230	#define MDMA_SIZE 0x0000001000 * NB_DMA_CHANNELS // 4 Kbytes per channel
[344]	231
	232	////////////////////////////////////////////////////////////////////
	233	// TGTID definition in direct space
	234	// For all components: global TGTID = global SRCID = cluster_index
	235	////////////////////////////////////////////////////////////////////
	236
[396]	237	#define MEMC_TGTID 0
	238	#define XICU_TGTID 1
	239	#define MDMA_TGTID 2
	240	#define MTTY_TGTID 3
	241	#define FBUF_TGTID 4
	242	#define BDEV_TGTID 5
	243	#define MNIC_TGTID 6
	244	#define BROM_TGTID 7
[344]	245
	246	/////////////////////////////////
	247	int _main(int argc, char *argv[])
	248	{
	249	using namespace sc_core;
	250	using namespace soclib::caba;
	251	using namespace soclib::common;
	252
	253
[396]	254	char soft_name[256] = SOFT_NAME; // pathname to binary code
[344]	255	size_t ncycles = 1000000000; // simulated cycles
	256	char disk_name[256] = BDEV_IMAGE_NAME; // pathname to the disk image
	257	char nic_rx_name[256] = NIC_RX_NAME; // pathname to the rx packets file
	258	char nic_tx_name[256] = NIC_TX_NAME; // pathname to the tx packets file
	259	ssize_t threads_nr = 1; // simulator's threads number
	260	bool debug_ok = false; // trace activated
	261	size_t debug_period = 1; // trace period
[396]	262	size_t debug_memc_id = TRACE_MEMC_ID; // index of memc to be traced
[344]	263	size_t debug_proc_id = TRACE_PROC_ID; // index of proc to be traced
	264	uint32_t debug_from = 0; // trace start cycle
	265	uint32_t frozen_cycles = MAX_FROZEN_CYCLES; // monitoring frozen processor
[396]	266	size_t cluster_io_id = 0; // index of cluster containing IOs
[344]	267
	268	////////////// command line arguments //////////////////////
	269	if (argc > 1)
	270	{
	271	for (int n = 1; n < argc; n = n + 2)
	272	{
	273	if ((strcmp(argv[n],"-NCYCLES") == 0) && (n+1<argc))
	274	{
	275	ncycles = atoi(argv[n+1]);
	276	}
	277	else if ((strcmp(argv[n],"-SOFT") == 0) && (n+1<argc) )
	278	{
	279	strcpy(soft_name, argv[n+1]);
	280	}
	281	else if ((strcmp(argv[n],"-DISK") == 0) && (n+1<argc) )
	282	{
	283	strcpy(disk_name, argv[n+1]);
	284	}
	285	else if ((strcmp(argv[n],"-DEBUG") == 0) && (n+1<argc) )
	286	{
	287	debug_ok = true;
	288	debug_from = atoi(argv[n+1]);
	289	}
	290	else if ((strcmp(argv[n],"-MEMCID") == 0) && (n+1<argc) )
	291	{
	292	debug_memc_id = atoi(argv[n+1]);
	293	assert( (debug_memc_id < (CLUSTER_X*CLUSTER_Y) ) &&
	294	"debug_memc_id larger than XMAX * YMAX" );
	295	}
	296	else if ((strcmp(argv[n],"-PROCID") == 0) && (n+1<argc) )
	297	{
	298	debug_proc_id = atoi(argv[n+1]);
	299	assert( (debug_proc_id < (CLUSTER_X * CLUSTER_Y * NB_PROCS_MAX) ) &&
	300	"debug_proc_id larger than XMAX * YMAX * NB_PROCS" );
	301	}
	302	else if ((strcmp(argv[n], "-THREADS") == 0) && ((n+1) < argc))
	303	{
	304	threads_nr = atoi(argv[n+1]);
	305	threads_nr = (threads_nr < 1) ? 1 : threads_nr;
	306	}
	307	else if ((strcmp(argv[n], "-FROZEN") == 0) && (n+1 < argc))
	308	{
	309	frozen_cycles = atoi(argv[n+1]);
	310	}
	311	else if ((strcmp(argv[n], "-PERIOD") == 0) && (n+1 < argc))
	312	{
	313	debug_period = atoi(argv[n+1]);
	314	}
	315	else
	316	{
	317	std::cout << " Arguments are (key,value) couples." << std::endl;
	318	std::cout << " The order is not important." << std::endl;
	319	std::cout << " Accepted arguments are :" << std::endl << std::endl;
	320	std::cout << " -SOFT pathname_for_embedded_soft" << std::endl;
	321	std::cout << " -DISK pathname_for_disk_image" << std::endl;
	322	std::cout << " -NCYCLES number_of_simulated_cycles" << std::endl;
	323	std::cout << " -DEBUG debug_start_cycle" << std::endl;
	324	std::cout << " -THREADS simulator's threads number" << std::endl;
	325	std::cout << " -FROZEN max_number_of_lines" << std::endl;
	326	std::cout << " -PERIOD number_of_cycles between trace" << std::endl;
	327	std::cout << " -MEMCID index_memc_to_be_traced" << std::endl;
	328	std::cout << " -PROCID index_proc_to_be_traced" << std::endl;
	329	exit(0);
	330	}
	331	}
	332	}
	333
[396]	334	// checking hardware parameters
	335	assert( ( (CLUSTER_X == 1) or (CLUSTER_X == 2) or (CLUSTER_X == 4) or
	336	(CLUSTER_X == 8) or (CLUSTER_X == 16) ) and
	337	"The CLUSTER_X parameter must be 1, 2, 4, 8 or 16" );
[344]	338
[396]	339	assert( ( (CLUSTER_Y == 1) or (CLUSTER_Y == 2) or (CLUSTER_Y == 4) or
	340	(CLUSTER_Y == 8) or (CLUSTER_Y == 16) ) and
	341	"The CLUSTER_Y parameter must be 1, 2, 4, 8 or 16" );
[344]	342
[396]	343	assert( ( (NB_PROCS_MAX == 1) or (NB_PROCS_MAX == 2) or
	344	(NB_PROCS_MAX == 4) or (NB_PROCS_MAX == 8) ) and
	345	"The NB_PROCS_MAX parameter must be 1, 2, 4 or 8" );
[344]	346
[396]	347	assert( (NB_DMA_CHANNELS < 9) and
	348	"The NB_DMA_CHANNELS parameter must be smaller than 9" );
[344]	349
[396]	350	assert( (NB_TTY_CHANNELS < 15) and
	351	"The NB_TTY_CHANNELS parameter must be smaller than 15" );
[344]	352
[396]	353	assert( (NB_NIC_CHANNELS < 9) and
	354	"The NB_NIC_CHANNELS parameter must be smaller than 9" );
[344]	355
[396]	356	assert( (int_vci_address_width == ext_vci_address_width) and
	357	"address widths must be equal on internal & external networks" );
[344]	358
[396]	359	assert( (int_vci_address_width == 40) and
	360	"VCI address width must be 40 bits" );
[344]	361
[396]	362	std::cout << std::endl;
	363	std::cout << " - CLUSTER_X = " << CLUSTER_X << std::endl;
	364	std::cout << " - CLUSTER_Y = " << CLUSTER_Y << std::endl;
	365	std::cout << " - NB_PROCS_MAX = " << NB_PROCS_MAX << std::endl;
	366	std::cout << " - NB_DMA_CHANNELS = " << NB_DMA_CHANNELS << std::endl;
	367	std::cout << " - NB_TTY_CHANNELS = " << NB_TTY_CHANNELS << std::endl;
	368	std::cout << " - NB_NIC_CHANNELS = " << NB_NIC_CHANNELS << std::endl;
	369	std::cout << " - MEMC_WAYS = " << MEMC_WAYS << std::endl;
	370	std::cout << " - MEMC_SETS = " << MEMC_SETS << std::endl;
	371	std::cout << " - RAM_LATENCY = " << XRAM_LATENCY << std::endl;
	372	std::cout << " - MAX_FROZEN = " << frozen_cycles << std::endl;
	373
	374	std::cout << std::endl;
	375
	376	// Internal and External VCI parameters definition
	377	typedef soclib::caba::VciParams<int_vci_cell_width,
	378	int_vci_plen_width,
	379	int_vci_address_width,
	380	int_vci_rerror_width,
	381	int_vci_clen_width,
	382	int_vci_rflag_width,
	383	int_vci_srcid_width,
	384	int_vci_pktid_width,
	385	int_vci_trdid_width,
	386	int_vci_wrplen_width> vci_param_int;
	387
	388	typedef soclib::caba::VciParamsBis<ext_vci_cell_width,
	389	ext_vci_plen_width,
	390	ext_vci_address_width,
	391	ext_vci_rerror_width,
	392	ext_vci_clen_width,
	393	ext_vci_rflag_width,
	394	ext_vci_srcid_width,
	395	ext_vci_pktid_width,
	396	ext_vci_trdid_width,
	397	ext_vci_wrplen_width> vci_param_ext;
	398
[344]	399	#if USE_OPENMP
	400	omp_set_dynamic(false);
	401	omp_set_num_threads(threads_nr);
	402	std::cerr << "Built with openmp version " << _OPENMP << std::endl;
	403	#endif
	404
	405	// Define parameters depending on mesh size
	406	size_t x_width;
	407	size_t y_width;
	408
	409	if (CLUSTER_X == 1) x_width = 0;
	410	else if (CLUSTER_X == 2) x_width = 1;
	411	else if (CLUSTER_X <= 4) x_width = 2;
	412	else if (CLUSTER_X <= 8) x_width = 3;
[389]	413	else x_width = 4;
[344]	414
	415	if (CLUSTER_Y == 1) y_width = 0;
	416	else if (CLUSTER_Y == 2) y_width = 1;
	417	else if (CLUSTER_Y <= 4) y_width = 2;
	418	else if (CLUSTER_Y <= 8) y_width = 3;
[389]	419	else y_width = 4;
[344]	420
	421	/////////////////////
	422	// Mapping Tables
	423	/////////////////////
	424
[396]	425	// internal network
	426	MappingTable maptabd(int_vci_address_width,
	427	IntTab(x_width + y_width, 16 - x_width - y_width),
	428	IntTab(x_width + y_width, int_vci_srcid_width - x_width - y_width),
	429	0x00FF000000);
[344]	430
	431	for (size_t x = 0; x < CLUSTER_X; x++)
	432	{
	433	for (size_t y = 0; y < CLUSTER_Y; y++)
	434	{
[396]	435	sc_uint<int_vci_address_width> offset;
	436	offset = (sc_uint<int_vci_address_width>)cluster(x,y)
	437	<< (int_vci_address_width-x_width-y_width);
[344]	438
	439	std::ostringstream sh;
[396]	440	sh << "seg_memc_" << x << "_" << y;
	441	maptabd.add(Segment(sh.str(), MEMC_BASE+offset, MEMC_SIZE,
	442	IntTab(cluster(x,y),MEMC_TGTID), true));
[344]	443
	444	std::ostringstream si;
[396]	445	si << "seg_xicu_" << x << "_" << y;
	446	maptabd.add(Segment(si.str(), XICU_BASE+offset, XICU_SIZE,
	447	IntTab(cluster(x,y),XICU_TGTID), false));
[344]	448
	449	std::ostringstream sd;
[396]	450	sd << "seg_mdma_" << x << "_" << y;
	451	maptabd.add(Segment(sd.str(), MDMA_BASE+offset, MDMA_SIZE,
	452	IntTab(cluster(x,y),MDMA_TGTID), false));
[344]	453
	454	if ( cluster(x,y) == cluster_io_id )
	455	{
[396]	456	maptabd.add(Segment("seg_mtty", MTTY_BASE, MTTY_SIZE,
	457	IntTab(cluster(x,y),MTTY_TGTID), false));
	458	maptabd.add(Segment("seg_fbuf", FBUF_BASE, FBUF_SIZE,
	459	IntTab(cluster(x,y),FBUF_TGTID), false));
	460	maptabd.add(Segment("seg_bdev", BDEV_BASE, BDEV_SIZE,
	461	IntTab(cluster(x,y),BDEV_TGTID), false));
	462	maptabd.add(Segment("seg_mnic", MNIC_BASE, MNIC_SIZE,
	463	IntTab(cluster(x,y),MNIC_TGTID), false));
	464	maptabd.add(Segment("seg_brom", BROM_BASE, BROM_SIZE,
	465	IntTab(cluster(x,y),BROM_TGTID), true));
[344]	466	}
	467	}
	468	}
	469	std::cout << maptabd << std::endl;
	470
	471	// external network
[396]	472	MappingTable maptabx(ext_vci_address_width,
	473	IntTab(x_width+y_width),
	474	IntTab(x_width+y_width),
	475	0xFFFF000000ULL);
[344]	476
	477	for (size_t x = 0; x < CLUSTER_X; x++)
	478	{
	479	for (size_t y = 0; y < CLUSTER_Y ; y++)
	480	{
[396]	481
	482	sc_uint<ext_vci_address_width> offset;
	483	offset = (sc_uint<ext_vci_address_width>)cluster(x,y)
	484	<< (ext_vci_address_width-x_width-y_width);
	485
[344]	486	std::ostringstream sh;
	487	sh << "x_seg_memc_" << x << "_" << y;
[396]	488
[344]	489	maptabx.add(Segment(sh.str(), MEMC_BASE+offset,
	490	MEMC_SIZE, IntTab(cluster(x,y)), false));
	491	}
	492	}
	493	std::cout << maptabx << std::endl;
	494
	495	////////////////////
	496	// Signals
	497	///////////////////
	498
[389]	499	sc_clock signal_clk("clk");
[344]	500	sc_signal<bool> signal_resetn("resetn");
	501
	502	// Horizontal inter-clusters DSPIN signals
[396]	503	DspinSignals<dspin_cmd_width>*** signal_dspin_h_cmd_inc =
	504	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_h_cmd_inc", CLUSTER_X-1, CLUSTER_Y, 2);
	505	DspinSignals<dspin_cmd_width>*** signal_dspin_h_cmd_dec =
	506	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_h_cmd_dec", CLUSTER_X-1, CLUSTER_Y, 2);
	507	DspinSignals<dspin_rsp_width>*** signal_dspin_h_rsp_inc =
	508	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_h_rsp_inc", CLUSTER_X-1, CLUSTER_Y, 2);
	509	DspinSignals<dspin_rsp_width>*** signal_dspin_h_rsp_dec =
	510	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_h_rsp_dec", CLUSTER_X-1, CLUSTER_Y, 2);
[344]	511
	512	// Vertical inter-clusters DSPIN signals
[396]	513	DspinSignals<dspin_cmd_width>*** signal_dspin_v_cmd_inc =
	514	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_v_cmd_inc", CLUSTER_X, CLUSTER_Y-1, 2);
	515	DspinSignals<dspin_cmd_width>*** signal_dspin_v_cmd_dec =
	516	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_v_cmd_dec", CLUSTER_X, CLUSTER_Y-1, 2);
	517	DspinSignals<dspin_rsp_width>*** signal_dspin_v_rsp_inc =
	518	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_v_rsp_inc", CLUSTER_X, CLUSTER_Y-1, 2);
	519	DspinSignals<dspin_rsp_width>*** signal_dspin_v_rsp_dec =
	520	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_v_rsp_dec", CLUSTER_X, CLUSTER_Y-1, 2);
[344]	521
	522	// Mesh boundaries DSPIN signals
[396]	523	DspinSignals<dspin_cmd_width>**** signal_dspin_false_cmd_in =
	524	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_false_cmd_in", CLUSTER_X, CLUSTER_Y, 2, 4);
	525	DspinSignals<dspin_cmd_width>**** signal_dspin_false_cmd_out =
	526	alloc_elems<DspinSignals<dspin_cmd_width> >("signal_dspin_false_cmd_out", CLUSTER_X, CLUSTER_Y, 2, 4);
	527	DspinSignals<dspin_rsp_width>**** signal_dspin_false_rsp_in =
	528	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_false_rsp_in", CLUSTER_X, CLUSTER_Y, 2, 4);
	529	DspinSignals<dspin_rsp_width>**** signal_dspin_false_rsp_out =
	530	alloc_elems<DspinSignals<dspin_rsp_width> >("signal_dspin_false_rsp_out", CLUSTER_X, CLUSTER_Y, 2, 4);
[344]	531
	532
	533	////////////////////////////
	534	// Loader
	535	////////////////////////////
	536
	537	#if USE_ALMOS
	538	soclib::common::Loader loader(almos_bootloader_pathname,
	539	almos_archinfo_pathname,
	540	almos_kernel_pathname);
	541	#else
	542	soclib::common::Loader loader(soft_name);
	543	#endif
	544
	545	typedef soclib::common::GdbServer<soclib::common::Mips32ElIss> proc_iss;
	546	proc_iss::set_loader(loader);
	547
	548	////////////////////////////
	549	// Clusters construction
	550	////////////////////////////
	551
[396]	552	TsarXbarCluster<dspin_cmd_width,
	553	dspin_rsp_width,
	554	vci_param_int,
	555	vci_param_ext>* clusters[CLUSTER_X][CLUSTER_Y];
[344]	556
	557	#if USE_OPENMP
	558	#pragma omp parallel
	559	{
	560	#pragma omp for
	561	#endif
	562	for(size_t i = 0; i < (CLUSTER_X * CLUSTER_Y); i++)
	563	{
	564	size_t x = i / CLUSTER_Y;
	565	size_t y = i % CLUSTER_Y;
	566
	567	#if USE_OPENMP
	568	#pragma omp critical
	569	{
	570	#endif
[389]	571
[344]	572	std::ostringstream sc;
	573	sc << "cluster_" << x << "_" << y;
[396]	574	clusters[x][y] = new TsarXbarCluster<dspin_cmd_width,
	575	dspin_rsp_width,
	576	vci_param_int,
	577	vci_param_ext>
[344]	578	(
	579	sc.str().c_str(),
[396]	580	NB_PROCS_MAX,
	581	NB_TTY_CHANNELS,
	582	NB_DMA_CHANNELS,
	583	x,
	584	y,
	585	cluster(x,y),
	586	maptabd,
	587	maptabx,
	588	x_width,
	589	y_width,
	590	int_vci_srcid_width - x_width - y_width, // l_id width,
	591	MEMC_TGTID,
	592	XICU_TGTID,
	593	MDMA_TGTID,
	594	FBUF_TGTID,
	595	MTTY_TGTID,
	596	BROM_TGTID,
	597	MNIC_TGTID,
	598	BDEV_TGTID,
	599	MEMC_WAYS,
	600	MEMC_SETS,
	601	L1_IWAYS,
	602	L1_ISETS,
	603	L1_DWAYS,
	604	L1_DSETS,
	605	XRAM_LATENCY,
	606	(cluster(x,y) == cluster_io_id),
	607	FBUF_X_SIZE,
	608	FBUF_Y_SIZE,
	609	disk_name,
	610	BDEV_SECTOR_SIZE,
	611	NB_NIC_CHANNELS,
	612	nic_rx_name,
	613	nic_tx_name,
	614	NIC_TIMEOUT,
	615	loader,
[344]	616	frozen_cycles,
[389]	617	debug_from ,
[344]	618	debug_ok and (cluster(x,y) == debug_memc_id),
	619	debug_ok and (cluster(x,y) == debug_proc_id)
	620	);
	621
[379]	622	std::cout << std::endl;
[344]	623	std::cout << "cluster_" << x << "_" << y << " constructed" << std::endl;
[379]	624	std::cout << std::endl;
	625
[344]	626	#if USE_OPENMP
	627	} // end critical
	628	#endif
	629	} // end for
	630	#if USE_OPENMP
	631	}
	632	#endif
	633
	634	///////////////////////////////////////////////////////////////
	635	// Net-list
	636	///////////////////////////////////////////////////////////////
	637
	638	// Clock & RESET
	639	for (size_t x = 0; x < (CLUSTER_X); x++){
	640	for (size_t y = 0; y < CLUSTER_Y; y++){
[389]	641	clusters[x][y]->p_clk (signal_clk);
	642	clusters[x][y]->p_resetn (signal_resetn);
[344]	643	}
	644	}
	645
	646	// Inter Clusters horizontal connections
	647	if (CLUSTER_X > 1){
	648	for (size_t x = 0; x < (CLUSTER_X-1); x++){
	649	for (size_t y = 0; y < CLUSTER_Y; y++){
	650	for (size_t k = 0; k < 2; k++){
	651	clusters[x][y]->p_cmd_out[k][EAST] (signal_dspin_h_cmd_inc[x][y][k]);
	652	clusters[x+1][y]->p_cmd_in[k][WEST] (signal_dspin_h_cmd_inc[x][y][k]);
	653	clusters[x][y]->p_cmd_in[k][EAST] (signal_dspin_h_cmd_dec[x][y][k]);
	654	clusters[x+1][y]->p_cmd_out[k][WEST] (signal_dspin_h_cmd_dec[x][y][k]);
	655	clusters[x][y]->p_rsp_out[k][EAST] (signal_dspin_h_rsp_inc[x][y][k]);
	656	clusters[x+1][y]->p_rsp_in[k][WEST] (signal_dspin_h_rsp_inc[x][y][k]);
	657	clusters[x][y]->p_rsp_in[k][EAST] (signal_dspin_h_rsp_dec[x][y][k]);
	658	clusters[x+1][y]->p_rsp_out[k][WEST] (signal_dspin_h_rsp_dec[x][y][k]);
	659	}
	660	}
	661	}
	662	}
	663	std::cout << std::endl << "Horizontal connections established" << std::endl;
	664
	665	// Inter Clusters vertical connections
	666	if (CLUSTER_Y > 1) {
	667	for (size_t y = 0; y < (CLUSTER_Y-1); y++){
	668	for (size_t x = 0; x < CLUSTER_X; x++){
	669	for (size_t k = 0; k < 2; k++){
	670	clusters[x][y]->p_cmd_out[k][NORTH] (signal_dspin_v_cmd_inc[x][y][k]);
	671	clusters[x][y+1]->p_cmd_in[k][SOUTH] (signal_dspin_v_cmd_inc[x][y][k]);
	672	clusters[x][y]->p_cmd_in[k][NORTH] (signal_dspin_v_cmd_dec[x][y][k]);
	673	clusters[x][y+1]->p_cmd_out[k][SOUTH] (signal_dspin_v_cmd_dec[x][y][k]);
	674	clusters[x][y]->p_rsp_out[k][NORTH] (signal_dspin_v_rsp_inc[x][y][k]);
	675	clusters[x][y+1]->p_rsp_in[k][SOUTH] (signal_dspin_v_rsp_inc[x][y][k]);
	676	clusters[x][y]->p_rsp_in[k][NORTH] (signal_dspin_v_rsp_dec[x][y][k]);
	677	clusters[x][y+1]->p_rsp_out[k][SOUTH] (signal_dspin_v_rsp_dec[x][y][k]);
	678	}
	679	}
	680	}
	681	}
	682	std::cout << "Vertical connections established" << std::endl;
	683
	684	// East & West boundary cluster connections
	685	for (size_t y = 0; y < CLUSTER_Y; y++)
	686	{
	687	for (size_t k = 0; k < 2; k++)
	688	{
[389]	689	clusters[0][y]->p_cmd_in[k][WEST] (signal_dspin_false_cmd_in[0][y][k][WEST]);
	690	clusters[0][y]->p_cmd_out[k][WEST] (signal_dspin_false_cmd_out[0][y][k][WEST]);
	691	clusters[0][y]->p_rsp_in[k][WEST] (signal_dspin_false_rsp_in[0][y][k][WEST]);
	692	clusters[0][y]->p_rsp_out[k][WEST] (signal_dspin_false_rsp_out[0][y][k][WEST]);
[344]	693
[389]	694	clusters[CLUSTER_X-1][y]->p_cmd_in[k][EAST] (signal_dspin_false_cmd_in[CLUSTER_X-1][y][k][EAST]);
	695	clusters[CLUSTER_X-1][y]->p_cmd_out[k][EAST] (signal_dspin_false_cmd_out[CLUSTER_X-1][y][k][EAST]);
	696	clusters[CLUSTER_X-1][y]->p_rsp_in[k][EAST] (signal_dspin_false_rsp_in[CLUSTER_X-1][y][k][EAST]);
	697	clusters[CLUSTER_X-1][y]->p_rsp_out[k][EAST] (signal_dspin_false_rsp_out[CLUSTER_X-1][y][k][EAST]);
[344]	698	}
	699	}
	700
	701	// North & South boundary clusters connections
	702	for (size_t x = 0; x < CLUSTER_X; x++)
	703	{
	704	for (size_t k = 0; k < 2; k++)
	705	{
[389]	706	clusters[x][0]->p_cmd_in[k][SOUTH] (signal_dspin_false_cmd_in[x][0][k][SOUTH]);
	707	clusters[x][0]->p_cmd_out[k][SOUTH] (signal_dspin_false_cmd_out[x][0][k][SOUTH]);
	708	clusters[x][0]->p_rsp_in[k][SOUTH] (signal_dspin_false_rsp_in[x][0][k][SOUTH]);
	709	clusters[x][0]->p_rsp_out[k][SOUTH] (signal_dspin_false_rsp_out[x][0][k][SOUTH]);
[344]	710
[389]	711	clusters[x][CLUSTER_Y-1]->p_cmd_in[k][NORTH] (signal_dspin_false_cmd_in[x][CLUSTER_Y-1][k][NORTH]);
	712	clusters[x][CLUSTER_Y-1]->p_cmd_out[k][NORTH] (signal_dspin_false_cmd_out[x][CLUSTER_Y-1][k][NORTH]);
	713	clusters[x][CLUSTER_Y-1]->p_rsp_in[k][NORTH] (signal_dspin_false_rsp_in[x][CLUSTER_Y-1][k][NORTH]);
	714	clusters[x][CLUSTER_Y-1]->p_rsp_out[k][NORTH] (signal_dspin_false_rsp_out[x][CLUSTER_Y-1][k][NORTH]);
[344]	715	}
	716	}
[396]	717	std::cout << "North, South, West, East connections established" << std::endl;
	718	std::cout << std::endl;
[344]	719
	720
	721	////////////////////////////////////////////////////////
	722	// Simulation
	723	///////////////////////////////////////////////////////
	724
	725	sc_start(sc_core::sc_time(0, SC_NS));
	726	signal_resetn = false;
	727
	728	// network boundaries signals
	729	for (size_t x = 0; x < CLUSTER_X ; x++){
	730	for (size_t y = 0; y < CLUSTER_Y ; y++){
	731	for (size_t k = 0; k < 2; k++){
	732	for (size_t a = 0; a < 4; a++){
[389]	733	signal_dspin_false_cmd_in [x][y][k][a].write = false;
	734	signal_dspin_false_cmd_in [x][y][k][a].read = true;
[344]	735	signal_dspin_false_cmd_out[x][y][k][a].write = false;
[389]	736	signal_dspin_false_cmd_out[x][y][k][a].read = true;
[344]	737
[389]	738	signal_dspin_false_rsp_in [x][y][k][a].write = false;
	739	signal_dspin_false_rsp_in [x][y][k][a].read = true;
[344]	740	signal_dspin_false_rsp_out[x][y][k][a].write = false;
[389]	741	signal_dspin_false_rsp_out[x][y][k][a].read = true;
[344]	742	}
	743	}
	744	}
	745	}
	746
	747	sc_start(sc_core::sc_time(1, SC_NS));
	748	signal_resetn = true;
	749
	750	for (size_t n = 1; n < ncycles; n++)
	751	{
[396]	752	// Monitor a specific address for L1 & L2 caches
	753	//clusters[0][0]->proc[0]->cache_monitor(0x800002c000ULL);
	754	//clusters[1][0]->memc->copies_monitor(0x800002C000ULL);
	755
[344]	756	if (debug_ok and (n > debug_from) and (n % debug_period == 0))
	757	{
	758	std::cout << "****************** cycle " << std::dec << n ;
	759	std::cout << " ************************************************" << std::endl;
	760
[379]	761	// trace proc[debug_proc_id]
	762	if ( debug_proc_id < (CLUSTER_X * CLUSTER_Y * NB_PROCS_MAX) )
	763	{
[396]	764	size_t l = debug_proc_id % NB_PROCS_MAX ;
[379]	765	size_t y = (debug_proc_id / NB_PROCS_MAX) % CLUSTER_Y ;
	766	size_t x = debug_proc_id / (CLUSTER_Y * NB_PROCS_MAX) ;
	767
[396]	768	std::ostringstream vci_signame;
	769	vci_signame << "[SIG]PROC_" << x << "_" << y << "_" << l ;
	770	std::ostringstream p2m_signame;
	771	p2m_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " P2M" ;
	772	std::ostringstream m2p_signame;
	773	m2p_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " M2P" ;
[404]	774	std::ostringstream cmd_signame;
	775	cmd_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " CMD" ;
	776	std::ostringstream rsp_signame;
	777	rsp_signame << "[SIG]PROC_" << x << "_" << y << "_" << l << " RSP" ;
[379]	778
	779	clusters[x][y]->proc[l]->print_trace();
[404]	780	clusters[x][y]->wi_proc[l]->print_trace();
[396]	781	clusters[x][y]->signal_vci_ini_proc[l].print_trace(vci_signame.str());
	782	clusters[x][y]->signal_dspin_p2m_proc[l].print_trace(p2m_signame.str());
	783	clusters[x][y]->signal_dspin_m2p_proc[l].print_trace(m2p_signame.str());
[404]	784	clusters[x][y]->signal_dspin_cmd_proc_i[l].print_trace(cmd_signame.str());
	785	clusters[x][y]->signal_dspin_rsp_proc_i[l].print_trace(rsp_signame.str());
	786
	787	clusters[x][y]->xbar_rsp_d->print_trace();
	788	clusters[x][y]->xbar_cmd_d->print_trace();
	789	clusters[x][y]->signal_dspin_cmd_l2g_d.print_trace("[SIG]L2G CMD");
	790	clusters[x][y]->signal_dspin_cmd_g2l_d.print_trace("[SIG]G2L CMD");
	791	clusters[x][y]->signal_dspin_rsp_l2g_d.print_trace("[SIG]L2G RSP");
	792	clusters[x][y]->signal_dspin_rsp_g2l_d.print_trace("[SIG]G2L RSP");
[379]	793	}
[404]	794
[379]	795	// trace memc[debug_memc_id]
	796	if ( debug_memc_id < (CLUSTER_X * CLUSTER_Y) )
	797	{
	798	size_t x = debug_memc_id / CLUSTER_Y;
	799	size_t y = debug_memc_id % CLUSTER_Y;
[344]	800
[396]	801	std::ostringstream smemc;
	802	smemc << "[SIG]MEMC_" << x << "_" << y;
	803	std::ostringstream sxram;
	804	sxram << "[SIG]XRAM_" << x << "_" << y;
	805	std::ostringstream sm2p;
	806	sm2p << "[SIG]MEMC_" << x << "_" << y << " M2P" ;
	807	std::ostringstream sp2m;
	808	sp2m << "[SIG]MEMC_" << x << "_" << y << " P2M" ;
[404]	809	std::ostringstream cmd_signame;
	810	cmd_signame << "[SIG]MEMC_" << x << "_" << y << " CMD" ;
	811	std::ostringstream rsp_signame;
	812	rsp_signame << "[SIG]MEMC_" << x << "_" << y << " RSP" ;
[344]	813
[396]	814	clusters[x][y]->memc->print_trace();
[404]	815	clusters[x][y]->wt_memc->print_trace();
[396]	816	clusters[x][y]->signal_vci_tgt_memc.print_trace(smemc.str());
	817	clusters[x][y]->signal_vci_xram.print_trace(sxram.str());
	818	clusters[x][y]->signal_dspin_p2m_memc.print_trace(sp2m.str());
	819	clusters[x][y]->signal_dspin_m2p_memc.print_trace(sm2p.str());
[404]	820	clusters[x][y]->signal_dspin_cmd_memc_t.print_trace(cmd_signame.str());
	821	clusters[x][y]->signal_dspin_rsp_memc_t.print_trace(rsp_signame.str());
[379]	822	}
[396]	823
	824	// trace replicated peripherals
[404]	825	// clusters[1][1]->mdma->print_trace();
	826	// clusters[1][1]->signal_vci_tgt_mdma.print_trace("[SIG]MDMA_TGT_1_1");
	827	// clusters[1][1]->signal_vci_ini_mdma.print_trace("[SIG]MDMA_INI_1_1");
[396]	828
	829
[379]	830	// trace external peripherals
	831	size_t io_x = cluster_io_id / CLUSTER_Y;
	832	size_t io_y = cluster_io_id % CLUSTER_Y;
	833
[404]	834	clusters[io_x][io_y]->brom->print_trace();
	835	clusters[io_x][io_y]->wt_brom->print_trace();
	836	clusters[io_x][io_y]->signal_vci_tgt_brom.print_trace("[SIG]BROM");
	837	clusters[io_x][io_y]->signal_dspin_cmd_brom_t.print_trace("[SIG]BROM CMD");
	838	clusters[io_x][io_y]->signal_dspin_rsp_brom_t.print_trace("[SIG]BROM RSP");
[396]	839
[404]	840	// clusters[io_x][io_y]->bdev->print_trace();
	841	// clusters[io_x][io_y]->signal_vci_tgt_bdev.print_trace("[SIG]BDEV_TGT");
	842	// clusters[io_x][io_y]->signal_vci_ini_bdev.print_trace("[SIG]BDEV_INI");
[344]	843	}
	844
	845	sc_start(sc_core::sc_time(1, SC_NS));
	846	}
	847	return EXIT_SUCCESS;
	848	}
	849
	850	int sc_main (int argc, char *argv[])
	851	{
	852	try {
	853	return _main(argc, argv);
	854	} catch (std::exception &e) {
	855	std::cout << e.what() << std::endl;
	856	} catch (...) {
	857	std::cout << "Unknown exception occured" << std::endl;
	858	throw;
	859	}
	860	return 1;
	861	}
	862
	863
	864	// Local Variables:
	865	// tab-width: 3
	866	// c-basic-offset: 3
	867	// c-file-offsets:((innamespace . 0)(inline-open . 0))
	868	// indent-tabs-mode: nil
	869	// End:
	870
	871	// vim: filetype=cpp:expandtab:shiftwidth=3:tabstop=3:softtabstop=3

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