Context Navigation

← Previous Change
Next Change →

Morpheo

Timestamp:

Dec 16, 2008, 5:24:26 PM (16 years ago)

Author:

rosiere

Message:

1) Update Prediction Table - New architecture (systemC) done (and tested) -> need change interface in top level
2) Change documentation on VHDL generation
3) Change VHDL constant (case std_logic and std_logic_vector)

Location:

trunk/IPs/systemC/processor/Morpheo

Files:

: 64 edited

Behavioural/Core/Multi_Front_end/Front_end/Context_State/SelfTest/src/test.cpp (modified) (3 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Context_State/include/Context_State.h (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_allocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_deallocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_transition.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod/SelfTest/include/Decod_request.h (modified) (8 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod/src/Decod_allocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod_queue/src/Decod_queue_allocation.cpp (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod_queue/src/Parameters.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/SelfTest/src/test.cpp (modified) (3 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/include/Return_Address_Stack.h (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Parameters.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_allocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_deallocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_transition.cpp (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_min.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_mono_context.cfg (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_mono_context_multi_decod.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_multi_context.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/src/main.cpp (modified) (5 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/src/test.cpp (modified) (4 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/SelfTest/config_mono_context.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/SelfTest/src/test.cpp (modified) (25 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/include/Types.h (modified) (4 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/include/Update_Prediction_Table.h (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_allocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_deallocation.cpp (modified) (3 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_genMealy_decod.cpp (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_genMoore.cpp (modified) (5 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_transition.cpp (modified) (12 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/include/Parameters.h (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/include/Prediction_unit.h (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Parameters.cpp (modified) (3 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Parameters_print.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Prediction_unit_allocation.cpp (modified) (5 diffs)
Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Prediction_unit_deallocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_1-decod_unit_1-a.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_1-a.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_2-a.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_2-b.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-min.cfg (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/SelfTest/src/main.cpp (modified) (5 diffs)
Behavioural/Core/Multi_Front_end/Front_end/include/Parameters.h (modified) (2 diffs)
Behavioural/Core/Multi_Front_end/Front_end/src/Front_end_allocation.cpp (modified) (1 diff)
Behavioural/Core/Multi_Front_end/Front_end/src/Parameters.cpp (modified) (4 diffs)
Behavioural/Generic/Victim/Victim_Pseudo_LRU/SelfTest/include/test.h (modified) (1 diff)
Behavioural/Generic/Victim/Victim_Pseudo_LRU/SelfTest/src/test.cpp (modified) (2 diffs)
Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_allocation.cpp (modified) (1 diff)
Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_vhdl_body.cpp (modified) (3 diffs)
Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_vhdl_declaration.cpp (modified) (1 diff)
Behavioural/include/Version.h (modified) (1 diff)
Behavioural/include/Vhdl.h (modified) (1 diff)
Behavioural/src/Component_vhdl_instance.cpp (modified) (3 diffs)
Behavioural/src/Interface_testbench_test.cpp (modified) (1 diff)
Behavioural/src/Interface_testbench_test_ok.cpp (modified) (1 diff)
Behavioural/src/Signal_testbench_test_ok.cpp (modified) (1 diff)
Behavioural/src/Vhdl_set_constant.cpp (modified) (2 diffs)
Behavioural/src/Vhdl_set_signal.cpp (modified) (2 diffs)
Behavioural/src/Vhdl_std_logic.cpp (modified) (2 diffs)
Documentation/doc/document-morpheo-vhdl_generation/tex/document-morpheo-vhdl_generation-fr.tex (modified) (3 diffs)
Files/Instance_min.cfg (modified) (1 diff)
Files/Instance_scalar_1.cfg (modified) (1 diff)
Files/Instance_scalar_2.cfg (modified) (1 diff)
Files/Morpheo.sim (modified) (1 diff)

Legend:

: Unmodified
: Added
: Removed

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Context_State/SelfTest/src/test.cpp

-                      r88
+                      r95
 //ALLOC1_SC_SIGNAL( in_BRANCH_EVENT_MISS_PREDICTION   ," in_BRANCH_EVENT_MISS_PREDICTION   ",Tcontrol_t   ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_SRC       ," in_BRANCH_EVENT_ADDRESS_SRC       ",Taddress_t   ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST_VAL  ," in_BRANCH_EVENT_ADDRESS_DEST_VAL  ",Tcontrol_t   ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST      ," in_BRANCH_EVENT_ADDRESS_DEST      ",Taddress_t   ,_param->_nb_context);
 …
 //INSTANCE1_SC_SIGNAL(_Context_State, in_BRANCH_EVENT_MISS_PREDICTION   ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Context_State, in_BRANCH_EVENT_ADDRESS_SRC       ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Context_State, in_BRANCH_EVENT_ADDRESS_DEST_VAL  ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Context_State, in_BRANCH_EVENT_ADDRESS_DEST      ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Context_State, in_DECOD_EVENT_VAL                ,_param->_nb_decod_unit);
 …
 //DELETE1_SC_SIGNAL( in_BRANCH_EVENT_MISS_PREDICTION   ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_SRC       ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST_VAL  ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST      ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DECOD_EVENT_VAL                ,_param->_nb_decod_unit);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Context_State/include/Context_State.h

-                      r88
+                      r95
 //public    : SC_IN (Tcontrol_t         )  **  in_BRANCH_EVENT_MISS_PREDICTION       ;//[nb_context]
   public    : SC_IN (Taddress_t         )  **  in_BRANCH_EVENT_ADDRESS_SRC           ;//[nb_context]
+  public    : SC_IN (Tcontrol_t         )  **  in_BRANCH_EVENT_ADDRESS_DEST_VAL      ;//[nb_context]
   public    : SC_IN (Taddress_t         )  **  in_BRANCH_EVENT_ADDRESS_DEST          ;//[nb_context]
 …
   public    : SC_OUT(Tcontrol_t         )  ** out_EVENT_ADDRESS_NEXT_VAL             ;//[nb_context]
   public    : SC_OUT(Tcontrol_t         )  ** out_EVENT_IS_DS_TAKE                   ;//[nb_context]
+  public    : SC_OUT(Tevent_type_t      )  ** out_EVENT_TYPE                         ;//[nb_context]
+  public    : SC_OUT(Tdepth_t           )  ** out_EVENT_DEPTH                        ;//[nb_context]
     // ~~~~~[ Interface "spr_event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_allocation.cpp

r88	r95
66	66	// ALLOC1_SIGNAL_IN ( in_BRANCH_EVENT_MISS_PREDICTION ,"miss_prediction" ,Tcontrol_t ,1);
67	67	ALLOC1_SIGNAL_IN ( in_BRANCH_EVENT_ADDRESS_SRC ,"address_src" ,Taddress_t ,_param->_size_instruction_address);
	68	ALLOC1_SIGNAL_IN ( in_BRANCH_EVENT_ADDRESS_DEST_VAL ,"address_dest_val" ,Tcontrol_t ,1);
68	69	ALLOC1_SIGNAL_IN ( in_BRANCH_EVENT_ADDRESS_DEST ,"address_dest" ,Taddress_t ,_param->_size_instruction_address);
69	70	}

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_deallocation.cpp

r88	r95
34	34	// DELETE1_SIGNAL( in_BRANCH_EVENT_MISS_PREDICTION ,_param->_nb_context,1);
35	35	DELETE1_SIGNAL( in_BRANCH_EVENT_ADDRESS_SRC ,_param->_nb_context,_param->_size_instruction_address);
	36	DELETE1_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST_VAL ,_param->_nb_context,1);
36	37	DELETE1_SIGNAL( in_BRANCH_EVENT_ADDRESS_DEST ,_param->_nb_context,_param->_size_instruction_address);
37	38

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Context_State/src/Context_State_transition.cpp

-                      r88
+                      r95
               if (is_valid)
+                {
+                  Tcontrol_t dest_val = PORT_READ(in_BRANCH_EVENT_ADDRESS_DEST_VAL[i]);
                   reg_STATE                  [i] =  CONTEXT_STATE_KO_MISS;
                   reg_EVENT_ADDRESS          [i] =  PORT_READ(in_BRANCH_EVENT_ADDRESS_SRC [i])+1; // address delay slot
                   reg_EVENT_ADDRESS_EPCR     [i] =  PORT_READ(in_BRANCH_EVENT_ADDRESS_DEST[i]);   // address_next
                   reg_EVENT_ADDRESS_EPCR_VAL [i] =  1; // address_dest is valid
+                  reg_EVENT_ADDRESS          [i] =  PORT_READ(in_BRANCH_EVENT_ADDRESS_SRC  [i])+1; // address delay slot
+                  reg_EVENT_ADDRESS_EPCR     [i] =  PORT_READ(in_BRANCH_EVENT_ADDRESS_DEST [i]);   // address_next
+                  reg_EVENT_ADDRESS_EPCR_VAL [i] =  dest_val;
                 //reg_EVENT_ADDRESS_EEAR     [i] =  0;
                   reg_EVENT_ADDRESS_EEAR_VAL [i] =  0;
                   reg_EVENT_IS_DELAY_SLOT    [i] =  1;
                   reg_EVENT_IS_DS_TAKE       [i] =  0;// ??
+                  reg_EVENT_IS_DELAY_SLOT    [i] =  dest_val;
+                  reg_EVENT_IS_DS_TAKE       [i] =  dest_val;
                   reg_EVENT_DEPTH            [i] =  depth;
+                }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod/SelfTest/include/Decod_request.h

-                      r88
+                      r95
     // ===== l.bf 11
     w = y+(11<<2);
+    w = y+(11);
     request.push_back (entry_t(
 x1000000b,x,y,z,
 …
     // ===== l.bf -9
     w = y+(-9<<2);
+    w = y+(-9);
     request.push_back (entry_t(
 x13fffff7,x,y,z,
 …
     // ===== l.bnf 11
     w = y+(11<<2);
+    w = y+(11);
     request.push_back (entry_t(
 x0c00000b,x,y,z,
 …
     // ===== l.bnf -9
     w = y+(-9<<2);
+    w = y+(-9);
     request.push_back (entry_t(
 x0ffffff7,x,y,z,
 …
     // ===== l.j 1018
     w = y+(1018<<2);
+    w = y+(1018);
     request.push_back (entry_t(
 x000003fa,x,y,z,
 …
     // ===== l.j -1018
     w = y+(-1018<<2);
+    w = y+(-1018);
     request.push_back (entry_t(
 x03fffc06,x,y,z,
 …
     // ===== l.jal 1018
     w = y+(1018<<2);
+    w = y+(1018);
     request.push_back (entry_t(
 x040003fa,x,y,z,
 …
     // ===== l.jal -1018
     w = y+(-1018<<2);
+    w = y+(-1018);
     request.push_back (entry_t(
 x07fffc06,x,y,z,

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod/src/Decod_allocation.cpp

r88	r95
89	89	ALLOC1_SIGNAL_OUT(out_DECOD_NO_EXECUTE ,"no_execute" ,Tcontrol_t ,1 );
90	90	ALLOC1_SIGNAL_OUT(out_DECOD_IS_DELAY_SLOT,"is_delay_slot",Tcontrol_t ,1 );
91		ALLOC1_SIGNAL_OUT(out_DECOD_ADDRESS ,"address" ,Tgeneral_data_t ,_param->_size_instruction_address );
	91	ALLOC1_SIGNAL_OUT(out_DECOD_ADDRESS ,"address" ,Tgeneral_data_t ,_param->_size_instruction_address );
92	92	ALLOC1_SIGNAL_OUT(out_DECOD_HAS_IMMEDIAT ,"has_immediat" ,Tcontrol_t ,1 );
93	93	ALLOC1_SIGNAL_OUT(out_DECOD_IMMEDIAT ,"immediat" ,Tgeneral_data_t ,_param->_size_general_data );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod_queue/src/Decod_queue_allocation.cpp

-                      r88
+                      r95
       ALLOC1_SIGNAL_IN ( in_DECOD_IN_NO_EXECUTE     ,"no_execute"   ,Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_IN ( in_DECOD_IN_IS_DELAY_SLOT  ,"is_delay_slot",Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_IN ( in_DECOD_IN_ADDRESS        ,"address"      ,Tgeneral_data_t    ,_param->_size_general_data          );
+      ALLOC1_SIGNAL_IN ( in_DECOD_IN_ADDRESS        ,"address"      ,Tgeneral_data_t    ,_param->_size_instruction_address   );
       ALLOC1_SIGNAL_IN ( in_DECOD_IN_HAS_IMMEDIAT   ,"has_immediat" ,Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_IN ( in_DECOD_IN_IMMEDIAT       ,"immediat"     ,Tgeneral_data_t    ,_param->_size_general_data          );
 …
       ALLOC1_SIGNAL_OUT(out_DECOD_OUT_NO_EXECUTE     ,"no_execute"   ,Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_OUT(out_DECOD_OUT_IS_DELAY_SLOT  ,"is_delay_slot",Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_OUT(out_DECOD_OUT_ADDRESS        ,"address"      ,Tgeneral_data_t    ,_param->_size_general_data          );
+      ALLOC1_SIGNAL_OUT(out_DECOD_OUT_ADDRESS        ,"address"      ,Tgeneral_data_t    ,_param->_size_instruction_address   );
       ALLOC1_SIGNAL_OUT(out_DECOD_OUT_HAS_IMMEDIAT   ,"has_immediat" ,Tcontrol_t         ,1                                   );
       ALLOC1_SIGNAL_OUT(out_DECOD_OUT_IMMEDIAT       ,"immediat"     ,Tgeneral_data_t    ,_param->_size_general_data          );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Decod_unit/Decod_queue/src/Parameters.cpp

-                      r88
+                      r95
     if (is_toplevel)
+      {
+        _size_context_id      = log2(nb_context);
+        _size_nb_inst_decod   = log2(_size_queue)+1;
+        _size_depth           = log2(max<uint32_t>(_nb_branch_speculated,_nb_context));
+        _size_general_data    = size_general_data;
+        _size_context_id          = log2(nb_context);
+        _size_nb_inst_decod       = log2(_size_queue)+1;
+        _size_depth               = log2(max<uint32_t>(_nb_branch_speculated,_nb_context));
+        _size_general_data        = size_general_data;
+        _size_instruction_address = size_general_data-2;
         _have_port_context_id = _size_context_id > 0;
         _have_port_depth      = _size_depth > 0;
+        _have_port_context_id     = _size_context_id > 0;
+        _have_port_depth          = _size_depth > 0;
         copy ();

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/SelfTest/src/test.cpp

-                      r88
+                      r95
   ALLOC1_SC_SIGNAL( in_UPDATE_CONTEXT_ID     ," in_UPDATE_CONTEXT_ID     ",Tcontext_t,_param->_nb_inst_update );
   ALLOC1_SC_SIGNAL( in_UPDATE_PUSH           ," in_UPDATE_PUSH           ",Tcontrol_t,_param->_nb_inst_update );
+  ALLOC1_SC_SIGNAL( in_UPDATE_FLUSH          ," in_UPDATE_FLUSH          ",Tcontrol_t,_param->_nb_inst_update );
   ALLOC1_SC_SIGNAL( in_UPDATE_INDEX          ," in_UPDATE_INDEX          ",Tptr_t    ,_param->_nb_inst_update );
   ALLOC1_SC_SIGNAL( in_UPDATE_ADDRESS        ," in_UPDATE_ADDRESS        ",Taddress_t,_param->_nb_inst_update );
 …
   INSTANCE1_SC_SIGNAL(_Return_Address_Stack, in_UPDATE_CONTEXT_ID     ,_param->_nb_inst_update );
   INSTANCE1_SC_SIGNAL(_Return_Address_Stack, in_UPDATE_PUSH           ,_param->_nb_inst_update );
+  INSTANCE1_SC_SIGNAL(_Return_Address_Stack, in_UPDATE_FLUSH          ,_param->_nb_inst_update );
   INSTANCE1_SC_SIGNAL(_Return_Address_Stack, in_UPDATE_INDEX          ,_param->_nb_inst_update );
   INSTANCE1_SC_SIGNAL(_Return_Address_Stack, in_UPDATE_ADDRESS        ,_param->_nb_inst_update );
 …
   DELETE1_SC_SIGNAL( in_UPDATE_CONTEXT_ID       ,_param->_nb_inst_update);
   DELETE1_SC_SIGNAL( in_UPDATE_PUSH             ,_param->_nb_inst_update);
+  DELETE1_SC_SIGNAL( in_UPDATE_FLUSH            ,_param->_nb_inst_update);
   DELETE1_SC_SIGNAL( in_UPDATE_ADDRESS          ,_param->_nb_inst_update);
   DELETE1_SC_SIGNAL( in_UPDATE_INDEX            ,_param->_nb_inst_update);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/include/Return_Address_Stack.h

r82	r95
88	88	public : SC_IN (Tcontext_t) ** in_UPDATE_CONTEXT_ID ; //[nb_inst_update]
89	89	public : SC_IN (Tcontrol_t) ** in_UPDATE_PUSH ; //[nb_inst_update] 1 = push, else pop
	90	public : SC_IN (Tcontrol_t) ** in_UPDATE_FLUSH ; //[nb_inst_update] 1 = push, else pop
90	91	public : SC_IN (Taddress_t) ** in_UPDATE_ADDRESS ; //[nb_inst_update]
91	92	public : SC_IN (Tptr_t ) ** in_UPDATE_INDEX ; //[nb_inst_update]

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Parameters.cpp

r88	r95
37	37	_nb_inst_update = nb_inst_update ;
38	38
39		_size_index = ~~max<uint32_t>(size_queue,nb_context~~);
	39	_size_index = log2(max<uint32_t>(size_queue,nb_context));
40	40
41	41	test();

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_allocation.cpp

r88	r95
91	91	ALLOC1_SIGNAL_IN ( in_UPDATE_CONTEXT_ID ,"context_id" ,Tcontext_t,_param->_size_context_id);
92	92	ALLOC1_SIGNAL_IN ( in_UPDATE_PUSH ,"push" ,Tcontrol_t,1);
	93	ALLOC1_SIGNAL_IN ( in_UPDATE_FLUSH ,"flush" ,Tcontrol_t,1);
93	94	ALLOC1_SIGNAL_IN ( in_UPDATE_ADDRESS ,"address" ,Taddress_t,_param->_size_instruction_address);
94	95	ALLOC1_SIGNAL_IN ( in_UPDATE_INDEX ,"index" ,Tptr_t ,_param->_size_index);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_deallocation.cpp

r88	r95
52	52	DELETE1_SIGNAL( in_UPDATE_CONTEXT_ID ,_param->_nb_inst_update,_param->_size_context_id);
53	53	DELETE1_SIGNAL( in_UPDATE_PUSH ,_param->_nb_inst_update,1);
	54	DELETE1_SIGNAL( in_UPDATE_FLUSH ,_param->_nb_inst_update,1);
54	55	DELETE1_SIGNAL( in_UPDATE_ADDRESS ,_param->_nb_inst_update,_param->_size_instruction_address);
55	56	DELETE1_SIGNAL( in_UPDATE_INDEX ,_param->_nb_inst_update,_param->_size_index);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Return_Address_Stack/src/Return_Address_Stack_transition.cpp

-                      r88
+                      r95
           if (PORT_READ(in_UPDATE_VAL [i]) and internal_UPDATE_ACK [i])
+            {
               ERRORMORPHEO(FUNCTION,"Fonction à implémenter !!!!!!!!!!!!");
+              throw ERRORMORPHEO(FUNCTION,"Fonction à implémenter !!!!!!!!!!!!");
 …
 //                Tcontrol_t ifetch  = PORT_READ(in_UPDATE_PREDICTION_IFETCH [i]);
 //                Tcontrol_t push    = PORT_READ(in_UPDATE_PUSH             [i]);
+//                Tcontrol_t flush   = PORT_READ(in_UPDATE_FLUSH            [i]);
 //                Tptr_t     index   = PORT_READ(in_UPDATE_INDEX            [i]);
 //                Taddress_t address = PORT_READ(in_UPDATE_ADDRESS          [i]);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_min.cfg

r88	r95
36	36	1 1 +1 # dir_pht_size_address_share [2] [3]
37	37	2 2 +1 # ras_size_queue [0] [nb_context]
38		2 2 +1 # upt_size_queue [0] [nb_context]
	38	1 1 +1 # upt_size_queue [0] [nb_context]
	39	1 1 +1 # ufpt_size_queue [0] [nb_context]

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_mono_context.cfg

-                      r88
+                      r95
        4       *4 # nb_inst_decod              [0] [nb_decod_unit]
        1       +1 # nb_inst_branch_predict
        2       +1 # nb_inst_branch_decod
        2       +1 # nb_inst_branch_update
        2       +1 # nb_inst_branch_complete
        8       *4 # btb_size_queue
+       2       +1 # nb_inst_branch_decod
+       2       +1 # nb_inst_branch_update
+       2       +1 # nb_inst_branch_complete
+       8       *8 # btb_size_queue
        2       +1 # btb_associativity
        2       +1 # btb_size_counter
 …
        1       +1 # dir_pht_size_address_share [1] [3]
        1       +1 # dir_pht_size_address_share [2] [3]
+       4       *2 # ras_size_queue             [0] [nb_context]
+       4       *2 # upt_size_queue             [0] [nb_context]
+       4       *2 # ras_size_queue             [0] [nb_context]
+       4       *2 # upt_size_queue             [0] [nb_context]
+       2       +1 # ufpt_size_queue            [0] [nb_context]

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_mono_context_multi_decod.cfg

r82	r95
40	40	4 4 *2 # ras_size_queue [0] [nb_context]
41	41	4 4 *4 # upt_size_queue [0] [nb_context]
	42	2 2 *4 # ufpt_size_queue [0] [nb_context]

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/config_multi_context.cfg

r88	r95
46	46	4 4 *4 # upt_size_queue [2] [nb_context]
47	47	8 8 *4 # upt_size_queue [3] [nb_context]
	48	1 1 *4 # ufpt_size_queue [0] [nb_context]
	49	4 4 *4 # ufpt_size_queue [1] [nb_context]
	50	2 2 *4 # ufpt_size_queue [2] [nb_context]
	51	4 4 *4 # ufpt_size_queue [3] [nb_context]

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/src/main.cpp

-                      r88
+                      r95
   err (_(" * ras_size_queue             [nb_context]   (uint32_t    )\n"));
   err (_(" * upt_size_queue             [nb_context]   (uint32_t    )\n"));
+  err (_(" * ufpt_size_queue            [nb_context]   (uint32_t    )\n"));
   exit (1);
 …
   uint32_t     _size_address                   = fromString<uint32_t>(argv[x++]);
   if (argc != static_cast<int>(2+NB_PARAMS+3*_nb_context+_nb_decod_unit))
+  if (argc != static_cast<int>(2+NB_PARAMS+4*_nb_context+_nb_decod_unit))
     usage (argc, argv);
 …
   for (uint32_t i=0; i<_nb_context; i++)
     _upt_size_queue [i]                        = fromString<uint32_t    >(argv[x++]);
+  uint32_t *   _ufpt_size_queue                = new uint32_t    [_nb_context];
+  for (uint32_t i=0; i<_nb_context; i++)
+    _ufpt_size_queue [i]                       = fromString<uint32_t    >(argv[x++]);
   int _return = EXIT_SUCCESS;
 …
          _ras_size_queue            ,
          _upt_size_queue            ,
+         _ufpt_size_queue           ,
          true // is_toplevel
          );
 …
   delete [] _ras_size_queue            ;
   delete [] _upt_size_queue            ;
+  delete [] _ufpt_size_queue           ;
   return (_return);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/SelfTest/src/test.cpp

-                      r88
+                      r95
 //ALLOC1_SC_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION       ,"out_BRANCH_EVENT_MISS_PREDICTION       ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC           ,"out_BRANCH_EVENT_ADDRESS_SRC           ",Taddress_t         ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST_VAL      ,"out_BRANCH_EVENT_ADDRESS_DEST_VAL      ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST          ,"out_BRANCH_EVENT_ADDRESS_DEST          ",Taddress_t         ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_EVENT_STATE                    ," in_EVENT_STATE                    ",Tevent_state_t     ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_EVENT_TYPE                     ," in_EVENT_TYPE                     ",Tevent_type_t      ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_EVENT_DEPTH                    ," in_EVENT_DEPTH                    ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_CURRENT                      ,"out_DEPTH_CURRENT                      ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_MIN                          ,"out_DEPTH_MIN                          ",Tdepth_t           ,_param->_nb_context);
 …
 //INSTANCE1_SC_SIGNAL(_Prediction_unit,out_BRANCH_EVENT_MISS_PREDICTION       ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Prediction_unit,out_BRANCH_EVENT_ADDRESS_SRC           ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Prediction_unit,out_BRANCH_EVENT_ADDRESS_DEST_VAL      ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Prediction_unit,out_BRANCH_EVENT_ADDRESS_DEST          ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Prediction_unit, in_EVENT_STATE                        ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Prediction_unit, in_EVENT_TYPE                         ,_param->_nb_context);
   if (_param->_have_port_depth)
+    {
+  INSTANCE1_SC_SIGNAL(_Prediction_unit, in_EVENT_DEPTH                        ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Prediction_unit,out_DEPTH_CURRENT                      ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Prediction_unit,out_DEPTH_MIN                          ,_param->_nb_context);
 …
   for (uint32_t i=0; i<_param->_nb_context; ++i)
+    {
       TEST(Tcontrol_t,out_PREDICT_ACK      [i]->read(),1); // Accept new request
+//       TEST(Tcontrol_t,out_PREDICT_ACK      [i]->read(),1); // Accept new request
       TEST(Tcontrol_t,out_BRANCH_EVENT_VAL [i]->read(),0);
       TEST(Tdepth_t  ,out_DEPTH_CURRENT    [i]->read(),0);
 …
   DELETE1_SC_SIGNAL(out_BRANCH_COMPLETE_ADDRESS_DEST   ,_param->_nb_inst_branch_complete);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_VAL            ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_BRANCH_EVENT_ACK            ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_CONTEXT_ID     ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_DEPTH          ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC    ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST   ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_VAL              ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_BRANCH_EVENT_ACK              ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_CONTEXT_ID       ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_DEPTH            ,_param->_nb_context);
+//DELETE1_SC_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION  ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC      ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST_VAL ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST     ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_EVENT_STATE                    ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_EVENT_TYPE                     ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_EVENT_DEPTH                    ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_CURRENT      ,_param->_nb_context);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/SelfTest/config_mono_context.cfg

r94	r95
1	1	Update_Prediction_Table
2	2	1 1 +1 # nb_context
3		4 8 *2 # size_upt_queue [0] [nb_context]
	3	4 8 +1 # size_upt_queue [0] [nb_context]
4	4	1 4 +1 # size_ufpt_queue [0] [nb_context]
5	5	32 32 *2 # size_address

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/SelfTest/src/test.cpp

-                      r94
+                      r95
  */
 #define NB_ITERATION  8
 #define CYCLE_MAX     (128*NB_ITERATION)
+#define NB_ITERATION  16
+#define CYCLE_MAX     (1024*NB_ITERATION)
 #include "Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/SelfTest/include/test.h"
 …
   ALLOC1_SC_SIGNAL(out_UPDATE_RAS_INDEX               ,"out_UPDATE_RAS_INDEX               ",Tptr_t             ,_param->_nb_inst_update);
   ALLOC1_SC_SIGNAL(out_UPDATE_RAS_PREDICTION_IFETCH   ,"out_UPDATE_RAS_PREDICTION_IFETCH   ",Tcontrol_t         ,_param->_nb_inst_update);
+  ALLOC1_SC_SIGNAL( in_EVENT_STATE                    ," in_EVENT_STATE                    ",Tevent_state_t     ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_EVENT_TYPE                     ," in_EVENT_TYPE                     ",Tevent_type_t      ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_EVENT_DEPTH                    ," in_EVENT_DEPTH                    ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_CURRENT                  ,"out_DEPTH_CURRENT                  ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_MIN                      ,"out_DEPTH_MIN                      ",Tdepth_t           ,_param->_nb_context);
 …
   INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_UPDATE_RAS_INDEX               ,_param->_nb_inst_update);
   INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_UPDATE_RAS_PREDICTION_IFETCH   ,_param->_nb_inst_update);
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table, in_EVENT_STATE                    ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table, in_EVENT_TYPE                     ,_param->_nb_context);
   if (_param->_have_port_depth)
+    {
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table, in_EVENT_DEPTH                    ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_CURRENT                  ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_MIN                      ,_param->_nb_context);
 …
   const  int32_t percent_transaction_branch_event    = 75;
   const bool     test1 = false;
   const bool     test2 = false;
   const bool     test3 = false;
+  const bool     test1 = true;
+  const bool     test2 = true;
+  const bool     test3 = true;
   const bool     test4 = true;
 …
   in_NRESET->write(1);
+  Tdepth_t ufpt_bottom [_param->_nb_context];
+  Tdepth_t ufpt_top    [_param->_nb_context];
+  Tdepth_t upt_bottom  [_param->_nb_context];
+  Tdepth_t upt_top     [_param->_nb_context];
+  Tdepth_t ufpt_bottom  [_param->_nb_context];
+  Tdepth_t ufpt_top     [_param->_nb_context];
+  Tdepth_t upt_bottom   [_param->_nb_context];
+  Tdepth_t upt_top      [_param->_nb_context];
+  Tdepth_t upt_top_event[_param->_nb_context];
   for (uint32_t i=0; i<_param->_nb_context; ++i)
+    {
+      ufpt_bottom [i] = 0;
+      ufpt_top    [i] = 0;
+      upt_bottom  [i] = 0;
+      upt_top     [i] = 0;
+      ufpt_bottom  [i] = 0;
+      ufpt_top     [i] = 0;
+      upt_bottom   [i] = 0;
+      upt_top      [i] = 0;
+      upt_top_event[i] = 0;
+    }
 …
       for (uint32_t i=0; i<_param->_nb_inst_update; ++i)
         in_UPDATE_ACK          [i]->write(0);
+      for (uint32_t i=0; i<_param->_nb_context; ++i)
+        {
+        in_EVENT_STATE [i]->write(EVENT_STATE_NO_EVENT);
+        in_EVENT_TYPE  [i]->write(EVENT_TYPE_NONE     );
+        }
       //---------------------------------------------------------------------
       //---------------------------------------------------------------------
 …
+          }
+        }
+        {
+          LABEL("EVENT_STATE");
+          SC_START(1);
+          in_EVENT_STATE [context]->write(EVENT_STATE_END            );
+          in_EVENT_TYPE  [context]->write(EVENT_TYPE_MISS_SPECULATION);
+          SC_START(1);
+          in_EVENT_STATE [context]->write(EVENT_STATE_NO_EVENT       );
+          in_EVENT_TYPE  [context]->write(EVENT_TYPE_NONE            );
+        }
         // Wait Garbage Collector
 …
+        }
+        {
+          LABEL("EVENT_STATE");
+          SC_START(1);
+          in_EVENT_STATE [context]->write(EVENT_STATE_END            );
+          in_EVENT_TYPE  [context]->write(EVENT_TYPE_MISS_SPECULATION);
+          SC_START(1);
+          in_EVENT_STATE [context]->write(EVENT_STATE_NO_EVENT       );
+          in_EVENT_TYPE  [context]->write(EVENT_TYPE_NONE            );
+        }
         // Wait Garbage Collector
+        {
 …
                 request.take_good        = 1;
                 request.flag             = (request.condition == BRANCH_CONDITION_FLAG_SET)?request.take_good:(not request.take_good);
                 request.is_accurate      = false;
+                request.is_accurate      = true ;
                 request.miss_ifetch      = false;
                 request.miss_decod       = false;
 …
                     LABEL("DECOD           [%d] %d - %d",
                           port,
                           in_PREDICT_VAL [port]->read(),
                           out_PREDICT_ACK [port]->read());
+                          in_DECOD_VAL [port]->read(),
+                          out_DECOD_ACK [port]->read());
                     if (in_DECOD_VAL [port]->read() and out_DECOD_ACK [port]->read())
 …
                 request.take_good        = 1;
                 request.flag             = (request.condition == BRANCH_CONDITION_FLAG_SET)?request.take_good:(not request.take_good);
                 request.is_accurate      = false;
+                request.is_accurate      = true ;
                 request.miss_ifetch      = false;
                 request.miss_decod       = false;
 …
           std::list<request_t>::iterator it_event;
+          {
             LABEL("BRANCH_COMPLETE - hit ifetch");
+            LABEL("BRANCH_COMPLETE - Miss ifetch");
             uint32_t port = rand() % _param->_nb_inst_branch_complete;
 …
             if (update_ras(it_event->condition))
+              it_event->address_good = ~(it_event->address_dest);
+              {
+                it_event->address_good = ~(it_event->address_dest);
+              }
             else
+              {
 …
                       TEST(Taddress_t,out_BRANCH_COMPLETE_ADDRESS_DEST   [port]->read(),it_event->address_good);
+                      upt_top [it_event->context] = it_event->upt_ptr;
+                      upt_top_event [it_event->context] = upt_top [it_event->context];
+                      upt_top       [it_event->context] = it_event->upt_ptr;
+                    }
+                  SC_START(1);
+                } while (not have_transaction);
+              in_BRANCH_COMPLETE_VAL [port]->write(0);
+              if (_param->_have_port_depth)
+              TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
+              TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+            }
+          }
+          {
+            LABEL("BRANCH_COMPLETE - Hit ifetch");
+            uint32_t port = rand() % _param->_nb_inst_branch_complete;
+            LABEL("  * port    : %d",port);
+            std::list<request_t>::iterator it_upt = upt.begin();
+            while (it_upt != it_event)
+            {
+              bool have_transaction = false;
+              do
+                {
+                  in_BRANCH_COMPLETE_VAL        [port]->write((rand()%100)<percent_transaction_branch_complete);
+                  in_BRANCH_COMPLETE_CONTEXT_ID [port]->write(it_upt->context     );
+                  in_BRANCH_COMPLETE_DEPTH      [port]->write(it_upt->upt_ptr     );
+                  in_BRANCH_COMPLETE_ADDRESS    [port]->write(it_upt->address_dest);
+                  in_BRANCH_COMPLETE_FLAG       [port]->write(it_upt->flag        );
+                  if (_param->_have_port_depth)
+                  TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
+                  TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+                  SC_START(0);
+                  LABEL("BRANCH_COMPLETE [%d] %d - %d.",port,in_BRANCH_COMPLETE_VAL [port]->read(),out_BRANCH_COMPLETE_ACK [port]->read());
+                  if (in_BRANCH_COMPLETE_VAL [port]->read() and out_BRANCH_COMPLETE_ACK [port]->read())
+                    {
+                      LABEL("BRANCH_COMPLETE [%d] - Transaction accepted",port);
+                      LABEL("  * CONTEXT_ID %d"  ,it_upt->context     );
+                      LABEL("  * DEPTH      %d"  ,it_upt->upt_ptr     );
+                      LABEL("  * CONDITION  %d"  ,it_upt->condition   );
+                      LABEL("  * ADDRESS    %.8x",it_upt->address_dest);
+                      LABEL("  * FLAG       %d"  ,it_upt->flag        );
+                      have_transaction = true;
+                      TEST(Tcontrol_t,out_BRANCH_COMPLETE_MISS_PREDICTION[port]->read(),it_upt->miss_commit );
+                      TEST(Tcontrol_t,out_BRANCH_COMPLETE_TAKE           [port]->read(),it_upt->take        );
+                      it_upt->take_good = it_upt->take;
+                      TEST(Taddress_t,out_BRANCH_COMPLETE_ADDRESS_SRC    [port]->read(),it_upt->address_src );
+                      TEST(Taddress_t,out_BRANCH_COMPLETE_ADDRESS_DEST   [port]->read(),it_upt->address_dest);
+                      it_upt++;
+                    }
 …
+          {
             LABEL("UPDATE - upt");
+            LABEL("UPDATE - upt (after event)");
             uint32_t port = 0;
 …
             LABEL("  * port    : %d",port);
             std::list<request_t>::iterator it_upt = upt.end();
-            --it_upt;
 //             for (uint32_t i=0; i<upt.size(); i++)
             while (it_upt != it_event)
+            do
+              {
+                --it_upt;
                 bool have_transaction = false;
+                if (need_update(it_upt->condition))
                 do
+                  {
 …
+                      {
                         LABEL("UPDATE [%d] - Transaction accepted",port);
+                        LABEL("  * address_src                : %.8x",it_upt->address_src);
+                        LABEL("  * out_UPDATE_BTB_ADDRESS_SRC : %.8x",out_UPDATE_BTB_ADDRESS_SRC[port]->read());
                         have_transaction = true;
+                        bool btb_val = ((it_upt == it_event) and
+                                        (update_btb(it_upt->condition)));
+                        bool dir_val = ((it_upt == it_event) and
+                                        update_dir(it_upt->condition) and
+                                        not (it_upt->miss_ifetch or it_upt->miss_decod));
+                        bool ras_val = update_ras(it_upt->condition);
                         if (_param->_have_port_context_id)
                         TEST(Tcontext_t         ,out_UPDATE_CONTEXT_ID            [port]->read(),it_upt->context);
                         TEST(Tcontrol_t         ,out_UPDATE_MISS_PREDICTION       [port]->read(),it_upt->miss_commit);
                         TEST(Tcontrol_t         ,out_UPDATE_DIRECTION_GOOD        [port]->read(),it_upt->take_good);
+                        TEST(Tcontrol_t         ,out_UPDATE_BTB_VAL               [port]->read(),update_btb(it_upt->condition));
                         if (update_btb(it_upt->condition))
+                        TEST(Tcontrol_t         ,out_UPDATE_BTB_VAL               [port]->read(),btb_val);
+                        if (btb_val)
+                          {
                         TEST(Taddress_t         ,out_UPDATE_BTB_ADDRESS_SRC       [port]->read(),it_upt->address_src);
 …
                         TEST(Tbranch_condition_t,out_UPDATE_BTB_CONDITION         [port]->read(),it_upt->condition);
+                          }
                         TEST(Tcontrol_t         ,out_UPDATE_DIR_VAL               [port]->read(),update_dir(it_upt->condition) and not (it_upt->miss_ifetch or it_upt->miss_decod));
+                        TEST(Tcontrol_t         ,out_UPDATE_DIR_VAL               [port]->read(),dir_val);
+                        if (update_dir(it_upt->condition))
+                        if (dir_val)
+                          {
+                        TEST(Tcontrol_t         ,out_UPDATE_DIRECTION_GOOD        [port]->read(),it_upt->take_good);
                         if (_param->_have_port_history)
                         TEST(Thistory_t         ,out_UPDATE_DIR_HISTORY           [port]->read(),it_upt->history);
+                        TEST(Tcontrol_t         ,out_UPDATE_RAS_VAL               [port]->read(),update_ras(it_upt->condition));
+                        if (update_ras(it_upt->condition))
+                          }
+                        TEST(Tcontrol_t         ,out_UPDATE_RAS_VAL               [port]->read(),ras_val);
+                        if (ras_val)
+                          {
 //                      TEST(Tcontrol_t         ,out_UPDATE_RAS_FLUSH             [port]->read(),0);
 …
+                          }
                         -- it_upt;
+//                         -- it_upt;
+                      }
 …
 //               TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+              }
+            while (it_upt != it_event);
+          }
+//           upt.clear(); // Not yet
+          {
             LABEL("BRANCH_EVENT - have miss decod");
 …
+            }
+          }
+          {
+            LABEL("UPDATE - upt");
+            LABEL("EVENT_STATE");
+            SC_START(1);
+            in_EVENT_STATE [context]->write(EVENT_STATE_END            );
+            in_EVENT_TYPE  [context]->write(EVENT_TYPE_MISS_SPECULATION);
+            SC_START(1);
+            in_EVENT_STATE [context]->write(EVENT_STATE_NO_EVENT       );
+            in_EVENT_TYPE  [context]->write(EVENT_TYPE_NONE            );
+          }
+          {
+            LABEL("UPDATE - upt (before event)");
             uint32_t port = 0;
             LABEL("  * port    : %d",port);
+            LABEL("  * size    : %d",upt.size());
             std::list<request_t>::iterator it_upt = upt.begin();
 …
+                          }
                         -- it_upt;
+                        ++ it_upt;
+                      }
 …
+              }
+          }
           upt.clear(); // Not yet
+          upt.clear();
           // Wait Garbage Collector
+          {
+            upt_bottom [context] = (upt_bottom [context]+1)%_param->_size_upt_queue[context];
+//        upt_top    [context] = (upt_top    [context]);
+            LABEL("GARBAGE COLLECTOR");
+            LABEL(" * upt bottom : %d",upt_bottom [context]);
+            LABEL(" * upt top    : %d",upt_top    [context]);
+            upt_top    [context] = (upt_top_event [context]);
+            upt_bottom [context] = (upt_top       [context]);
             while ((upt_bottom [context] != out_DEPTH_MIN [context]->read()) or
                    (upt_top    [context] != out_DEPTH_MAX [context]->read()))
+              SC_START(1);
+              {
+                SC_START(1);
+              }
+          }
 …
   delete [] out_BRANCH_EVENT_VAL            ;
   delete []  in_BRANCH_EVENT_ACK            ;
 //   delete []  in_BRANCH_EVENT_CONTEXT_ID     ;
 //   delete []  in_BRANCH_EVENT_DEPTH          ;
 //   delete [] out_BRANCH_EVENT_MISS_PREDICTION;
+//delete []  in_BRANCH_EVENT_CONTEXT_ID     ;
+//delete []  in_BRANCH_EVENT_DEPTH          ;
+//delete [] out_BRANCH_EVENT_MISS_PREDICTION;
   delete [] out_BRANCH_EVENT_ADDRESS_SRC    ;
   delete [] out_BRANCH_EVENT_ADDRESS_DEST_VAL;
 …
   delete [] out_UPDATE_RAS_PREDICTION_IFETCH;
+  DELETE1_SC_SIGNAL( in_EVENT_STATE                    ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_EVENT_TYPE                     ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_EVENT_DEPTH                    ,_param->_nb_context);
   // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   delete [] out_DEPTH_CURRENT;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/include/Types.h

-                      r88
+                      r95
   typedef enum
+    {
       EVENT_STATE_OK                 , // Can predict
       EVENT_STATE_FLUSH_UFPT         , // in decod  stage, detect a miss, continue to execute but flush ufpt
       EVENT_STATE_FLUSH_UFPT_AND_UPT , // in commit stage, detect a miss, stop context and flush ufpt and upt
       EVENT_STATE_FLUSH_UPT_RAS      , // in commit stage, detect a miss, context is stop and ufpt is flush, update RAS
       EVENT_STATE_FLUSH_UPT          , // in commit stage, detect a miss, context is stop and ufpt is flush
       EVENT_STATE_UPDATE_CONTEXT       // prediction unit is update, send signal to context manager
+      EVENT_STATE_OK                    , // Can predict
+      EVENT_STATE_FLUSH_UFPT            , // in decod  stage, detect a miss, continue to execute but flush ufpt
+      EVENT_STATE_FLUSH_UFPT_AND_UPT    , // in commit stage, detect a miss, stop context and flush ufpt and upt
+      EVENT_STATE_FLUSH_UPT             , // in commit stage, detect a miss, context is stop and ufpt is flush, update RAS
+      EVENT_STATE_UPDATE_CONTEXT        , // prediction unit is update, send signal to context manager
+      EVENT_STATE_WAIT_END_EVENT          // prediction unit is ok, wait the end of envent (send by Context State)
     } event_state_t;
 …
       UPDATE_PREDICTION_STATE_KO                , // this branch is a miss prediction
       UPDATE_PREDICTION_STATE_EVENT             , // previous branch is a miss prediction
+      UPDATE_PREDICTION_STATE_END                 // branch is updated
+      UPDATE_PREDICTION_STATE_END_OK            , // branch is updated,       update pointer
+      UPDATE_PREDICTION_STATE_END_KO              // branch is updated, don't update pointer
     } upt_state_t;
 …
     switch (x)
+      {
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_OK                   : return "ok"                  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UFPT           : return "flush_ufpt"          ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UFPT_AND_UPT   : return "flush_ufpt_and_upt"  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UPT_RAS        : return "flush_upt_ras"       ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UPT            : return "flush_upt"           ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_UPDATE_CONTEXT       : return "update_context"      ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_OK                      : return "ok"                     ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UFPT              : return "flush_ufpt"             ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UFPT_AND_UPT      : return "flush_ufpt_and_upt"     ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_FLUSH_UPT               : return "flush_upt"              ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_UPDATE_CONTEXT          : return "update_context"         ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::EVENT_STATE_WAIT_END_EVENT          : return "wait_and_event"         ; break;
       default    : return ""      ; break;
+      }
 …
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_KO         : return "ko"        ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_EVENT      : return "event"     ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_END        : return "end"       ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_END_OK     : return "end_ok"    ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_END_KO     : return "end_ko"    ; break;
       default    : return ""      ; break;
+      }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/include/Update_Prediction_Table.h

r94	r95
170	170	private : uint32_t * reg_UPT_BOTTOM ; //[nb_context]
171	171	private : uint32_t * reg_UPT_TOP ; //[nb_context]
	172	private : uint32_t * reg_UPT_TOP_EVENT ; //[nb_context]
172	173	private : uint32_t * reg_UPT_UPDATE ; //[nb_context]
173	174

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_allocation.cpp

r94	r95
197	197	ALLOC1(reg_UPT_BOTTOM ,uint32_t ,_param->_nb_context);
198	198	ALLOC1(reg_UPT_TOP ,uint32_t ,_param->_nb_context);
	199	ALLOC1(reg_UPT_TOP_EVENT ,uint32_t ,_param->_nb_context);
199	200	ALLOC1(reg_UPT_UPDATE ,uint32_t ,_param->_nb_context);
200	201

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_deallocation.cpp

-                      r94
+                      r95
         // ~~~~~[ Interface : "branch_event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+        delete [] out_BRANCH_EVENT_VAL            ;
+        delete []  in_BRANCH_EVENT_ACK            ;
+//      if (_param->_have_port_context_id)
+//      delete []  in_BRANCH_EVENT_CONTEXT_ID     ;
+//      if (_param->_have_port_depth)
+//      delete []  in_BRANCH_EVENT_DEPTH          ;
+//      delete [] out_BRANCH_EVENT_MISS_PREDICTION;
+        delete [] out_BRANCH_EVENT_ADDRESS_SRC    ;
+        delete [] out_BRANCH_EVENT_ADDRESS_DEST_VAL;
+        delete [] out_BRANCH_EVENT_ADDRESS_DEST   ;
+        DELETE1_SIGNAL(out_BRANCH_EVENT_VAL              ,_param->_nb_context,1);
+        DELETE1_SIGNAL( in_BRANCH_EVENT_ACK              ,_param->_nb_context,1);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_CONTEXT_ID       ,_param->_nb_context,_param->_size_context_id);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_DEPTH            ,_param->_nb_context,_param->_size_depth);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION  ,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC      ,_param->_nb_context,_param->_size_instruction_address);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST_VAL ,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST     ,_param->_nb_context,_param->_size_instruction_address);
         // ~~~~~[ Interface : "update" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
         delete [] out_UPDATE_VAL                  ;
 …
         // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+        if (_param->_have_port_depth)
+          {
+        delete [] out_DEPTH_CURRENT;
+        delete [] out_DEPTH_MIN;
+          }
+        delete [] out_DEPTH_MAX;
+        DELETE1_SIGNAL(out_DEPTH_CURRENT      ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL(out_DEPTH_MIN          ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL(out_DEPTH_MAX          ,_param->_nb_context,_param->_size_depth+1);
         // ~~~~~[ Internal ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
         DELETE1(internal_PREDICT_ACK                     ,_param->_nb_inst_predict);
 …
         DELETE1(reg_UPT_BOTTOM                   ,_param->_nb_context);
         DELETE1(reg_UPT_TOP                      ,_param->_nb_context);
+        DELETE1(reg_UPT_TOP_EVENT                ,_param->_nb_context);
         DELETE1(reg_UPT_UPDATE                   ,_param->_nb_context);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_genMealy_decod.cpp

-                      r88
+                      r95
     // WARNING : One branch per context per cycle
+    if (PORT_READ(in_NRESET) != 0)
+      {
     for (uint32_t i=0; i<_param->_nb_inst_decod; i++)
+      {
 …
         PORT_WRITE(out_DECOD_ACK [i], internal_DECOD_ACK [i]);
+      }
+      }
     log_end(Update_Prediction_Table,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_genMoore.cpp

-                      r94
+                      r95
         event_state_t event_state = reg_EVENT_STATE [i];
         retire_ras_from_ufpt [i] = ((event_state == EVENT_STATE_FLUSH_UFPT        ) or
+        retire_ras_from_ufpt [i] = ((event_state == EVENT_STATE_FLUSH_UFPT            ) or
                                     (event_state == EVENT_STATE_FLUSH_UFPT_AND_UPT));
         retire_ras_from_upt  [i] = (event_state == EVENT_STATE_FLUSH_UPT_RAS);
+        retire_ras_from_upt  [i] = (event_state == EVENT_STATE_FLUSH_UPT);
         ufpt_update          [i] = true;
 …
                 log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * condition       : %s",toString(condition).c_str());
+                Tcontrol_t          state_is_ok_ko           = ((state == UPDATE_PREDICTION_STATE_OK) or
+                                                                (state == UPDATE_PREDICTION_STATE_KO));
+                Tcontrol_t          state_is_event           = (state == UPDATE_PREDICTION_STATE_EVENT);
+                Tcontrol_t          state_is_ok_ko           = ((state == UPDATE_PREDICTION_STATE_OK   ) or
+                                                                (state == UPDATE_PREDICTION_STATE_KO   ));
+                Tcontrol_t          state_is_event           = ((state == UPDATE_PREDICTION_STATE_KO   ) or
+                                                                (state == UPDATE_PREDICTION_STATE_EVENT));
                 Tcontrol_t          state_is_event_update    = state_is_event and     need_update(condition);
                 Tcontrol_t          state_is_event_no_update = state_is_event and not need_update(condition);
 …
                 else
+                  {
                 val                   = state_is_ok_ko;
+                val                   = (state == UPDATE_PREDICTION_STATE_OK);
                 val_without_ack       = false;
+                  }
 …
                 miss_prediction       = (state != UPDATE_PREDICTION_STATE_OK);
                 direction_good        = reg_UPDATE_PREDICTION_TABLE [context][depth]._good_take   ;
                 btb_val               = update_btb(condition);
+                btb_val               = state_is_ok_ko and update_btb(condition);
                 btb_address_src       = reg_UPDATE_PREDICTION_TABLE [context][depth]._address_src ;
                 btb_address_dest      = reg_UPDATE_PREDICTION_TABLE [context][depth]._address_dest;
                 btb_condition         = condition;
                 dir_val               = update_dir(condition) and ifetch; // if not ifetch, then static prediction
+                dir_val               = state_is_ok_ko and update_dir(condition) and ifetch; // if not ifetch, then static prediction
                 dir_history           = reg_UPDATE_PREDICTION_TABLE [context][depth]._history     ;
                 ras_val               = update_ras(condition); // repop/ repush data -> don't corrupt ras
 …
+              }
+          }
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * val             : %d",val    );
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * val_without_ack : %d",val_without_ack);
+        log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * miss_prediction : %d",miss_prediction);
+        log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * direction_good  : %d",direction_good );
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * btb_val         : %d",btb_val);
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * dir_val         : %d",dir_val);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/Update_Prediction_Table/src/Update_Prediction_Table_transition.cpp

-                      r94
+                      r95
             reg_UPT_BOTTOM           [i] = 0;
             reg_UPT_TOP              [i] = 0;
+            reg_UPT_TOP_EVENT        [i] = 0;
             reg_UPT_UPDATE           [i] = 0;
 …
+            {
               uint32_t bottom = reg_UPT_BOTTOM [i];
+              bool     end_ok = (reg_UPDATE_PREDICTION_TABLE [i][bottom]._state == UPDATE_PREDICTION_STATE_END_OK);
+              bool     end_ko = (reg_UPDATE_PREDICTION_TABLE [i][bottom]._state == UPDATE_PREDICTION_STATE_END_KO);
               // Test if state is end
               if (reg_UPDATE_PREDICTION_TABLE [i][bottom]._state == UPDATE_PREDICTION_STATE_END)
+              if (end_ok or end_ko)
+                {
                   log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT [%d][%d]",i,bottom);
 …
                   // Free slot
                   reg_UPDATE_PREDICTION_TABLE [i][bottom]._state = UPDATE_PREDICTION_STATE_EMPTY;
                   // Update pointer
                   reg_UPT_BOTTOM [i] = (bottom+1)%_param->_size_upt_queue[i];
+//                   if (bottom = reg_UPT_UPDATE [i])
+//                     reg_UPT_UPDATE [i] = reg_UPT_BOTTOM [i];
+                  if (end_ko) // free
+                    {
+                      reg_UPT_TOP    [i] = reg_UPT_TOP_EVENT [i];
+                      reg_UPT_UPDATE [i] = reg_UPT_TOP_EVENT [i];
+                    }
+                }
+            }
 …
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * BRANCH_COMPLETE[%d] - Accepted",i);
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * context : %d",context);
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * depth   : %d",depth);
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * miss    : %d",miss);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * context    : %d",context);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * depth      : %d",depth);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * miss       : %d",miss);
               if (miss)
 …
                   uint32_t top        = reg_UPT_TOP [context];
                   uint32_t new_update = ((top==0)?_param->_size_upt_queue[context]:top)-1;
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * top        : %d",top);
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * new_update : %d",new_update);
                   for (uint32_t j=(depth+1)%_param->_size_upt_queue[context];
                                 j!=top;
 …
                     reg_UPDATE_PREDICTION_TABLE [context][j]._state = UPDATE_PREDICTION_STATE_EVENT;
+                  // TOP is next write slot : last slot is TOP-1
+                  reg_UPT_UPDATE [context] = new_update;
+//                reg_UPT_BOTTOM [context];
+                  reg_UPT_TOP    [context] = depth;
+//                reg_UPT_BOTTOM    [context];
+                  reg_UPT_TOP       [context] = depth;
+                  reg_UPT_TOP_EVENT [context] = top;
 #ifdef DEBUG_TEST
 …
                   reg_UPDATE_PREDICTION_TABLE [context][depth]._state = UPDATE_PREDICTION_STATE_KO;
+                  Taddress_t          address_src = reg_UPDATE_PREDICTION_TABLE [context][depth]._address_src;
+                  Taddress_t    address_src         = reg_UPDATE_PREDICTION_TABLE [context][depth]._address_src;
+                  event_state_t event_state         = reg_EVENT_STATE [context];
+                  bool          previous_update_ras = (event_state == EVENT_STATE_FLUSH_UPT);
+                  bool          update_ras          = (new_update != depth);
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * update_ras : %d",update_ras);
                   if (reg_UFPT_NB_NEED_UPDATE [context] > 0)
 …
                   else
+                    {
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * EVENT [%d] <- EVENT_STATE_FLUSH_UFPT_RAS (branch_complete - miss)",context);
+                      // have ras prediction ?
+                      reg_EVENT_STATE [context] = (new_update!=depth)?EVENT_STATE_FLUSH_UPT_RAS:EVENT_STATE_UPDATE_CONTEXT;
+                    }
+                      if (not previous_update_ras)
+                        {
+                          // have ras prediction ?
+                          log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * EVENT [%d] <- EVENT_STATE_FLUSH_UPT (branch_complete - miss)",context);
+                          reg_EVENT_STATE [context] = EVENT_STATE_FLUSH_UPT;
+                        }
+                    }
+                  if (not previous_update_ras)
+                    {
+                      reg_UPT_UPDATE [context]  = new_update;
+                    }
+                  // else no update
                   reg_EVENT_ADDRESS_SRC     [context] = address_src; // delay_slot is compute in Context_State
 …
         // =====[ UPDATE ]====================================================
         // ===================================================================
+        for (uint32_t i=0; i<_param->_nb_inst_update; i++)
+          if ((internal_UPDATE_VAL[i] and PORT_READ(in_UPDATE_ACK [i])) or
               (internal_UPDATE_VAL_WITHOUT_ACK [i]))
+            {
+              Tcontext_t context = internal_UPDATE_CONTEXT_ID [i];
+              Tdepth_t   depth   = internal_UPDATE_DEPTH      [i];
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * UPDATE[%d] - Accepted",i);
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * context : %d",context);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * depth   : %d",depth);
               if (internal_UPDATE_FROM_UFPT [i])
+        {
+          bool can_continue [_param->_nb_context];
+          for (uint32_t i=0; i<_param->_nb_context; ++i)
+            can_continue [i] = true;
+          for (uint32_t i=0; i<_param->_nb_inst_update; i++)
+            {
+              Tcontext_t context   = internal_UPDATE_CONTEXT_ID [i];
+              if ((internal_UPDATE_VAL[i] and PORT_READ(in_UPDATE_ACK [i])) or
+                  (internal_UPDATE_VAL_WITHOUT_ACK [i] and can_continue [context]))
+                {
+                // if free a slot, also all queue is updated
+                // Last slot ?
+                if (reg_UFPT_UPDATE [context] == reg_UFPT_BOTTOM [context])
+                  switch (reg_EVENT_STATE [context])
+                    {
+                    case EVENT_STATE_FLUSH_UFPT         : reg_EVENT_STATE [context] = EVENT_STATE_UPDATE_CONTEXT; break;
+                    case EVENT_STATE_FLUSH_UFPT_AND_UPT : reg_EVENT_STATE [context] = (reg_UPT_UPDATE[context]!=reg_UPT_TOP[context])?EVENT_STATE_FLUSH_UPT_RAS:EVENT_STATE_UPDATE_CONTEXT;  break;
+                    default : break;
+                    }
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * Update Fetch Prediction Table");
+                  // Change state
+#ifdef DEBUG_TEST
+                  if (reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._state != UPDATE_FETCH_PREDICTION_STATE_EVENT)
+                    throw ERRORMORPHEO(FUNCTION,_("Update : invalid ufpt state."));
+#endif
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UFPT [%d][%d].state <- UPDATE_FETCH_PREDICTION_STATE_END (update)",context,depth);
+                  reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._state = UPDATE_FETCH_PREDICTION_STATE_END;
+                  // Update pointer
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * reg_UFPT_UPDATE (before) : %d",reg_UFPT_UPDATE [context]);
+                  reg_UFPT_UPDATE [context] = ((depth==0)?_param->_size_ufpt_queue[context]:depth)-1;
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * reg_UFPT_UPDATE (after ) : %d",reg_UFPT_UPDATE [context]);
+                  // Free a register that need update ?
+                  if (need_update(reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._condition))
+                    reg_UFPT_NB_NEED_UPDATE [context] --;
+                  Tdepth_t   depth     = internal_UPDATE_DEPTH      [i];
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * UPDATE[%d] - Accepted",i);
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * context : %d",context);
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * depth   : %d",depth);
+                  if (internal_UPDATE_FROM_UFPT [i])
+                    {
+                      // if free a slot, also all queue is updated
+                      // Last slot ?
+                      if (reg_UFPT_UPDATE [context] == reg_UFPT_BOTTOM [context])
+                        switch (reg_EVENT_STATE [context])
+                          {
+                          case EVENT_STATE_FLUSH_UFPT             : reg_EVENT_STATE [context] = EVENT_STATE_UPDATE_CONTEXT; break;
+                            // impossible to have an update on ufpt and reg_upt_update>reg_upt_top
+                          case EVENT_STATE_FLUSH_UFPT_AND_UPT : reg_EVENT_STATE [context] = EVENT_STATE_FLUSH_UPT ; break;
+                          default : break;
+                          }
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * Update Fetch Prediction Table");
+                      // Change state
+#ifdef DEBUG_TEST
+                      if (reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._state != UPDATE_FETCH_PREDICTION_STATE_EVENT)
+                        throw ERRORMORPHEO(FUNCTION,_("Update : invalid ufpt state."));
+#endif
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UFPT [%d][%d].state <- UPDATE_FETCH_PREDICTION_STATE_END (update)",context,depth);
+                      reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._state = UPDATE_FETCH_PREDICTION_STATE_END;
+                      // Update pointer
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * reg_UFPT_UPDATE (before) : %d",reg_UFPT_UPDATE [context]);
+                      reg_UFPT_UPDATE [context] = ((depth==0)?_param->_size_ufpt_queue[context]:depth)-1;
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * reg_UFPT_UPDATE (after ) : %d",reg_UFPT_UPDATE [context]);
+                      // Free a register that need update ?
+                      if (need_update(reg_UPDATE_FETCH_PREDICTION_TABLE [context][depth]._condition))
+                        reg_UFPT_NB_NEED_UPDATE [context] --;
+                    }
+                  else
+                    {
+                      log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * Update Prediction Table");
+                      // Change state
+#ifdef DEBUG_TEST
+                      if (internal_UPDATE_RAS [i])
+                        {
+                          if ((reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_EVENT) and
+                              (reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_KO   ))
+                            throw ERRORMORPHEO(FUNCTION,_("Update : invalid upt state."));
+                        }
+                      else
+                        {
+                          if (reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_OK   )
+                            throw ERRORMORPHEO(FUNCTION,_("Update : invalid upt state."));
+                        }
+#endif
+//                    bool have_event = ((reg_UPDATE_PREDICTION_TABLE [context][depth]._state == UPDATE_PREDICTION_STATE_KO) or
+//                                       (reg_UPDATE_PREDICTION_TABLE [context][depth]._state == UPDATE_PREDICTION_STATE_EVENT));
+                      bool ko     = (reg_UPDATE_PREDICTION_TABLE [context][depth]._state == UPDATE_PREDICTION_STATE_KO);
+                      // Have an update, test the state to transiste to the good state
+                      if (ko)
+                        {
+                          log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END_KO (update)",context,depth);
+                          reg_UPDATE_PREDICTION_TABLE [context][depth]._state = UPDATE_PREDICTION_STATE_END_KO;
+                        }
+                      else
+                        {
+                          log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END_OK (update)",context,depth);
+                          reg_UPDATE_PREDICTION_TABLE [context][depth]._state = UPDATE_PREDICTION_STATE_END_OK;
+                        }
+                      // Update pointer
+                      //  * if update RAS : update pointer is decreaste until it equal at top pointer
+                      if (internal_UPDATE_RAS [i])
+                        {
+                          // if end_event, restart too bottom, else decrease pointer
+                          bool end_event  = (reg_UPT_UPDATE [context] == reg_UPT_TOP [context]);
+                          reg_UPT_UPDATE [context] = (end_event)?reg_UPT_BOTTOM[context]:(((depth==0)?_param->_size_upt_queue[context]:depth)-1);
+                          if (end_event)
+                            {
+                              reg_UPT_UPDATE [context] = reg_UPT_BOTTOM[context];
+                              reg_EVENT_STATE [context] = EVENT_STATE_UPDATE_CONTEXT;
+                            }
+                          else
+                            {
+                              reg_UPT_UPDATE [context] = (((depth==0)?_param->_size_upt_queue[context]:depth)-1);
+                            }
+                        }
+                      else
+                        {
+                          // increase pointer
+                          reg_UPT_UPDATE [context] = (depth+1)%_param->_size_upt_queue[context];
+                        }
+                      // Free the branch with no accurate ?
+                      if (reg_UPDATE_PREDICTION_TABLE [context][depth]._is_accurate == false)
+                        reg_IS_ACCURATE [context] = true;
+                    }
+                }
               else
+                {
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * Update Prediction Table");
+                  // Change state
+#ifdef DEBUG_TEST
+                  if (internal_UPDATE_RAS [i])
+                    {
+                      if (reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_EVENT)
+                        throw ERRORMORPHEO(FUNCTION,_("Update : invalid upt state."));
+                    }
+                  else
+                    {
+                      if ((reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_OK   ) and
+                          (reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_KO   ))
+                        throw ERRORMORPHEO(FUNCTION,_("Update : invalid upt state."));
+                    }
+#endif
+                  log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END (update)",context,depth);
+                  reg_UPDATE_PREDICTION_TABLE [context][depth]._state = UPDATE_PREDICTION_STATE_END;
+                  // Update pointer
+                  bool end_event = (reg_UPT_UPDATE [context] == reg_UPT_TOP [context]);
+                  if (internal_UPDATE_RAS [i])
+                    {
+                      reg_UPT_UPDATE [context] = (end_event)?reg_UPT_BOTTOM[context]:(((depth==0)?_param->_size_upt_queue[context]:depth)-1);
+                    }
+                  else
+                    {
+                      reg_UPT_UPDATE [context] = (depth+1)%_param->_size_upt_queue[context];
+                    }
+                  // End and event ?
+                  if (end_event and
+                      (reg_EVENT_STATE [context] != EVENT_STATE_OK))
+                    {
+                      reg_EVENT_STATE [context] = EVENT_STATE_UPDATE_CONTEXT;
+                    }
+                  // Free the branch with no accurate ?
+                  if (reg_UPDATE_PREDICTION_TABLE [context][depth]._is_accurate == false)
+                    reg_IS_ACCURATE [context] = true;
+                }
+            }
+                can_continue [context] = false;
+            }
+        // Round robin
+        reg_UPDATE_PRIORITY = (reg_UPDATE_PRIORITY+1)%_param->_nb_context;
+          // Round robin
+          reg_UPDATE_PRIORITY = (reg_UPDATE_PRIORITY+1)%_param->_nb_context;
+        }
         // ===================================================================
 …
           if (internal_BRANCH_EVENT_VAL [i] and PORT_READ(in_BRANCH_EVENT_ACK [i]))
+            {
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * UPDATE[%d] - Accepted",i);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * BRANCH_EVENT [%d] - Accepted",i);
 #ifdef DEBUG_TEST
 …
               // Change state
               log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * EVENT [%d] <- EVENT_STATE_OK (branch_event)",i);
+              log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * EVENT [%d] <- EVENT_STATE_WAIT_END_EVENT (branch_event)",i);
               reg_EVENT_STATE [i] = EVENT_STATE_OK;
+              reg_EVENT_STATE [i] = EVENT_STATE_WAIT_END_EVENT;
+            }
+        // ===================================================================
+        // =====[ EVENT ]=====================================================
+        // ===================================================================
+        for (uint32_t i=0; i<_param->_nb_context; ++i)
+          {
+            //----------------------------------------------------------------
+            // Cases
+            //----------------------------------------------------------------
+            //   * EVENT_TYPE_NONE               - nothing
+            //   * EVENT_TYPE_MISS_SPECULATION
+            //     * EVENT_STATE_END             - Change state, reset pointer
+            //   * EVENT_TYPE_EXCEPTION          -
+            //     * EVENT_STATE_EVENT           - Flush upft and upt
+            //     * EVENT_STATE_END             - Change state, reset pointer
+            //   * EVENT_TYPE_BRANCH_NO_ACCURATE - nothing : manage in decod and update
+            //   * EVENT_TYPE_SPR_ACCESS         - nothing
+            //   * EVENT_TYPE_MSYNC              - nothing
+            //   * EVENT_TYPE_PSYNC              - nothing
+            //   * EVENT_TYPE_CSYNC              - nothing
+            Tevent_state_t event_state = PORT_READ(in_EVENT_STATE [i]);
+            Tevent_type_t  event_type  = PORT_READ(in_EVENT_TYPE  [i]);
+//             Tdepth_t       depth       = PORT_READ(in_EVENT_DEPTH [i]);
+            // Test if end of miss
+            if ((event_state == EVENT_STATE_END) and
+                (event_type  == EVENT_TYPE_MISS_SPECULATION))
+              {
+                log_printf(TRACE,Update_Prediction_Table,FUNCTION,"  * EVENT");
+                log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * state : EVENT_STATE_END");
+                log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * type  : EVENT_TYPE_MISS_SPECULATION");
+#ifdef DEBUG_TEST
+                if (reg_EVENT_STATE [i] != EVENT_STATE_WAIT_END_EVENT)
+                  throw ERRORMORPHEO(FUNCTION,_("Event : invalid event state."));
+#endif
+                // Change state
+                log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * EVENT [%d] <- EVENT_STATE_OK (event)",i);
+                reg_EVENT_STATE [i] = EVENT_STATE_OK;
+//                 uint32_t bottom = reg_UPT_BOTTOM [i];
+//                 reg_UPT_TOP    [i] = bottom;
+//                 reg_UPT_UPDATE [i] = bottom;
+              }
+          }
         // ===================================================================
 …
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"      * reg_UPT_BOTTOM          : %d",reg_UPT_BOTTOM         [i]);
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"      * reg_UPT_TOP             : %d",reg_UPT_TOP            [i]);
+        log_printf(TRACE,Update_Prediction_Table,FUNCTION,"      * reg_UPT_TOP_EVENT       : %d",reg_UPT_TOP_EVENT      [i]);
         log_printf(TRACE,Update_Prediction_Table,FUNCTION,"      * reg_UPT_UPDATE          : %d",reg_UPT_UPDATE         [i]);
         for (uint32_t j=0; j<_param->_size_upt_queue[i]; j++)

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/include/Parameters.h

-                      r88
+                      r95
   public : uint32_t *   _ras_size_queue                ;//[nb_context]
   public : uint32_t *   _upt_size_queue                ;//[nb_context]
+  public : uint32_t *   _ufpt_size_queue               ;//[nb_context]
 //public : uint32_t     _size_context_id               ;
 …
                         uint32_t *   ras_size_queue                ,//[nb_context]
                         uint32_t *   upt_size_queue                ,//[nb_context]
+                        uint32_t *   ufpt_size_queue               ,//[nb_context]
                         bool         is_toplevel=false
                         );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/include/Prediction_unit.h

-                      r88
+                      r95
 //public    : SC_OUT(Tcontrol_t         )  ** out_BRANCH_EVENT_MISS_PREDICTION        ; //[nb_context]
   public    : SC_OUT(Taddress_t         )  ** out_BRANCH_EVENT_ADDRESS_SRC            ; //[nb_context]
+  public    : SC_OUT(Tcontrol_t         )  ** out_BRANCH_EVENT_ADDRESS_DEST_VAL       ; //[nb_context]
   public    : SC_OUT(Taddress_t         )  ** out_BRANCH_EVENT_ADDRESS_DEST           ; //[nb_context]
+    // ~~~~~[ Interface : "event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  public    : SC_IN (Tevent_state_t     )  **  in_EVENT_STATE                    ; //[nb_context]
+  public    : SC_IN (Tevent_type_t      )  **  in_EVENT_TYPE                     ; //[nb_context]
+  public    : SC_IN (Tdepth_t           )  **  in_EVENT_DEPTH                    ; //[nb_context]
     // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Parameters.cpp

-                      r88
+                      r95
                           uint32_t *   ras_size_queue                ,//[nb_context]
                           uint32_t *   upt_size_queue                ,//[nb_context]
+                          uint32_t *   ufpt_size_queue               ,//[nb_context]
                           bool         is_toplevel
+                          )
 …
     _ras_size_queue             = ras_size_queue            ;
     _upt_size_queue             = upt_size_queue            ;
+    _ufpt_size_queue            = ufpt_size_queue           ;
     _array_size_depth           = new uint32_t [_nb_context];
 …
       (_nb_context             ,
        _upt_size_queue         ,
+       _ufpt_size_queue        ,
        _size_address           ,
        _nb_inst_branch_predict ,

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Parameters_print.cpp

r82	r95
68	68	xml. singleton_begin("ras_size_queue "); xml.attribut("value",toString(_ras_size_queue [i])); xml.singleton_end();
69	69	xml. singleton_begin("upt_size_queue "); xml.attribut("value",toString(_upt_size_queue [i])); xml.singleton_end();
	70	xml. singleton_begin("ufpt_size_queue "); xml.attribut("value",toString(_ufpt_size_queue [i])); xml.singleton_end();
70	71	xml. balise_close();
71	72	}

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Prediction_unit_allocation.cpp

-                      r88
+                      r95
       ALLOC1_INTERFACE("branch_event", IN,SOUTH, "branch_event", _param->_nb_context);
+      ALLOC1_VALACK_OUT(out_BRANCH_EVENT_VAL            ,VAL);
+      ALLOC1_VALACK_IN ( in_BRANCH_EVENT_ACK            ,ACK);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_CONTEXT_ID     ,"context_id"     ,Tcontext_t,_param->_size_context_id);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_DEPTH          ,"depth"          ,Tdepth_t  ,_param->_size_depth);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_MISS_PREDICTION,"miss_prediction",Tcontrol_t,1);
+      ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_ADDRESS_SRC    ,"address_src"    ,Taddress_t,_param->_size_address);
+      ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_ADDRESS_DEST   ,"address_dest"   ,Taddress_t,_param->_size_address);
+      ALLOC1_VALACK_OUT(out_BRANCH_EVENT_VAL              ,VAL);
+      ALLOC1_VALACK_IN ( in_BRANCH_EVENT_ACK              ,ACK);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_CONTEXT_ID       ,"context_id"      ,Tcontext_t,_param->_size_context_id);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_DEPTH            ,"depth"           ,Tdepth_t  ,_param->_size_depth);
+//    ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_MISS_PREDICTION  ,"miss_prediction" ,Tcontrol_t,1);
+      ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_ADDRESS_SRC      ,"address_src"     ,Taddress_t,_param->_size_address);
+      ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_ADDRESS_DEST_VAL ,"address_dest_val",Tcontrol_t,1);
+      ALLOC1_SIGNAL_OUT(out_BRANCH_EVENT_ADDRESS_DEST     ,"address_dest"    ,Taddress_t,_param->_size_address);
+    }
 …
       ALLOC1_SIGNAL_OUT(out_DEPTH_MIN          ,"min"          ,Tdepth_t,_param->_size_depth);
       ALLOC1_SIGNAL_OUT(out_DEPTH_MAX          ,"max"          ,Tdepth_t,_param->_size_depth+1);
+    }
+    // ~~~~~[ Interface : "event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    {
+      ALLOC1_INTERFACE("event", IN,SOUTH,"event", _param->_nb_context);
+      ALLOC1_SIGNAL_IN ( in_EVENT_STATE  ,"state",Tevent_state_t,_param->_size_event_state);
+      ALLOC1_SIGNAL_IN ( in_EVENT_TYPE   ,"type" ,Tevent_type_t ,_param->_size_event_type );
+      ALLOC1_SIGNAL_IN ( in_EVENT_DEPTH  ,"depth",Tdepth_t      ,_param->_size_depth      );
+    }
 …
           COMPONENT_MAP(_component,src , "in_UPDATE_"+toString(i)+    "_PUSH"             ,
                                    dest,"out_UPDATE_"+toString(i)+"_RAS_PUSH"             );
+          COMPONENT_MAP(_component,src , "in_UPDATE_"+toString(i)+    "_FLUSH"            ,
+                                   dest,"out_UPDATE_"+toString(i)+"_RAS_FLUSH"            );
           COMPONENT_MAP(_component,src , "in_UPDATE_"+toString(i)+    "_ADDRESS"          ,
                                    dest,"out_UPDATE_"+toString(i)+"_RAS_ADDRESS"          );
 …
           //in_UPDATE_UPT_RAS_ADDRESS           - component_map return_address_stack
           //in_UPDATE_UPT_RAS_PUSH              - component_map return_address_stack
+          //in_UPDATE_UPT_RAS_FLUSH             - component_map return_address_stack
           //in_UPDATE_UPT_RAS_INDEX             - component_map return_address_stack
           //in_UPDATE_UPT_RAS_PREDICTION_IFETCH - component_map return_address_stack
 …
 #endif
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_VAL"         ,dest,"out_BRANCH_EVENT_"+toString(i)+"_VAL"         );
+          PORT_MAP(_component,src , "in_BRANCH_EVENT_"+toString(i)+"_ACK"         ,dest, "in_BRANCH_EVENT_"+toString(i)+"_ACK"         );
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC" ,dest,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC" );
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST",dest,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST");
+        }
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_VAL"             ,dest,"out_BRANCH_EVENT_"+toString(i)+"_VAL"             );
+          PORT_MAP(_component,src , "in_BRANCH_EVENT_"+toString(i)+"_ACK"             ,dest, "in_BRANCH_EVENT_"+toString(i)+"_ACK"             );
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"     ,dest,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"     );
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST_VAL",dest,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST_VAL");
+          PORT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"    ,dest,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"    );
+        }
+      for (uint32_t i=0; i<_param->_nb_context; i++)
+        {
+          dest = _name;
+#ifdef POSITION
+          _component->interface_map (src ,"event_"+toString(i),
+                                     dest,"event_"+toString(i));
+#endif
+          PORT_MAP(_component,src , "in_EVENT_"+toString(i)+"_STATE",dest, "in_EVENT_"+toString(i)+"_STATE");
+          PORT_MAP(_component,src , "in_EVENT_"+toString(i)+"_TYPE" ,dest, "in_EVENT_"+toString(i)+"_TYPE" );
+          if (_param->_have_port_depth)
+          PORT_MAP(_component,src , "in_EVENT_"+toString(i)+"_DEPTH",dest, "in_EVENT_"+toString(i)+"_DEPTH");
+        }
       for (uint32_t i=0; i<_param->_nb_context; i++)

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Prediction_unit/src/Prediction_unit_deallocation.cpp

-                      r88
+                      r95
         DELETE1_SIGNAL(out_BRANCH_COMPLETE_ADDRESS_DEST   ,_param->_nb_inst_branch_complete,_param->_size_instruction_address);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_VAL            ,_param->_nb_context,1);
+        DELETE1_SIGNAL( in_BRANCH_EVENT_ACK            ,_param->_nb_context,1);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_CONTEXT_ID     ,_param->_nb_context,_param->_size_context_id);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_DEPTH          ,_param->_nb_context,_param->_size_depth);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC    ,_param->_nb_context,_param->_size_instruction_address);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST   ,_param->_nb_context,_param->_size_instruction_address);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_VAL              ,_param->_nb_context,1);
+        DELETE1_SIGNAL( in_BRANCH_EVENT_ACK              ,_param->_nb_context,1);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_CONTEXT_ID       ,_param->_nb_context,_param->_size_context_id);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_DEPTH            ,_param->_nb_context,_param->_size_depth);
+//      DELETE1_SIGNAL(out_BRANCH_EVENT_MISS_PREDICTION  ,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_SRC      ,_param->_nb_context,_param->_size_instruction_address);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST_VAL ,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_BRANCH_EVENT_ADDRESS_DEST     ,_param->_nb_context,_param->_size_instruction_address);
+        DELETE1_SIGNAL( in_EVENT_STATE  ,_param->_nb_context,_param->_size_event_state);
+        DELETE1_SIGNAL( in_EVENT_TYPE   ,_param->_nb_context,_param->_size_event_type );
+        DELETE1_SIGNAL( in_EVENT_DEPTH  ,_param->_nb_context,_param->_size_depth      );
         DELETE1_SIGNAL(out_DEPTH_CURRENT      ,_param->_nb_context,_param->_size_depth);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_1-decod_unit_1-a.cfg

r88	r95
43	43	8 8 +1 # ras_size_queue [0] [nb_context]
44	44	1 1 +1 # upt_size_queue [0] [nb_context]
	45	1 1 +1 # ufpt_size_queue [0] [nb_context]
45	46	1 1 +1 # size_inst_commit

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_1-a.cfg

-                      r88
+                      r95
        2       +1      # upt_size_queue                [2] [nb_context]
        8       +1      # upt_size_queue                [3] [nb_context]
+       6       +1      # ufpt_size_queue               [0] [nb_context]
+       1       +1      # ufpt_size_queue               [1] [nb_context]
+       1       +1      # ufpt_size_queue               [2] [nb_context]
+       4       +1      # ufpt_size_queue               [3] [nb_context]
        1       +1      # size_inst_commit

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_2-a.cfg

-                      r88
+                      r95
        2       +1      # upt_size_queue                [2] [nb_context]
        8       +1      # upt_size_queue                [3] [nb_context]
+       6       +1      # ufpt_size_queue               [0] [nb_context]
+       1       +1      # ufpt_size_queue               [1] [nb_context]
+       1       +1      # ufpt_size_queue               [2] [nb_context]
+       4       +1      # ufpt_size_queue               [3] [nb_context]
        1       +1      # size_inst_commit

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-context_4-decod_unit_2-b.cfg

-                      r88
+                      r95
        2       +1      # upt_size_queue                [2] [nb_context]
        8       +1      # upt_size_queue                [3] [nb_context]
+       6       +1      # ufpt_size_queue               [0] [nb_context]
+       1       +1      # ufpt_size_queue               [1] [nb_context]
+       1       +1      # ufpt_size_queue               [2] [nb_context]
+       4       +1      # ufpt_size_queue               [3] [nb_context]
        1       +1      # size_inst_commit

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/config-min.cfg

r88	r95
43	43	2 2 +1 # ras_size_queue [0] [nb_context]
44	44	1 1 +1 # upt_size_queue [0] [nb_context]
	45	1 1 +1 # ufpt_size_queue [0] [nb_context]
45	46	1 1 +1 # size_inst_commit

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/SelfTest/src/main.cpp

-                      r88
+                      r95
   err (_(" * ras_size_queue                [nb_context]                 (uint32_t         )\n"));
   err (_(" * upt_size_queue                [nb_context]                 (uint32_t         )\n"));
+  err (_(" * ufpt_size_queue               [nb_context]                 (uint32_t         )\n"));
   err (_(" * size_inst_commit                                           (uint32_t         )\n"));
 …
   uint32_t             _nb_decod_unit                     = fromString<uint32_t         >(argv[x++]);
   if (argc != static_cast<int>(2+NB_PARAMS+5*_nb_context+5*_nb_decod_unit))
+  if (argc != static_cast<int>(2+NB_PARAMS+6*_nb_context+5*_nb_decod_unit))
+    {
       msg("argc                : %d\n",argc);
 …
   for (uint32_t i=0; i<_nb_context; ++i)
     _upt_size_queue [i] = fromString<uint32_t>(argv[x++]);
+  uint32_t           * _ufpt_size_queue                   = new uint32_t [_nb_context];
+  for (uint32_t i=0; i<_nb_context; ++i)
+    _ufpt_size_queue [i] = fromString<uint32_t>(argv[x++]);
   uint32_t             _size_inst_commit                  = fromString<uint32_t>(argv[x++]);
 …
          _ras_size_queue                      ,
          _upt_size_queue                      ,
+         _ufpt_size_queue                     ,
          _size_inst_commit                    ,
          true // is_toplevel
 …
   delete [] _dir_pht_nb_counter                  ;
   delete [] _dir_pht_size_address_share          ;
+  delete [] _ufpt_size_queue                   ;
   delete [] _upt_size_queue                    ;
   delete [] _ras_size_queue                    ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/include/Parameters.h

-                      r88
+                      r95
   public : uint32_t              * _ras_size_queue                       ;//[nb_context]
   public : uint32_t              * _upt_size_queue                       ;//[nb_context]
+  public : uint32_t              * _ufpt_size_queue                      ;//[nb_context]
     // context_state
 //public : uint32_t                _size_nb_inst_commit                  ;
 …
                         uint32_t              * ras_size_queue                      ,
                         uint32_t              * upt_size_queue                      ,
+                        uint32_t              * ufpt_size_queue                     ,
                         // context_state
                         uint32_t                size_nb_inst_commit                 ,

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/src/Front_end_allocation.cpp

-                      r88
+                      r95
 #endif
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_VAL"            ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_VAL"            );
+          COMPONENT_MAP(_component,src , "in_BRANCH_EVENT_"+toString(i)+"_ACK"            ,
+                                   dest,"out_BRANCH_EVENT_"+toString(i)+"_ACK"            );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_CONTEXT_ID"     ,
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_CONTEXT_ID"     );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_DEPTH"          ,
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_DEPTH"          );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_MISS_PREDICTION",
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_MISS_PREDICTION");
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"    ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"    );
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"   ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"   );
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_VAL"             ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_VAL"             );
+          COMPONENT_MAP(_component,src , "in_BRANCH_EVENT_"+toString(i)+"_ACK"             ,
+                                   dest,"out_BRANCH_EVENT_"+toString(i)+"_ACK"             );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_CONTEXT_ID"      ,
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_CONTEXT_ID"      );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_DEPTH"           ,
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_DEPTH"           );
+//        COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_MISS_PREDICTION" ,
+//                                 dest, "in_BRANCH_EVENT_"+toString(i)+"_MISS_PREDICTION" );
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"     ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_ADDRESS_SRC"     );
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST_VAL",
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST_VAL");
+          COMPONENT_MAP(_component,src ,"out_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"    ,
+                                   dest, "in_BRANCH_EVENT_"+toString(i)+"_ADDRESS_DEST"    );
+        }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/src/Parameters.cpp

-                      r88
+                      r95
                           uint32_t              * ras_size_queue                      ,
                           uint32_t              * upt_size_queue                      ,
+                          uint32_t              * ufpt_size_queue                     ,
                           // context_state
                           uint32_t                size_nb_inst_commit                 ,
 …
     _ras_size_queue                      = ras_size_queue                      ;
     _upt_size_queue                      = upt_size_queue                      ;
+    _ufpt_size_queue                     = ufpt_size_queue                     ;
     test();
 …
            _nb_inst_fetch     [i]        ,
            log2(_upt_size_queue[i])      ,
            size_instruction_address                 );
+           size_instruction_address      );
+      }
 …
        _dir_pht_size_address_share    ,
        _ras_size_queue                ,
+       _upt_size_queue                );
+       _upt_size_queue                ,
+       _ufpt_size_queue               );
     _translate_context_id_from_decod_unit= new std::vector<uint32_t> [_nb_decod_unit];

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Victim/Victim_Pseudo_LRU/SelfTest/include/test.h

r81	r95
14	14
15	15	#include "Behavioural/Generic/Victim/Victim_Pseudo_LRU/include/Victim_Pseudo_LRU.h"
	16	#include "Common/include/Time.h"
16	17
17	18	using namespace std;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Victim/Victim_Pseudo_LRU/SelfTest/src/test.cpp

-                      r88
+                      r95
         (*(_Victim_Pseudo_LRU->out_ACCESS_VICTIM  [i])) (ACCESS_VICTIM  [i]);
+      }
+  Time * _time = new Time();
   /********************************************************
 …
   cout << "<" << name << "> ............ Stop Simulation" << endl;
+  delete _time;
 #endif

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_allocation.cpp

-                      r88
+                      r95
                                                               );
       in_CLOCK        = interface->set_signal_clk              ("clock" ,1);
       in_NRESET       = interface->set_signal_in  <Tcontrol_t> ("nreset",1);
+      in_CLOCK        = interface->set_signal_clk              ("clock" ,1, CLOCK_VHDL_YES);
+      in_NRESET       = interface->set_signal_in  <Tcontrol_t> ("nreset",1, RESET_VHDL_YES);
+    }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_vhdl_body.cpp

-                      r81
+                      r95
+        }
     vhdl->set_body ("");
     vhdl->set_body ("-- port update");
     for (uint32_t i=0; i<_param->_nb_update; i++)
       for (int32_t j=static_cast<uint32_t>(log2(_param->_nb_entity)-1); j>=0; j--)
+        {
           uint32_t cpt=0;
+//     vhdl->set_body ("");
+//     vhdl->set_body ("-- port update");
+//     for (uint32_t i=0; i<_param->_nb_update; i++)
+//       for (int32_t j=static_cast<uint32_t>(log2(_param->_nb_entity)-1); j>=0; j--)
+//      {
+//        uint32_t cpt=0;
           for (int32_t k=(1<<j)-1; k<static_cast<int32_t>(_param->_nb_entity-1); k+=(1<<(j+1)))
+            {
               bool   have_cond = false;
               std::string cond      = "";
               // condition to change the bit
               for (uint32_t l=j+1; l<static_cast<uint32_t>(log2(_param->_nb_entity));l++)
+                {
                   have_cond = true;
                   if (l==static_cast<uint32_t>(j+1))
                     cond += "when";
                   else
                     cond += " and";
                   cond += " in_UPDATE_"+toString(i)+"_ENTITY("+toString(l)+")='"+toString((cpt>>(l-(j+1)))&1)+"'";
+                }
               vhdl->set_body ("update_next_entry_"+toString(i)+"("+toString(k)+") <=");
               vhdl->set_body ("\tnot in_UPDATE_"+toString(i)+"_ENTITY("+toString(j)+") "+cond);
               if (have_cond == true)
+                {
                   std::string update_address;
                   if (_param->_size_table>1)
                     update_address = "conv_integer(in_UPDATE_"+toString(i)+"_ADDRESS)";
                   else
                     update_address = "0";
+//        for (int32_t k=(1<<j)-1; k<static_cast<int32_t>(_param->_nb_entity-1); k+=(1<<(j+1)))
+//          {
+//            bool   have_cond = false;
+//            std::string cond      = "";
+//            // condition to change the bit
+//            for (uint32_t l=j+1; l<static_cast<uint32_t>(log2(_param->_nb_entity));l++)
+//              {
+//                have_cond = true;
+//                if (l==static_cast<uint32_t>(j+1))
+//                  cond += "when";
+//                else
+//                  cond += " and";
+//                cond += " in_UPDATE_"+toString(i)+"_ENTITY("+toString(l)+")='"+toString((cpt>>(l-(j+1)))&1)+"'";
+//              }
+//            vhdl->set_body ("update_next_entry_"+toString(i)+"("+toString(k)+") <=");
+//            vhdl->set_body ("\tnot in_UPDATE_"+toString(i)+"_ENTITY("+toString(j)+") "+cond);
+//            if (have_cond == true)
+//              {
+//                std::string update_address;
+//                if (_param->_size_table>1)
+//                  update_address = "conv_integer(in_UPDATE_"+toString(i)+"_ADDRESS)";
+//                else
+//                  update_address = "0";
                   vhdl->set_body ("\telse reg_TABLE ("+update_address+")("+toString(k)+")");
+                }
               vhdl->set_body ("\t;");
               cpt ++;
+            }
+        }
+//                vhdl->set_body ("\telse reg_TABLE ("+update_address+")("+toString(k)+")");
+//              }
+//            vhdl->set_body ("\t;");
+//            cpt ++;
+//          }
+//      }
     vhdl->set_body ("");
 …
+      }
     vhdl->set_body ("\t\t-- Update port");
     for (uint32_t i=0; i<_param->_nb_update; i++)
+      {
         std::string update_address;
         if (_param->_size_table>1)
           update_address = "conv_integer(in_UPDATE_"+toString(i)+"_ADDRESS)";
         else
           update_address = "0";
+//     vhdl->set_body ("\t\t-- Update port");
+//     for (uint32_t i=0; i<_param->_nb_update; i++)
+//       {
+//      std::string update_address;
+//      if (_param->_size_table>1)
+//        update_address = "conv_integer(in_UPDATE_"+toString(i)+"_ADDRESS)";
+//      else
+//        update_address = "0";
         vhdl->set_body ("\t\tif (in_UPDATE_"+toString(i)+"_VAL = '1') then");
         vhdl->set_body ("\t\t\treg_TABLE ("+update_address+") <= update_next_entry_"+toString(i)+";");
         vhdl->set_body ("\t\tend if;");
+      }
+//      vhdl->set_body ("\t\tif (in_UPDATE_"+toString(i)+"_VAL = '1') then");
+//      vhdl->set_body ("\t\t\treg_TABLE ("+update_address+") <= update_next_entry_"+toString(i)+";");
+//      vhdl->set_body ("\t\tend if;");
+//       }
     vhdl->set_body ("\tend if;");
 …
+      {
         vhdl->set_body ("out_ACCESS_"+toString(i)+"_ACK    <= '1';");
         vhdl->set_body ("out_ACCESS_"+toString(i)+"_ENTITY <= access_entity_"+toString(i)+" when in_ACCESS_"+toString(i)+"_VAL = '1' else (others => '0');");
+        vhdl->set_body ("out_ACCESS_"+toString(i)+"_VICTIM <= access_entity_"+toString(i)+" when in_ACCESS_"+toString(i)+"_VAL = '1' else (others => '0');");
+      }
     vhdl->set_body ("");
     for (uint32_t i=0; i<_param->_nb_update; i++)
+      {
         vhdl->set_body ("out_UPDATE_"+toString(i)+"_ACK    <= '1';");
+      }
+//     for (uint32_t i=0; i<_param->_nb_update; i++)
+//       {
+//      vhdl->set_body ("out_UPDATE_"+toString(i)+"_ACK    <= '1';");
+//       }
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Victim/Victim_Pseudo_LRU/src/Victim_Pseudo_LRU_vhdl_declaration.cpp

-                      r81
+                      r95
+      }
     for (uint32_t i=0; i<_param->_nb_update; i++)
+      {
         vhdl->set_signal ("update_next_entry_"+toString(i)+"",std_logic(_param->_nb_entity-1));
+      }
+//     for (uint32_t i=0; i<_param->_nb_update; i++)
+//       {
+//      vhdl->set_signal ("update_next_entry_"+toString(i)+"",std_logic(_param->_nb_entity-1));
+//       }
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/include/Version.h

-                      r94
+                      r95
 #define MORPHEO_MAJOR_VERSION 0
 #define MORPHEO_MINOR_VERSION 2
 #define MORPHEO_REVISION      "94"
+#define MORPHEO_REVISION      "95"
 #define MORPHEO_CODENAME      "Castor"
 #define MORPHEO_DATE_DAY      "15"
+#define MORPHEO_DATE_DAY      "16"
 #define MORPHEO_DATE_MONTH    "12"
 #define MORPHEO_DATE_YEAR     "2008"

trunk/IPs/systemC/processor/Morpheo/Behavioural/include/Vhdl.h

r94	r95
26	26	std::string std_logic_conv (uint32_t size, std::string value);
27	27	std::string std_logic_conv (uint32_t size, uint32_t value);
	28	std::string std_logic_cst (uint32_t size, uint32_t value);
28	29	std::string std_logic_range (uint32_t size, uint32_t max , uint32_t min , bool force=false);
29	30	std::string std_logic_range ( uint32_t max , uint32_t min , bool force=false);

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Component_vhdl_instance.cpp

-                      r81
+                      r95
       std::list<Interface_fifo *>         * list_interface = (_entity)->get_interfaces_list()->get_interface_list();
       std::list<Interface_fifo *>::iterator j              = list_interface->begin();
+      bool print_comment = false;
       if (not list_interface->empty())
+        {
-          vhdl->set_body ("------------------------------------------------------");
-          vhdl->set_body ("-- Output's Buffer");
-          vhdl->set_body ("------------------------------------------------------");
           while (j != list_interface->end())
+            {
 …
                            (signal->get_connect_from_signal () != NULL) )
+                        {
+                          if (not print_comment)
+                            {
+                              vhdl->set_body ("------------------------------------------------------");
+                              vhdl->set_body ("-- Output's Buffer");
+                              vhdl->set_body ("------------------------------------------------------");
+                              print_comment = true;
+                            }
                           // Create name
                           std::string signal_name = "signal_"+toString(cpt++);
 …
               ++j;
+            }
+          vhdl->set_body ("");
+          vhdl->set_body ("------------------------------------------------------");
+          vhdl->set_body ("");
+          if (print_comment)
+            {
+              vhdl->set_body ("");
+              vhdl->set_body ("------------------------------------------------------");
+              vhdl->set_body ("");
+            }
+        }
+    }

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Interface_testbench_test.cpp

r81	r95
24	24
25	25	std::string test_name = testbench_test_name(vhdl);
26		std::string test_name_ok = testbench_test_ok (vhdl);
	26	std::string test_name_ok = testbench_test_ok (vhdl);
27	27
28	28	vhdl->set_body(test_name + " <= '1' when ("+reset_name+" = '0') else "+test_name_ok+";");

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Interface_testbench_test_ok.cpp

r81	r95
24	24	if (_list_signal->empty()== false)
25	25	{
26		std::list<Signal*>::iterator i = _list_signal->begin();
	26	std::list<Signal*>::iterator i = _list_signal->begin();
27	27
28	28	while (i != _list_signal->end())

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Signal_testbench_test_ok.cpp

r81	r95
19	19	if (_direction == OUT)
20	20	vhdl->set_body ("\tand "+_name+" = "+_name+"_test");
21
	21
22	22	log_printf(FUNC,Behavioural,"testbench_test_ok","End");
23	23	};

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Vhdl_set_constant.cpp

-                      r81
+                      r95
   void Vhdl::set_constant (std::string      name     ,
                            uint32_t    size     ,
+                           uint32_t         size     ,
                            std::string      init)
+  {
 …
   };
   void Vhdl::set_constant (std::string      name     ,
+  void Vhdl::set_constant (std::string name     ,
                            uint32_t    size     ,
                            uint32_t    init)
+  {
     log_printf(FUNC,Behavioural,FUNCTION,"Begin");
     set_constant(name,std_logic(size),std_logic_conv(size,init));
+    set_constant(name,std_logic(size),std_logic_cst(size,init));
     log_printf(FUNC,Behavioural,FUNCTION,"End");
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Vhdl_set_signal.cpp

-                      r93
+                      r95
 #include "Behavioural/include/Vhdl.h"
+#include "Common/include/ToBase2.h"
 #include <sstream>
 …
+  {
     log_printf(FUNC,Behavioural,FUNCTION,"Begin");
     set_signal(name,std_logic(size),std_logic_conv(size,init));
+    set_signal(name,std_logic(size),std_logic_cst(size,init));
     log_printf(FUNC,Behavioural,FUNCTION,"End");
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/src/Vhdl_std_logic.cpp

-                      r94
+                      r95
 #include <math.h>
 #include "Behavioural/include/Vhdl.h"
+#include "Common/include/ToBase2.h"
 namespace morpheo              {
 …
     return _return;
+  };
+#undef  FUNCTION
+#define FUNCTION "Vhdl::std_logic_cst"
+  std::string std_logic_cst (uint32_t size, uint32_t value)
+  {
+    log_printf(FUNC,Behavioural,FUNCTION,"Begin");
+    std::string conv;
+    if (size == 1)
+      conv = "'"+toString(value&1)+"'";
+    else
+      conv = "\""+toBase2<uint32_t>(value,size)+"\"";
+    log_printf(FUNC,Behavioural,FUNCTION,"End");
+    return conv;
   };

trunk/IPs/systemC/processor/Morpheo/Documentation/doc/document-morpheo-vhdl_generation/tex/document-morpheo-vhdl_generation-fr.tex

-                      r94
+                      r95
 Ce document est une aide pour les développeur des générateurs de modèles VHDL de \cpu.
 Il est décomposé en 5 sections :
+Il est décomposé en 6 sections :
 \begin{itemize}
 \item Dans la section \ref{tree}, nous présentons l'arborescence des répertoires.
 …
 \item Dans la section \ref{vhdl_structural}, nous expliquerons la manière de créer des sous composants.
 \item Dans la section \ref{example}, nous montrerons quelques exemples.
+\item Dans la section \ref{testbench}, nous présenterons la méthodologie de test.
 \end{itemize}
 …
 \end{verbatim}
+\Section {Test du VHDL}\label{testbench}
+Lors d'une simulation systemC, \cpu va générer des fichiers de tests pour le modèle VHDL de chaque composant interne.
+Ces tests sont tous écrit de la même façon. Soit l'interface X et le signal Y :
+\begin{itemize}
+\item Une variable {\it counter} indique le numéro de cycle courant. Elle est initialisé à 0. Elle est incrémenté à chaque cycle.
+\item Le composant est instancé avec des signaux internes de même nom.
+\item Pour chaque cycle, on affecte à chaque entrée la valeur obtenu lors de la simulation systemC.
+\item Pour chaque sortie, on définit un signal dont le nom est {\it out\_X\_Y\_test}. Ces signaux sont affecté au valeur obtenu des sorties lors la simulation systemC.
+\item Le signal {\it interface\_X\_test\_ok} est égal à 1 si chaque sortie calculé par la simulation VHDL est égal au sortie attendu (calculé par la simulation systemC).
+\item Le signal {\it interface\_X\_test\_transaction} est à 1 si tous les signaux de validité et d'aquittement sont à 1.
+\item Le signal {\it interface\_X\_test\_tmp} est à 1 si la simulation systemC indique qu'il y a une transaction et que la simulation vhdl indique également une transaction et que toute les sortie sont bien les sorties obtenu. Si la simulation systemC n'indique pas de transaction, on vérifie que c'est également le cas pour la simulation VHDL.
+\item Le signal {\it interface\_X\_test} est égal au signal {\it interface\_X\_test\_tmp} quand il n'y a pas de reset. sinon il est positionné à 1.
+\item Le signal {\it test} est un et logique entre tout tous les signaux {\it interface\_X\_test}.
+\item La simulation VHDL ce termine si le signal {\it test} vaut 0 (dans ce cas, le test est un échec), ou que le registre {\it counter} vaut le nombre de cycle requis par la simulation systemC (dans ce cas, le test est un succès).
+\end{itemize}
+Nous pouvons remarquer que :
+\begin{itemize}
+\item Nous vérifions la compatibilité au cycle des transactions entre le modèle systemC et le modèle VHDL.
+\item Nous vérifions la compatibilité au bit près des données échangé lors qu'il y a une transaction sur une interface.
+\item Nous ne vérifions pas la compatibilité au bit près des données présente sur une interface qui ne fait pas de transaction lors d'un cycle.
+\end{itemize}

trunk/IPs/systemC/processor/Morpheo/Files/Instance_min.cfg

-                      r88
+                      r95
     <parameter name="nb_inst_fetch"                         value="1" />
     <parameter name="ras_size_queue"                        value="2" />
+    <parameter name="upt_size_queue"                        value="2" />
+    <parameter name="upt_size_queue"                        value="1" />
+    <parameter name="ufpt_size_queue"                       value="1" />
     <group id="0">

trunk/IPs/systemC/processor/Morpheo/Files/Instance_scalar_1.cfg

r88	r95
8	8	<parameter name="ras_size_queue" value="2" />
9	9	<parameter name="upt_size_queue" value="2" />
	10	<parameter name="ufpt_size_queue" value="2" />
10	11
11	12	<group id="0">

trunk/IPs/systemC/processor/Morpheo/Files/Instance_scalar_2.cfg

r88	r95
8	8	<parameter name="ras_size_queue" value="8" />
9	9	<parameter name="upt_size_queue" value="4" />
	10	<parameter name="ufpt_size_queue" value="2" />
10	11
11	12	<group id="0">

trunk/IPs/systemC/processor/Morpheo/Files/Morpheo.sim

r88	r95
23	23	<parameter name="directory_log" value="/tmp/Morpheo/" />
24	24
	25	<parameter name="debug" value="0" />
	26
25	27	</parameters>

Note: See TracChangeset for help on using the changeset viewer.

Context Navigation

Changeset 95 for trunk/IPs/systemC/processor/Morpheo

Legend:

Download in other formats: