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source: trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Issue_queue/src/Issue_queue_function_out_of_order_genMoore.cpp @ 111

Last change on this file since 111 was 111, checked in by rosiere, 15 years ago
1) Decod_queue : multi implementation (one_fifo, multi_fifo) 2) Issue_queue : multi implementation (in_order, out_of_order) 3) Direction : Add Meta predictor 4) Context_State : re add Branch_complete, More priority to Load miss (is not speculative) 5) Return_Address_Stack : update reg_PREDICT pointer on decod miss prediction 6) UPT : Fix bug in multi event 7) Prediction_glue : in read_stack case, insert in UPT pc_next 8) Rename select : when rob have an event (need flush), read_r{a,b,c} and write_r{d,e} is set at 0
Property svn:keywords set to `Id`
File size: 10.1 KB

Line
1	#ifdef SYSTEMC
2	/*
3	* $Id: Issue_queue_function_out_of_order_genMoore.cpp 111 2009-02-27 18:37:40Z rosiere $
4	*
5	* [ Description ]
6	*
7	*/
8
9	#include "Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Issue_queue/include/Issue_queue.h"
10
11	namespace morpheo {
12	namespace behavioural {
13	namespace core {
14	namespace multi_ooo_engine {
15	namespace ooo_engine {
16	namespace issue_queue {
17
18
19	#undef FUNCTION
20	#define FUNCTION "Issue_queue::function_out_of_order_genMoore"
21	void Issue_queue::function_out_of_order_genMoore (void)
22	{
23	log_begin(Issue_queue,FUNCTION);
24	log_function(Issue_queue,FUNCTION,_name.c_str());
25
26	// ===================================================================
27	// =====[ REEXECUTE_UNIT ]============================================
28	// ===================================================================
29	// Same implementation in in-order and out-of-order
30
31	// ===================================================================
32	// =====[ ISSUE_IN ]==================================================
33	// ===================================================================
34	{
35	Tcontrol_t ack [_param->_nb_rename_unit][_param->_max_nb_inst_rename];
36
37	// Initialisation
38	for (uint32_t i=0; i<_param->_nb_bank; i++)
39	internal_BANK_IN_ACK [i] = false;
40
41	for (uint32_t i=0; i<_param->_nb_rename_unit; i++)
42	for (uint32_t j=0; j<_param->_nb_inst_rename[i]; j++)
43	ack [i][j] = false;
44
45	std::list<generic::priority::select_t> * select_reg = _priority_reg->select(); // same select for all issue
46
47	// issue_in interface
48	std::list<generic::priority::select_t> * select_in = _priority_in ->select(); // same select for all issue
49	for (std::list<generic::priority::select_t>::iterator it=select_in ->begin();
50	it!=select_in ->end();
51	it++)
52	{
53	// Get num interface
54	uint32_t num_rename_unit = it->grp;
55	uint32_t num_inst_rename = it->elt;
56
57	log_printf(TRACE,Issue_queue,FUNCTION," * ISSUE_IN [%d][%d]",num_rename_unit,num_inst_rename);
58
59	// scan all bank
60	for (std::list<generic::priority::select_t>::iterator it=select_reg->begin();
61	it!=select_reg->end();
62	it++)
63	{
64	uint32_t num_bank = it->grp;
65
66	log_printf(TRACE,Issue_queue,FUNCTION," * BANK [%d]",num_bank);
67
68	// test if bank is not busy (full or previous access)
69	if (not internal_BANK_IN_ACK [num_bank] and (_issue_queue[num_bank].size() < _param->_size_bank))
70	{
71	log_printf(TRACE,Issue_queue,FUNCTION," * find");
72
73	// find
74	ack [num_rename_unit][num_inst_rename] = true;
75	internal_BANK_IN_ACK [num_bank] = true;
76	internal_BANK_IN_NUM_RENAME_UNIT [num_bank] = num_rename_unit;
77	internal_BANK_IN_NUM_INST [num_bank] = num_inst_rename;
78
79	break; // Stop scan
80	}
81	else
82	log_printf(TRACE,Issue_queue,FUNCTION," * not find");
83	}
84	}
85
86	for (uint32_t i=0; i<_param->_nb_rename_unit; i++)
87	for (uint32_t j=0; j<_param->_nb_inst_rename[i]; j++)
88	PORT_WRITE(out_ISSUE_IN_ACK [i][j],ack [i][j]);
89	}
90
91	// ===================================================================
92	// =====[ ISSUE_OUT ]=================================================
93	// ===================================================================
94	{
95	Tcontrol_t val [_param->_nb_inst_issue];
96
97	for (uint32_t i=0; i<_param->_nb_inst_issue; i++)
98	val [i] = 0;
99
100	// From Reexecute_queue
101
102	// uint32_t num_reexecute_entry = 0;
103	for (std::list<entry_t*>::iterator it=_reexecute_queue.begin();
104	it!=_reexecute_queue.end();
105	++it)
106	{
107	entry_t* entry = (*it);
108
109	for (uint32_t i=0; i<_param->_nb_inst_issue; i++)
110	// test if no previous transaction and can accept this type
111	if ((val[i] == 0) and _param->_table_issue_type [i][entry->_type])
112	{
113	// find a issue port
114	val [i] = 1;
115
116	if (_param->_have_port_context_id)
117	PORT_WRITE(out_ISSUE_OUT_CONTEXT_ID [i], entry->_context_id );
118	if (_param->_have_port_front_end_id)
119	PORT_WRITE(out_ISSUE_OUT_FRONT_END_ID [i], entry->_front_end_id );
120	if (_param->_have_port_rob_ptr )
121	PORT_WRITE(out_ISSUE_OUT_PACKET_ID [i], entry->_packet_id );
122	PORT_WRITE(out_ISSUE_OUT_OPERATION [i], entry->_operation );
123	PORT_WRITE(out_ISSUE_OUT_TYPE [i], entry->_type );
124	PORT_WRITE(out_ISSUE_OUT_STORE_QUEUE_PTR_WRITE [i], entry->_store_queue_ptr_write);
125	if (_param->_have_port_load_queue_ptr)
126	PORT_WRITE(out_ISSUE_OUT_LOAD_QUEUE_PTR_WRITE [i], entry->_load_queue_ptr_write );
127	PORT_WRITE(out_ISSUE_OUT_HAS_IMMEDIAT [i], entry->_has_immediat );
128	PORT_WRITE(out_ISSUE_OUT_IMMEDIAT [i], entry->_immediat );
129	PORT_WRITE(out_ISSUE_OUT_READ_RA [i], entry->_read_ra );
130	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RA [i], entry->_num_reg_ra );
131	PORT_WRITE(out_ISSUE_OUT_READ_RB [i], entry->_read_rb );
132	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RB [i], entry->_num_reg_rb );
133	PORT_WRITE(out_ISSUE_OUT_READ_RC [i], entry->_read_rc );
134	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RC [i], entry->_num_reg_rc );
135	PORT_WRITE(out_ISSUE_OUT_WRITE_RD [i], entry->_write_rd );
136	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RD [i], entry->_num_reg_rd );
137	PORT_WRITE(out_ISSUE_OUT_WRITE_RE [i], entry->_write_re );
138	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RE [i], entry->_num_reg_re );
139
140	internal_ISSUE_OUT_FROM_REEXECUTE [i] = true;
141	// internal_ISSUE_OUT_NUM_BANK [i] = num_reexecute_entry;
142	internal_ISSUE_OUT_ENTRY [i] = entry;
143
144	break; // stop scan
145	}
146	// num_reexecute_entry ++;
147	}
148
149	// From Issue_queue
150
151	std::list<generic::priority::select_t> * select = _priority_out->select(); // same select for all issue
152
153	for (std::list<generic::priority::select_t>::iterator it=select->begin();
154	it!=select->end();
155	it++)
156	{
157	uint32_t num_bank=it->grp;
158
159	// log_printf(TRACE,Issue_queue,Issue_queue,FUNCTION," * Bank [%d]",num_bank);
160
161	// Have instruction ?
162	if (not _issue_queue [num_bank].empty())
163	{
164	// log_printf(TRACE,Issue_queue,Issue_queue,FUNCTION," * Not Empty !!!");
165
166	entry_t* entry = _issue_queue [num_bank].front();
167
168	for (uint32_t i=0; i<_param->_nb_inst_issue; i++)
169	// test if no previous transaction and can accept this type
170	if ((val[i] == 0) and _param->_table_issue_type [i][entry->_type])
171	{
172	// find a issue port
173	val [i] = 1;
174
175	if (_param->_have_port_context_id)
176	PORT_WRITE(out_ISSUE_OUT_CONTEXT_ID [i], entry->_context_id );
177	if (_param->_have_port_front_end_id)
178	PORT_WRITE(out_ISSUE_OUT_FRONT_END_ID [i], entry->_front_end_id );
179	if (_param->_have_port_rob_ptr )
180	PORT_WRITE(out_ISSUE_OUT_PACKET_ID [i], entry->_packet_id );
181	PORT_WRITE(out_ISSUE_OUT_OPERATION [i], entry->_operation );
182	PORT_WRITE(out_ISSUE_OUT_TYPE [i], entry->_type );
183	PORT_WRITE(out_ISSUE_OUT_STORE_QUEUE_PTR_WRITE [i], entry->_store_queue_ptr_write);
184	if (_param->_have_port_load_queue_ptr)
185	PORT_WRITE(out_ISSUE_OUT_LOAD_QUEUE_PTR_WRITE [i], entry->_load_queue_ptr_write );
186	PORT_WRITE(out_ISSUE_OUT_HAS_IMMEDIAT [i], entry->_has_immediat );
187	PORT_WRITE(out_ISSUE_OUT_IMMEDIAT [i], entry->_immediat );
188	PORT_WRITE(out_ISSUE_OUT_READ_RA [i], entry->_read_ra );
189	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RA [i], entry->_num_reg_ra );
190	PORT_WRITE(out_ISSUE_OUT_READ_RB [i], entry->_read_rb );
191	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RB [i], entry->_num_reg_rb );
192	PORT_WRITE(out_ISSUE_OUT_READ_RC [i], entry->_read_rc );
193	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RC [i], entry->_num_reg_rc );
194	PORT_WRITE(out_ISSUE_OUT_WRITE_RD [i], entry->_write_rd );
195	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RD [i], entry->_num_reg_rd );
196	PORT_WRITE(out_ISSUE_OUT_WRITE_RE [i], entry->_write_re );
197	PORT_WRITE(out_ISSUE_OUT_NUM_REG_RE [i], entry->_num_reg_re );
198
199	internal_ISSUE_OUT_FROM_REEXECUTE [i] = false;
200	internal_ISSUE_OUT_NUM_BANK [i] = num_bank;
201	internal_ISSUE_OUT_ENTRY [i] = entry;
202
203	break; // stop scan
204	}
205	}
206	}
207
208	for (uint32_t i=0; i<_param->_nb_inst_issue; i++)
209	{
210	internal_ISSUE_OUT_VAL [i] = val [i];
211	PORT_WRITE(out_ISSUE_OUT_VAL [i], internal_ISSUE_OUT_VAL [i]);
212	}
213	}
214
215	log_end(Issue_queue,FUNCTION);
216	};
217
218	}; // end namespace issue_queue
219	}; // end namespace ooo_engine
220	}; // end namespace multi_ooo_engine
221	}; // end namespace core
222
223	}; // end namespace behavioural
224	}; // end namespace morpheo
225	#endif

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