Changeset 101 for trunk/IPs/systemC/processor

trunk/IPs/systemC/processor/Morpheo/Behavioural/Configuration/SelfTest/src/test.cpp

-                      r97
+                      r101
+  }
+  {
+    cout << "------------------------------------------------------" << endl;
+    Instance * instance = new Instance ("../../../Files/Instance_scalar_3.cfg",
+                                        generator1,
+                                        _get_custom_information
+                                        );
+    instance->toFile("data_out");
+    delete instance;
+  }
+  {
+    cout << "------------------------------------------------------" << endl;
+    Instance * instance = new Instance ("../../../Files/Instance_scalar_4.cfg",
+                                        generator1,
+                                        _get_custom_information
+                                        );
+    instance->toFile("data_out");
+    delete instance;
+  }
   delete configuration1;
   delete instance1;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Functionnal_unit/Operation/include/Operation.h

-                      r81
+                      r101
   void operation_l_addc          (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
   void operation_l_sub           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
 //void operation_l_mul           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
 //void operation_l_mulu          (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
 //void operation_l_div           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
 //void operation_l_divu          (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
+  void operation_l_mul           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
+  void operation_l_mulu          (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
+  void operation_l_div           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
+  void operation_l_divu          (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
   void operation_l_and           (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);
   void operation_l_or            (execute_operation_t * op, execute_register_t  * reg, execute_param_t * param);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Functionnal_unit/Operation/src/Operation.cpp

-                      r100
+                      r101
     bool            overflow  = ovf  (param->_size_data,gpr1,gpr2,gpr3);
+    bool            carry_out = carry(param->_size_data,gpr1,gpr2,gpr3);
+//  bool            carry_out = carry(param->_size_data,gpr1,gpr2,gpr3);
+    // In ISA : l.sub don't change flag carry
+    bool            carry_out  = get_flag(op->_data_rc,FLAG_CY);
     // Result
 …
 #undef  FUNCTION
+#define FUNCTION "Functionnal_unit::operation_l_mul"
+  void operation_l_mul         (execute_operation_t * op, execute_register_t * reg, execute_param_t * param)
+  {
+    log_printf(TRACE,Functionnal_unit,FUNCTION,"Operation : l_mul");
+    Tgeneral_data_t gpr1      = unsigned(param->_size_data,op->_data_ra);
+    Tgeneral_data_t gpr2      = unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb);
+    Tgeneral_data_t gpr3      ;
+    bool            overflow  ;
+    bool            carry_out ;
+    if (param->_size_data == 32)
+      {
+        int64_t res = static_cast<int64_t>(gpr1) * static_cast<int64_t>(gpr2);
+        log_printf(TRACE,Functionnal_unit,FUNCTION,"  * res   : %llx",res);
+        gpr3      = param->_mask_data & static_cast<Tgeneral_data_t>(res);
+        carry_out = res != gpr3;
+        overflow  = carry_out;
+      }
+    else
+      {
+        throw ERRORMORPHEO(FUNCTION,_("64 bits multiplcation : not yet implemented\n"));
+      }
+    // Result
+    op->_timing       = param->_timing[op->_type][op->_operation];
+    op->_data_rd      = gpr3;
+    op->_data_re      = 0;
+    op->_data_re      = set_flag(op->_data_re,FLAG_OV,overflow );
+    op->_data_re      = set_flag(op->_data_re,FLAG_CY,carry_out);
+    op->_exception    = (overflow==1)?EXCEPTION_ALU_RANGE:EXCEPTION_ALU_NONE;
+    op->_no_sequence  = 0;
+  //op->_address      = 0;
+  };
+#undef  FUNCTION
+#define FUNCTION "Functionnal_unit::operation_l_mulu"
+  void operation_l_mulu        (execute_operation_t * op, execute_register_t * reg, execute_param_t * param)
+  {
+    log_printf(TRACE,Functionnal_unit,FUNCTION,"Operation : l_mulu");
+    Tgeneral_data_t gpr1      = unsigned(param->_size_data,op->_data_ra);
+    Tgeneral_data_t gpr2      = unsigned(param->_size_data,op->_data_rb);
+    Tgeneral_data_t gpr3      ;
+    bool            overflow  ;
+    bool            carry_out ;
+    if (param->_size_data == 32)
+      {
+        uint64_t res = static_cast<uint64_t>(gpr1) * static_cast<uint64_t>(gpr2);
+        log_printf(TRACE,Functionnal_unit,FUNCTION,"  * res   : %llx",res);
+        gpr3      = param->_mask_data & static_cast<Tgeneral_data_t>(res);
+        carry_out = res != gpr3;
+        overflow  = carry_out;
+      }
+    else
+      {
+        throw ERRORMORPHEO(FUNCTION,_("64 bits multiplcation : not yet implemented\n"));
+      }
+    // Result
+    op->_timing       = param->_timing[op->_type][op->_operation];
+    op->_data_rd      = gpr3;
+    op->_data_re      = 0;
+    op->_data_re      = set_flag(op->_data_re,FLAG_OV,overflow );
+    op->_data_re      = set_flag(op->_data_re,FLAG_CY,carry_out);
+    op->_exception    = (overflow==1)?EXCEPTION_ALU_RANGE:EXCEPTION_ALU_NONE;
+    op->_no_sequence  = 0;
+  //op->_address      = 0;
+  };
+#undef  FUNCTION
+#define FUNCTION "Functionnal_unit::operation_l_div"
+  void operation_l_div         (execute_operation_t * op, execute_register_t * reg, execute_param_t * param)
+  {
+    log_printf(TRACE,Functionnal_unit,FUNCTION,"Operation : l_div");
+    Tgeneral_data_t gpr1      = signed(param->_size_data,op->_data_ra);
+    Tgeneral_data_t gpr2      = signed(param->_size_data,op->_data_rb);
+    Tgeneral_data_t gpr3      = (gpr2!=0)?(gpr1/gpr2):0;
+    bool            overflow  = ovf  (param->_size_data,gpr1,gpr2,gpr3);
+    bool            carry_out = (gpr2==0);
+    // Result
+    op->_timing       = param->_timing[op->_type][op->_operation];
+    op->_data_rd      = gpr3;
+    op->_data_re      = 0;
+    op->_data_re      = set_flag(op->_data_re,FLAG_OV,overflow );
+    op->_data_re      = set_flag(op->_data_re,FLAG_CY,carry_out);
+    op->_exception    = (overflow==1)?EXCEPTION_ALU_RANGE:EXCEPTION_ALU_NONE;
+    op->_no_sequence  = 0;
+  //op->_address      = 0;
+  };
+#undef  FUNCTION
+#define FUNCTION "Functionnal_unit::operation_l_divu"
+  void operation_l_divu        (execute_operation_t * op, execute_register_t * reg, execute_param_t * param)
+  {
+    log_printf(TRACE,Functionnal_unit,FUNCTION,"Operation : l_divu");
+    Tgeneral_data_t gpr1      = unsigned(param->_size_data,op->_data_ra);
+    Tgeneral_data_t gpr2      = unsigned(param->_size_data,op->_data_rb);
+    Tgeneral_data_t gpr3      = (gpr2!=0)?(gpr1/gpr2):0;
+    bool            overflow  = ovf  (param->_size_data,gpr1,gpr2,gpr3);
+    bool            carry_out = (gpr2==0);
+    // Result
+    op->_timing       = param->_timing[op->_type][op->_operation];
+    op->_data_rd      = gpr3;
+    op->_data_re      = 0;
+    op->_data_re      = set_flag(op->_data_re,FLAG_OV,overflow );
+    op->_data_re      = set_flag(op->_data_re,FLAG_CY,carry_out);
+    op->_exception    = (overflow==1)?EXCEPTION_ALU_RANGE:EXCEPTION_ALU_NONE;
+    op->_no_sequence  = 0;
+  //op->_address      = 0;
+  };
+#undef  FUNCTION
 #define FUNCTION "Functionnal_unit::operation_l_and"
   void operation_l_and         (execute_operation_t * op, execute_register_t * reg, execute_param_t * param)
 …
     Tgeneral_data_t gpr2       = unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb);
+    // Tgeneral_data_t is unsigned
     bool            f_out      = (gpr1 >= gpr2);
 …
     Tgeneral_data_t gpr2       = unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb);
+    // Tgeneral_data_t is unsigned
     bool            f_out      = (gpr1 >  gpr2);
 …
     Tgeneral_data_t gpr2       = unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb);
+    // Tgeneral_data_t is unsigned
     bool            f_out      = (gpr1 <= gpr2);
 …
     Tgeneral_data_t gpr2       = unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb);
+    // Tgeneral_data_t is unsigned
     bool            f_out      = (gpr1 <  gpr2);
 …
     Tgeneral_data_t gpr1       =   op->_data_ra;
     Tgeneral_data_t gpr2       =   (op->_has_immediat==1)?op->_immediat:op->_data_rb;
+    log_printf(TRACE,Functionnal_unit,FUNCTION," * data_ra  : %.8x",unsigned(param->_size_data,op->_data_ra));
+    log_printf(TRACE,Functionnal_unit,FUNCTION," * data_ras : %.8x",  signed(param->_size_data,op->_data_ra));
+    log_printf(TRACE,Functionnal_unit,FUNCTION," * data_rb  : %.8x",unsigned(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb));
+    log_printf(TRACE,Functionnal_unit,FUNCTION," * data_rbs : %.8x",  signed(param->_size_data,(op->_has_immediat==1)?op->_immediat:op->_data_rb));
     bool            f_out;
+    switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+      {
+      case 1 /*b01*/ : f_out = 1                               ; break;
+      case 2 /*b10*/ : f_out = 0                               ; break;
+      default        : f_out = signed(param->_size_data,gpr1) >= signed(param->_size_data,gpr2); break;
+      }
+    log_printf(TRACE,Functionnal_unit,FUNCTION," * f_out    : %.8x",f_out);
+    if (param->_size_data == 32)
+      f_out = static_cast<int32_t>(gpr1) >= static_cast<int32_t>(gpr2);
+    else
+      f_out = static_cast<int64_t>(gpr1) >= static_cast<int64_t>(gpr2);
+//     switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+//       {
+//       case 1 /*b01*/ : f_out = 1                               ; break;
+//       case 2 /*b10*/ : f_out = 0                               ; break;
+//       default        : f_out = signed(param->_size_data,gpr1) >= signed(param->_size_data,gpr2); break;
+//       }
     // Result
 …
     bool            f_out;
+    switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+      {
+      case 1 /*b01*/ : f_out = 1; break;
+      case 2 /*b10*/ : f_out = 0; break;
+      default        : f_out = signed(param->_size_data,gpr1) >  signed(param->_size_data,gpr2); break;
+      }
+    if (param->_size_data == 32)
+      f_out = static_cast<int32_t>(gpr1) >  static_cast<int32_t>(gpr2);
+    else
+      f_out = static_cast<int64_t>(gpr1) >  static_cast<int64_t>(gpr2);
+//     switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+//       {
+//       case 1 /*b01*/ : f_out = 1; break;
+//       case 2 /*b10*/ : f_out = 0; break;
+//       default        : f_out = signed(param->_size_data,gpr1) >  signed(param->_size_data,gpr2); break;
+//       }
     // Result
 …
     bool            f_out;
+    switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+      {
+      case 1 /*b01*/ : f_out = 0; break;
+      case 2 /*b10*/ : f_out = 1; break;
+      default        : f_out = signed(param->_size_data,gpr1) <= signed(param->_size_data,gpr2); break;
+      }
+    if (param->_size_data == 32)
+      f_out = static_cast<int32_t>(gpr1) <= static_cast<int32_t>(gpr2);
+    else
+      f_out = static_cast<int64_t>(gpr1) <= static_cast<int64_t>(gpr2);
+//     switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+//       {
+//       case 1 /*b01*/ : f_out = 0; break;
+//       case 2 /*b10*/ : f_out = 1; break;
+//       default        : f_out = signed(param->_size_data,gpr1) <= signed(param->_size_data,gpr2); break;
+//       }
     // Result
 …
     bool            f_out;
+    switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+      {
+      case 1 /*b01*/ : f_out = 0; break;
+      case 2 /*b10*/ : f_out = 1; break;
+      default        : f_out = signed(param->_size_data,gpr1) <  signed(param->_size_data,gpr2); break;
+      }
+    if (param->_size_data == 32)
+      f_out = static_cast<int32_t>(gpr1) <  static_cast<int32_t>(gpr2);
+    else
+      f_out = static_cast<int64_t>(gpr1) <  static_cast<int64_t>(gpr2);
+//     switch (concatenation_bool(sign(param->_size_data,gpr1),sign(param->_size_data,gpr2)))
+//       {
+//       case 1 /*b01*/ : f_out = 0; break;
+//       case 2 /*b10*/ : f_out = 1; break;
+//       default        : f_out = signed(param->_size_data,gpr1) <  signed(param->_size_data,gpr2); break;
+//       }
     // Result

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Functionnal_unit/SelfTest/src/test.cpp

-                      r100
+                      r101
 public : const Tcontext_t         _front_end_id ;
 public : const Tcontext_t         _ooo_engine_id;
 public : const Tpacket_t          _packet_id    ;
+public : const uint32_t           _packet_id    ;
 public : const Toperation_t       _operation    ;
 public : const Ttype_t            _type         ;
 …
                               Tcontext_t         front_end_id ,
                               Tcontext_t         ooo_engine_id,
                               Tpacket_t          packet_id    ,
+                              uint32_t           packet_id    ,
                               Toperation_t       operation    ,
                               Ttype_t            type         ,
 …
   transaction_in.push_back(execute_transaction(_param,0,0,0, 99,OPERATION_FIND_L_FL1     ,TYPE_FIND,0,0         ,0x80000000,0x0       ,0              ,1,63,32         ,0,15,FLAG_CY        ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,100,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12344321,0x1       ,0              ,1,63,0x12344320,1,15,0              ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,101,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12345678,0xffffffff,0              ,1,56,0x12345679,1,3 ,0              ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,102,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12345678,0x12345678,0              ,1,56,0x0       ,1,3 ,0              ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,103,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x0       ,0x0       ,0              ,1,56,0x0       ,1,3 ,0              ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,104,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x70000000,0x90000000,0              ,1,56,0x0       ,1,3 ,FLAG_CY        ,EXCEPTION_NONE     ,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,105,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x80001000,0x80000000,0              ,1,1 ,0x1000    ,1,0 ,FLAG_CY|FLAG_OV,EXCEPTION_ALU_RANGE,0));
 //   transaction_in.push_back(execute_transaction(_param,0,0,0,106,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x00000001,0x7fffffff,FLAG_CY|FLAG_OV,1,1 ,0x80000000,1,0 ,        FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,100,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12344321,0x1       ,0              ,1,63,0x12344320,1,15,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,101,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12345678,0xffffffff,0              ,1,56,0x12345679,1,3 ,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,102,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x12345678,0x12345678,0              ,1,56,0x0       ,1,3 ,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,103,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x0       ,0x0       ,0              ,1,56,0x0       ,1,3 ,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,104,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x70000000,0x90000000,0              ,1,56,0xe0000000,1,3 ,        FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,105,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x80001000,0x80000000,0              ,1,1 ,0x1000    ,1,0 ,        FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,106,OPERATION_ALU_L_SUB     ,TYPE_ALU,0,0         ,0x00000001,0x7fffffff,FLAG_CY|FLAG_OV,1,1 ,0x80000002,1,0 ,FLAG_CY        ,EXCEPTION_NONE     ,0));
   transaction_in.push_back(execute_transaction(_param,0,0,0,120,OPERATION_TEST_L_SFEQ    ,TYPE_TEST,0,0         ,0xdead    ,0xdead    ,0              ,0,63,0x0       ,1,15,FLAG_F         ,EXCEPTION_NONE     ,0)); // + == +
 …
   transaction_in.push_back(execute_transaction(_param,0,0,0,232,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0x21071981,0x25071959,0              ,0,63,0x0       ,1,15,0              ,EXCEPTION_NONE     ,0)); // + <  +
   transaction_in.push_back(execute_transaction(_param,0,0,0,233,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0xdeadbeef,0xdeadbeef,0              ,0,63,0x0       ,1,15,FLAG_F         ,EXCEPTION_NONE     ,0)); // - == -
   transaction_in.push_back(execute_transaction(_param,0,0,0,234,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0xdeadbabe,0xdeadbeef,0              ,0,63,0x0       ,1,15,FLAG_F         ,EXCEPTION_NONE     ,0)); // - >  -
+  transaction_in.push_back(execute_transaction(_param,0,0,0,234,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0xdeadbabe,0xdeadbeef,0              ,0,63,0x0       ,1,15,0              ,EXCEPTION_NONE     ,0)); // - >  -
   transaction_in.push_back(execute_transaction(_param,0,0,0,235,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0xdeadbeef,0xdeadbabe,0              ,0,63,0x0       ,1,15,0              ,EXCEPTION_NONE     ,0)); // - <  -
   transaction_in.push_back(execute_transaction(_param,0,0,0,236,OPERATION_TEST_L_SFGES   ,TYPE_TEST,0,0         ,0xdeadbeef,0x21524111,0              ,0,63,0x0       ,1,15,0              ,EXCEPTION_NONE     ,0)); // - == + (in unsigned)
 …
   transaction_in.push_back(execute_transaction(_param,0,0,0,628,OPERATION_SPECIAL_L_MFSPR   ,TYPE_SPECIAL,1,GROUP_CUSTOM_7<<11, 0,0x0       ,0              ,1,63,0xa       ,0, 0,0              ,EXCEPTION_ALU_NONE                   ,0,(GROUP_CUSTOM_7<<11)|0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,700,OPERATION_MUL_L_MUL     ,TYPE_MUL,0,0         ,0x00000001,0x00000001,0              ,1,63,0x00000001,1,15,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,701,OPERATION_MUL_L_MUL     ,TYPE_MUL,0,0         ,0x00002107,0x00001981,0              ,1,63,0x034a5387,1,15,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MUL     ,TYPE_MUL,0,0         ,0x00048698,0x0000dead,0              ,1,63,0xefc6c4b8,1,15,FLAG_CY|FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MUL     ,TYPE_MUL,0,0         ,0x40000000,0x00000002,0              ,1,63,0x80000000,1,15,        FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MUL     ,TYPE_MUL,0,0         ,0x40000000,0x00000004,0              ,1,63,0x00000000,1,15,FLAG_CY        ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,700,OPERATION_MUL_L_MULU    ,TYPE_MUL,0,0         ,0x00000001,0x00000001,0              ,1,63,0x00000001,1,15,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,701,OPERATION_MUL_L_MULU    ,TYPE_MUL,0,0         ,0x00002107,0x00001981,0              ,1,63,0x034a5387,1,15,0              ,EXCEPTION_NONE     ,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MULU    ,TYPE_MUL,0,0         ,0x00048698,0x0000dead,0              ,1,63,0xefc6c4b8,1,15,FLAG_CY|FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MULU    ,TYPE_MUL,0,0         ,0x40000000,0x00000002,0              ,1,63,0x80000000,1,15,        FLAG_OV,EXCEPTION_ALU_RANGE,0));
+  transaction_in.push_back(execute_transaction(_param,0,0,0,702,OPERATION_MUL_L_MULU    ,TYPE_MUL,0,0         ,0x40000000,0x00000004,0              ,1,63,0x00000000,1,15,FLAG_CY        ,EXCEPTION_NONE     ,0));
   LABEL("Reset");
   in_NRESET.write(0);
 …
       LABEL("Iteration %d",iteration);
       while (nb_transaction_out > 0)
+        {
+      {
           Tcontrol_t val = ((rand()%100) < percent_transaction_execute_in) and not transaction_in.empty();
           in_EXECUTE_IN_VAL .write(val);
 …
               in_EXECUTE_IN_OOO_ENGINE_ID .write(transaction_in.front()._ooo_engine_id);
               if (_param->_have_port_rob_ptr)
               in_EXECUTE_IN_PACKET_ID     .write(transaction_in.front()._packet_id    );
+              in_EXECUTE_IN_PACKET_ID     .write(static_cast<Tpacket_t>(transaction_in.front()._packet_id));
               in_EXECUTE_IN_OPERATION     .write(transaction_in.front()._operation    );
               in_EXECUTE_IN_TYPE          .write(transaction_in.front()._type         );
 …
               // TEST
               if (_param->_have_port_rob_ptr)
               TEST(Tpacket_t         , out_EXECUTE_OUT_PACKET_ID    .read(), transaction_out.front()._packet_id    );
+              TEST(Tpacket_t         , out_EXECUTE_OUT_PACKET_ID    .read(), static_cast<Tpacket_t>(transaction_out.front()._packet_id    ));
               if (_param->_have_port_context_id)
               TEST(Tcontext_t        , out_EXECUTE_OUT_CONTEXT_ID   .read(), transaction_out.front()._context_id   );
 …
                   TEST(Tgeneral_data_t   , out_EXECUTE_OUT_DATA_RD      .read(), transaction_out.front()._data_rd      );
                   TEST(Tgeneral_data_t   , out_EXECUTE_OUT_ADDRESS      .read(), transaction_out.front()._address      );
-                  break;
+                }
 …
                   TEST(Tgeneral_data_t   , out_EXECUTE_OUT_DATA_RD      .read(), transaction_out.front()._data_rd      );
                   TEST(Tgeneral_data_t   , out_EXECUTE_OUT_ADDRESS      .read(), transaction_out.front()._address      );
-                  break;
+                }
 …
           SC_START(1);
+        }
+      }
+    }
   /********************************************************
    * Simulation - End

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Functionnal_unit/src/Functionnal_unit_allocation.cpp

-                      r97
+                      r101
      if (_param->_timing[TYPE_ALU    ][OPERATION_ALU_L_ADDC        ]._latence > 0)
        _function_execute[TYPE_ALU    ][OPERATION_ALU_L_ADDC        ] = &(operation_l_addc    );
 //   if (_param->_timing[TYPE_ALU    ][OPERATION_ALU_L_SUB         ]._latence > 0)
 //     _function_execute[TYPE_ALU    ][OPERATION_ALU_L_SUB         ] = &(operation_l_sub     );
+     if (_param->_timing[TYPE_ALU    ][OPERATION_ALU_L_SUB         ]._latence > 0)
+       _function_execute[TYPE_ALU    ][OPERATION_ALU_L_SUB         ] = &(operation_l_sub     );
      if (_param->_timing[TYPE_ALU    ][OPERATION_ALU_L_AND         ]._latence > 0)
        _function_execute[TYPE_ALU    ][OPERATION_ALU_L_AND         ] = &(operation_l_and     );
 …
      if (_param->_timing[TYPE_TEST   ][OPERATION_TEST_L_SFNE       ]._latence > 0)
        _function_execute[TYPE_TEST   ][OPERATION_TEST_L_SFNE       ] = &(operation_l_sfne    );
 //   if (_param->_timing[TYPE_MUL    ][OPERATION_MUL_L_MUL         ]._latence > 0)
 //     _function_execute[TYPE_MUL    ][OPERATION_MUL_L_MUL         ] = &(operation_l_mul     );
 //   if (_param->_timing[TYPE_MUL    ][OPERATION_MUL_L_MULU        ]._latence > 0)
 //     _function_execute[TYPE_DIV    ][OPERATION_MUL_L_MULU        ] = &(operation_l_mulu    );
 //   if (_param->_timing[TYPE_DIV    ][OPERATION_DIV_L_DIV         ]._latence > 0)
 //     _function_execute[TYPE_DIV    ][OPERATION_DIV_L_DIV         ] = &(operation_l_div     );
 //   if (_param->_timing[TYPE_DIV    ][OPERATION_DIV_L_DIVU        ]._latence > 0)
 //     _function_execute[TYPE_DIV    ][OPERATION_DIV_L_DIVU        ] = &(operation_l_divu    );
+     if (_param->_timing[TYPE_MUL    ][OPERATION_MUL_L_MUL         ]._latence > 0)
+       _function_execute[TYPE_MUL    ][OPERATION_MUL_L_MUL         ] = &(operation_l_mul     );
+     if (_param->_timing[TYPE_MUL    ][OPERATION_MUL_L_MULU        ]._latence > 0)
+       _function_execute[TYPE_MUL    ][OPERATION_MUL_L_MULU        ] = &(operation_l_mulu    );
+     if (_param->_timing[TYPE_DIV    ][OPERATION_DIV_L_DIV         ]._latence > 0)
+       _function_execute[TYPE_DIV    ][OPERATION_DIV_L_DIV         ] = &(operation_l_div     );
+     if (_param->_timing[TYPE_DIV    ][OPERATION_DIV_L_DIVU        ]._latence > 0)
+       _function_execute[TYPE_DIV    ][OPERATION_DIV_L_DIVU        ] = &(operation_l_divu    );
      if (_param->_timing[TYPE_EXTEND ][OPERATION_EXTEND_L_EXTEND_S ]._latence > 0)
        _function_execute[TYPE_EXTEND ][OPERATION_EXTEND_L_EXTEND_S ] = &(operation_l_extend_s);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/SelfTest/include/Memory.h

-                      r88
+                      r101
     // Address's Read must be aligned
     if ((address & _mask_addr) != 0)
       TEST_KO("<Memory_t::read> Address is not aligned");
+//     if ((address & _mask_addr) != 0)
+//       TEST_KO("<Memory_t::read> Address is not aligned");
     if (context>_nb_context)

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/src/Load_store_unit_function_speculative_load_commit_genMealy_dcache.cpp

-                      r81
+                      r101
   void Load_store_unit::function_speculative_load_commit_genMealy_dcache (void)
+  {
     log_printf(FUNC,Load_store_unit,FUNCTION,"Begin");
     log_printf(FUNC,Load_store_unit,FUNCTION,"End");
+    log_begin(Load_store_unit,FUNCTION);
+    log_end  (Load_store_unit,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/src/Load_store_unit_function_speculative_load_commit_genMealy_insert.cpp

-                      r88
+                      r101
   void Load_store_unit::function_speculative_load_commit_genMealy_insert (void)
+  {
+    log_printf(FUNC,Load_store_unit,FUNCTION,"Begin");
+    log_begin(Load_store_unit,FUNCTION);
+    log_function(Load_store_unit,FUNCTION,_name.c_str());
     // ~~~~~[ Output "memory_in" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
       PORT_WRITE(out_MEMORY_IN_ACK [i], ack [i]);
     log_printf(FUNC,Load_store_unit,FUNCTION,"End");
+    log_end(Load_store_unit,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/src/Load_store_unit_function_speculative_load_commit_genMealy_retire.cpp

-                      r81
+                      r101
   void Load_store_unit::function_speculative_load_commit_genMealy_retire (void)
+  {
     log_printf(FUNC,Load_store_unit,FUNCTION,"Begin");
     log_printf(FUNC,Load_store_unit,FUNCTION,"End");
+    log_begin(Load_store_unit,FUNCTION);
+    log_end  (Load_store_unit,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/src/Load_store_unit_function_speculative_load_commit_genMoore.cpp

-                      r97
+                      r101
   void Load_store_unit::function_speculative_load_commit_genMoore (void)
+  {
+    log_printf(FUNC,Load_store_unit,FUNCTION,"Begin");
+    log_begin(Load_store_unit,FUNCTION);
+    log_function(Load_store_unit,FUNCTION,_name.c_str());
     // ~~~~~[ Interface "memory_out" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
     // Test store and load queue
     log_printf(TRACE,Load_store_unit,FUNCTION,"genMoore : Test MEMORY_OUT");
     log_printf(TRACE,Load_store_unit,FUNCTION,"  * Load  queue");
+    log_printf(TRACE,Load_store_unit,FUNCTION,"  * Test MEMORY_OUT");
+    log_printf(TRACE,Load_store_unit,FUNCTION,"    * Load  queue");
     for (internal_MEMORY_OUT_PTR=0; internal_MEMORY_OUT_PTR<_param->_size_load_queue; internal_MEMORY_OUT_PTR++)
 //     for (uin32_t i=0; (i<_param->_size_load_queue) and not (find_load); i++)
 …
                                                              _load_queue [internal_MEMORY_OUT_PTR]._is_load_signed,
                                                              _load_queue [internal_MEMORY_OUT_PTR]._access_size);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * data : %.8x",data_new);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * data (old) : %.8x",data_old);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * data (new) : %.8x",data_new);
             log_printf(TRACE,Load_store_unit,FUNCTION,"      * rdata        : %.8x",_load_queue [internal_MEMORY_OUT_PTR]._rdata);
             log_printf(TRACE,Load_store_unit,FUNCTION,"      * shift        : %d",_load_queue [internal_MEMORY_OUT_PTR]._shift);
 …
     if (not internal_MEMORY_OUT_VAL)
+      {
         log_printf(TRACE,Load_store_unit,FUNCTION,"  * Store queue");
+        log_printf(TRACE,Load_store_unit,FUNCTION,"    * Store queue");
         if (_store_queue [reg_STORE_QUEUE_PTR_READ]._state == STORE_QUEUE_COMMIT)
+          {
 …
     Tdcache_data_t    dcache_req_wdata     ;
     log_printf(TRACE,Load_store_unit,FUNCTION,"genMoore : Test DCACHE_REQ");
+    log_printf(TRACE,Load_store_unit,FUNCTION,"  * Test DCACHE_REQ");
     internal_DCACHE_REQ_VAL = 0;
 …
     if (_speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._state == SPECULATIVE_ACCESS_QUEUE_WAIT_CACHE)
+      {
         log_printf(TRACE,Load_store_unit,FUNCTION," * speculative_access_queue[%d]",internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ);
+        log_printf(TRACE,Load_store_unit,FUNCTION,"    * speculative_access_queue [%d]",internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ);
         internal_DCACHE_REQ_VAL          = 1;
 …
         dcache_req_packet_id  = DCACHE_REQ_IS_LOAD(_speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._load_queue_ptr_write);
         dcache_req_address    = _speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._address & _param->_mask_address_msb;
+        dcache_req_address    = _speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._address;// & _param->_mask_address_msb;
         dcache_req_type       = operation_to_dcache_type(_speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._operation);
+//      log_printf(TRACE,Load_store_unit,FUNCTION,"      * address            : %.8x",_speculative_access_queue [internal_SPECULATIVE_ACCESS_QUEUE_PTR_READ]._address);
+//      log_printf(TRACE,Load_store_unit,FUNCTION,"      * mask               : %.8x",_param->_mask_address_msb);
+        log_printf(TRACE,Load_store_unit,FUNCTION,"      * dcache_req_address : %.8x",dcache_req_address);
 #ifdef SYSTEMC_VHDL_COMPATIBILITY
         dcache_req_wdata      = 0;
 …
     PORT_WRITE(out_DCACHE_REQ_WDATA     [0], dcache_req_wdata     );
     log_printf(FUNC,Load_store_unit,FUNCTION,"End");
+    log_end(Load_store_unit,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Execute_unit/Execute_unit/Load_store_unit/src/Load_store_unit_function_speculative_load_commit_transition.cpp

-                      r97
+                      r101
             (    internal_MEMORY_IN_ACK  == 1))
+          {
+            log_printf(TRACE,Load_store_unit,FUNCTION,"  * MEMORY_IN [%d]",internal_MEMORY_IN_PORT);
             // Test operation :
             //~~~~~~~~~~~~~~~~~
 …
             (PORT_READ(in_MEMORY_OUT_ACK[0]) == 1))
+          {
             log_printf(TRACE,Load_store_unit,FUNCTION,"  * MEMORY_OUT transaction");
+            log_printf(TRACE,Load_store_unit,FUNCTION,"  * MEMORY_OUT[0] transaction");
             switch (internal_MEMORY_OUT_SELECT_QUEUE)
 …
             (PORT_READ(in_DCACHE_REQ_ACK[0]) == 1))
+          {
             log_printf(TRACE,Load_store_unit,FUNCTION,"  * DCACHE_REQ");
+            log_printf(TRACE,Load_store_unit,FUNCTION,"  * DCACHE_REQ[0]");
             switch (internal_DCACHE_REQ_SELECT_QUEUE)
 …
             (    internal_DCACHE_RSP_ACK == 1))
+          {
             log_printf(TRACE,Load_store_unit,FUNCTION,"  * DCACHE_RSP");
+            log_printf(TRACE,Load_store_unit,FUNCTION,"  * DCACHE_RSP [0]");
             // don't use context_id : because there are one queue for all thread
 …
             Tdcache_error_t error      = PORT_READ(in_DCACHE_RSP_ERROR     [0]);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * original packet_id : %d", packet_id);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * original packet_id : %d"  , packet_id);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * rdata              : %.8x", rdata);
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    * error              : %d"  , error);
             if (DCACHE_RSP_IS_LOAD(packet_id) == 1)
 …
                   throw ErrorMorpheo(_("Receive of respons, but the corresponding operation don't wait a respons."));
 #endif
+                _load_queue [packet_id]._rdata = rdata;
                 if (error != DCACHE_ERROR_NONE)
 …
                     // FIXME : convention : if bus error, the cache return the fautive address !
                     // But, the load's address is aligned !
+                    _load_queue [packet_id]._rdata = rdata;
                     switch (_load_queue [packet_id]._state)
+                      {
 …
             uint32_t j = (*_speculative_access_queue_control)[i];
             log_printf(TRACE,Load_store_unit,FUNCTION,"    [%.4d] %.4d %.4d %.4d, %.4d, %.4d, %.4d %.4d, %.8x, %.1d %.6d, %.2d, %s",
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    [%.4d] %.4d %.4d %.4d, %.4d, %.4d, %.4d %.4d, %.8x, %.1d %.4d, %.2d, %s",
                        j,
                        _speculative_access_queue[j]._context_id          ,
 …
             uint32_t j = i;
             log_printf(TRACE,Load_store_unit,FUNCTION,"    [%.4d] %.4d %.4d %.4d, %.4d, %.4d, %.4d, %.8x %.1x %.1d %.2d %.1d %.2d, %.8x, %.1d %.6d, %.2d, %s",
+            log_printf(TRACE,Load_store_unit,FUNCTION,"    [%.4d] %.4d %.4d %.4d, %.4d, %.4d, %.4d, %.8x %.1x %.1d %.2d %.1d %.2d, %.8x, %.1d %.4d, %.2d, %s",
                        j,
                        _load_queue[j]._context_id          ,

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Read_unit/Read_unit/Read_queue/src/Read_queue_vhdl.cpp

-                      r100
+                      r101
       (_param->_size_queue,
        _param->_size_internal_queue,
+,
+       false,
+       false
        );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/include/Execute_queue.h

-                      r97
+                      r101
 #include <iostream>
 #include <queue>
+#include <list>
 #include "Common/include/ToString.h"
 #include "Common/include/Debug.h"
 …
     // ~~~~~[ Register ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   private   : std::queue<execute_queue_entry_t *> * _queue;
+  private   : std::list<execute_queue_entry_t *> * _queue;
     // ~~~~~[ Internal ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   private   : Tcontrol_t                       internal_EXECUTE_QUEUE_IN_ACK ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/src/Execute_queue_allocation.cpp

r97	r101
96	96	// ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
97	97
98		_queue = new std::~~queue~~<execute_queue_entry_t *>;
	98	_queue = new std::list<execute_queue_entry_t *>;
99	99
100	100	#ifdef POSITION

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/src/Execute_queue_deallocation.cpp

r88	r101
72	72	{
73	73	delete _queue->front();
74		_queue->pop();
	74	_queue->pop_front();
75	75	}
76	76	delete _queue;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/src/Execute_queue_genMoore.cpp

-                      r96
+                      r101
   void Execute_queue::genMoore (void)
+  {
+    log_printf(FUNC,Execute_queue,FUNCTION,"Begin");
+    log_begin(Execute_queue,FUNCTION);
+    log_function(Execute_queue,FUNCTION,_name.c_str());
     // -----[ Interface "execute_queue_in" ]--------------------------------
 …
+    }
     log_printf(FUNC,Execute_queue,FUNCTION,"End");
+    log_end(Execute_queue,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/src/Execute_queue_transition.cpp

-                      r96
+                      r101
   void Execute_queue::transition (void)
+  {
+    log_printf(FUNC,Execute_queue,FUNCTION,"Begin");
+    log_begin(Execute_queue,FUNCTION);
+    log_function(Execute_queue,FUNCTION,_name.c_str());
     if (PORT_READ(in_NRESET) == 0)
 …
         // > 2) flush all slot in one cycle
+        while (_queue->empty() == false)
+          _queue->pop();
+        _queue->clear();
+      }
     else
 …
                PORT_READ(in_EXECUTE_QUEUE_IN_DATA         ));
             _queue->push(entry);
+            _queue->push_back(entry);
+          }
 …
+          {
             delete _queue->front();
             _queue->pop();
+            _queue->pop_front();
+          }
+      }
 …
 #endif
+#if DEBUG_Execute_queue and (DEBUG >= DEBUG_TRACE)
+    log_printf(TRACE,Execute_queue,FUNCTION,"  * Dump Execute_queue");
+    {
+      uint32_t i=0;
+      for (std::list<execute_queue_entry_t *>::iterator it=_queue->begin();
+           it!=_queue->end();
+           ++it)
+        {
+          log_printf(TRACE,Execute_queue,FUNCTION,"  [%d] %.2d %.2d %.2d, %.4d, %.1d, %.2d %.1d, %.8x %.8x",
+                     i,
+                     (*it)->_context_id   ,
+                     (*it)->_front_end_id ,
+                     (*it)->_ooo_engine_id,
+                     (*it)->_packet_id    ,
+                   //(*it)->_operation    ,
+                   //(*it)->_type         ,
+                     (*it)->_flags        ,
+                     (*it)->_exception    ,
+                     (*it)->_no_sequence  ,
+                     (*it)->_address      ,
+                     (*it)->_data
+                     );
+          i++;
+        }
+    }
+#endif
 #if defined(STATISTICS) or defined(VHDL_TESTBENCH)
 …
 #endif
     log_printf(FUNC,Execute_queue,FUNCTION,"End");
+    log_end(Execute_queue,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Execute_queue/src/Execute_queue_vhdl.cpp

-                      r100
+                      r101
       (_param->_size_queue,
        _param->_size_internal_queue,
+,
+       false,
+       false
        );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Write_queue/src/Write_queue_genMoore.cpp

r88	r101
23	23	void Write_queue::genMoore (void)
24	24	{
25		log_printf(FUNC,Write_queue,FUNCTION,"Begin");
	25	log_begin(Write_queue,FUNCTION);
	26	log_function(Write_queue,FUNCTION,_name.c_str());
26	27
27	28	// -----[ Interface "Write_queue_in" ]--------------------------------
…	…
109	110	}
110	111	}
111		log_~~printf(FUNC,Write_queue,FUNCTION,"End"~~);
	112	log_end(Write_queue,FUNCTION);
112	113	};
113	114

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Write_unit/Write_unit/Write_queue/src/Write_queue_transition.cpp

-                      r97
+                      r101
   void Write_queue::transition (void)
+  {
+    log_printf(FUNC,Write_queue,FUNCTION,"Begin");
+    log_begin(Write_queue,FUNCTION);
+    log_function(Write_queue,FUNCTION,_name.c_str());
     if (PORT_READ(in_NRESET) == 0)
 …
 #endif
+#if DEBUG_Write_queue and (DEBUG >= DEBUG_TRACE)
+    log_printf(TRACE,Write_queue,FUNCTION,"  * Dump Write_queue");
+    {
+      uint32_t i=0;
+      for (std::list<write_queue_entry_t *>::iterator it=_queue->begin();
+           it!=_queue->end();
+           ++it)
+        {
+          log_printf(TRACE,Write_queue,FUNCTION,"  [%d] %.2d %.2d %.2d, %.4d, %.1d %.4d %.8x, %.1d %.4d %.1d, %.2d %.1d, %.8x",
+                     i,
+                     (*it)->_context_id   ,
+                     (*it)->_front_end_id ,
+                     (*it)->_ooo_engine_id,
+                     (*it)->_packet_id    ,
+                   //(*it)->_operation    ,
+                   //(*it)->_type         ,
+                     (*it)->_write_rd     ,
+                     (*it)->_num_reg_rd   ,
+                     (*it)->_data_rd      ,
+                     (*it)->_write_re     ,
+                     (*it)->_num_reg_re   ,
+                     (*it)->_data_re      ,
+                     (*it)->_exception    ,
+                     (*it)->_no_sequence  ,
+                     (*it)->_address      );
+          i++;
+        }
+    }
+#endif
 #if defined(STATISTICS) or defined(VHDL_TESTBENCH)
     end_cycle ();
 #endif
     log_printf(FUNC,Write_queue,FUNCTION,"End");
+    log_end(Write_queue,FUNCTION);
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Execute_loop/Execute_loop/Register_unit/src/Parameters.cpp

-                      r88
+                      r101
 ,
            nb_general_register[i],
+);
+,
+           "1");
         __param_spr        [i] = new morpheo::behavioural::generic::registerfile::registerfile_multi_banked::Parameters
 …
 ,
            nb_special_register[i],
+);
+,
+           "1");
         _param_gpr        [i] = new morpheo::behavioural::generic::registerfile::Parameters (__param_gpr        [i]);

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

-                      r98
+                      r101
   // Initialisation
+  const bool test1  = true;
+  const bool test2  = true;
+  const bool test3  = true;
+  const bool test4  = true;
+  const bool test5  = true;
+  const bool test6  = true;
+  const bool test7  = true;
+  const bool test8  = true;
+  const bool test9  = true;
+  const bool test10 = true;
+  const bool test11 = true;
+  const bool test12 = true;
   const uint32_t seed = 0;
 //const uint32_t seed = static_cast<uint32_t>(time(NULL));
 …
       uint32_t context    = rand()%_param->_nb_context;
       if (1)
+      if (test1)
+        {
           SC_START(3);
 …
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          do
+            {
+              in_DECOD_EVENT_VAL [port]->write(rand()%percent_transaction_decod_event);
+              SC_START(1);
+            }
+          while (not ( in_DECOD_EVENT_VAL [port]->read() and
+                       out_DECOD_EVENT_ACK [port]->read()));
+          in_DECOD_EVENT_VAL [port]->write(0);
+          in_DECOD_EVENT_VAL           [port]->write(1);
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 0);
+          SC_START(1);
+          in_NB_INST_DECOD_ALL  [context]->write(0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
+          in_NB_INST_COMMIT_MEM [context]->write(0);
+          LABEL("msync (send decod)");
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 1);
+          SC_START(1);
+          in_DECOD_EVENT_VAL     [port]->write(0);
+          in_NB_INST_COMMIT_ALL  [context]->write(1);
           LABEL("msync (wait end)");
 …
           SC_START(3);
+          in_NB_INST_DECOD_ALL  [context]->write(0);
+          in_NB_INST_COMMIT_ALL [context]->write(1);
+          in_NB_INST_COMMIT_MEM [context]->write(0);
+          SC_START(1);
+          LABEL("msync (send decod)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          SC_START(3);
+          in_NB_INST_DECOD_ALL  [context]->write(1);
+          SC_START(1);
+          LABEL("msync (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          in_NB_INST_DECOD_ALL  [context]->write(0);
+          in_NB_INST_COMMIT_MEM [context]->write(1);
+          SC_START(3);
+          in_NB_INST_COMMIT_MEM [context]->write(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
           SC_START(1);
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+        }
       if (1)
+      if (test2)
+        {
           SC_START(3);
           LABEL("psync (begin)");
-          in_NB_INST_DECOD_ALL  [context]->write(1);
-          in_NB_INST_COMMIT_ALL [context]->write(1);
-          in_NB_INST_COMMIT_MEM [context]->write(1);
-          uint32_t port = rand()%_param->_nb_decod_unit;
-          in_DECOD_EVENT_CONTEXT_ID    [port]->write(context);
-          in_DECOD_EVENT_IS_DELAY_SLOT [port]->write(0);
-          in_DECOD_EVENT_ADDRESS       [port]->write(0x200);
-          in_DECOD_EVENT_ADDRESS_EPCR  [port]->write(0xdeadbebe);
-          if (_param->_have_port_depth)
-          in_DECOD_EVENT_DEPTH         [port]->write((_param->_array_size_depth[context]==0)?0:((context+1)%_param->_array_size_depth[context]));
-          in_DECOD_EVENT_TYPE          [port]->write(EVENT_TYPE_PSYNC);
-          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
-          do
+            {
-              in_DECOD_EVENT_VAL [port]->write(rand()%percent_transaction_decod_event);
-              SC_START(1);
+            }
-          while (not ( in_DECOD_EVENT_VAL [port]->read() and
-                       out_DECOD_EVENT_ACK [port]->read()));
-          in_DECOD_EVENT_VAL [port]->write(0);
-          LABEL("psync (wait end)");
-          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
-          SC_START(3);
-          in_NB_INST_DECOD_ALL  [context]->write(0);
-          in_NB_INST_COMMIT_ALL [context]->write(0);
-          in_NB_INST_COMMIT_MEM [context]->write(0);
-          SC_START(1);
-          bool find = false;
-          do
+            {
-              in_EVENT_ACK [context]->write(rand()%percent_transaction_event);
-              SC_START(0);
-              if (out_EVENT_VAL [context]->read() and in_EVENT_ACK [context]->read())
+                {
-                  TEST(Taddress_t,out_EVENT_ADDRESS          [context]->read(),0x201);
-                  TEST(Taddress_t,out_EVENT_ADDRESS_NEXT     [context]->read(),0xdeadbebe);
-                  TEST(Tcontrol_t,out_EVENT_ADDRESS_NEXT_VAL [context]->read(),0);
-                  TEST(Tcontrol_t,out_EVENT_IS_DS_TAKE       [context]->read(),0);
-                  find = true;
+                }
-              SC_START(1);
+            }
-          while (not find);
-          in_EVENT_ACK [context]->write(0);
-          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+        }
-      if (1)
+        {
-          SC_START(3);
-          LABEL("csync (begin)");
           in_NB_INST_DECOD_ALL  [context]->write(1);
           in_NB_INST_COMMIT_ALL [context]->write(1);
 …
           if (_param->_have_port_depth)
           in_DECOD_EVENT_DEPTH         [port]->write((_param->_array_size_depth[context]==0)?0:((context+1)%_param->_array_size_depth[context]));
+          in_DECOD_EVENT_TYPE          [port]->write(EVENT_TYPE_CSYNC);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          do
+            {
+              in_DECOD_EVENT_VAL [port]->write(rand()%percent_transaction_decod_event);
+              SC_START(1);
+            }
+          while (not ( in_DECOD_EVENT_VAL [port]->read() and
+                       out_DECOD_EVENT_ACK [port]->read()));
+          in_DECOD_EVENT_VAL [port]->write(0);
+          LABEL("csync (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          SC_START(3);
+          in_DECOD_EVENT_TYPE          [port]->write(EVENT_TYPE_PSYNC);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          in_DECOD_EVENT_VAL           [port]->write(1);
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 0);
+          SC_START(1);
           in_NB_INST_DECOD_ALL  [context]->write(0);
           in_NB_INST_COMMIT_ALL [context]->write(0);
           in_NB_INST_COMMIT_MEM [context]->write(0);
+          LABEL("psync (send decod)");
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 1);
+          SC_START(1);
+          in_DECOD_EVENT_VAL     [port]->write(0);
+          in_NB_INST_COMMIT_ALL  [context]->write(1);
+          LABEL("psync (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          SC_START(3);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
           SC_START(1);
 …
                   TEST(Tcontrol_t,out_EVENT_ADDRESS_NEXT_VAL [context]->read(),0);
                   TEST(Tcontrol_t,out_EVENT_IS_DS_TAKE       [context]->read(),0);
+                  find = true;
+                }
+              SC_START(1);
+            }
+          while (not find);
+                  find = true;
+                }
+              SC_START(1);
+            }
+          while (not find);
           in_EVENT_ACK [context]->write(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+        }
       if (1)
+      if (test3)
+        {
           SC_START(3);
           LABEL("spr (begin)");
+          LABEL("csync (begin)");
           in_NB_INST_DECOD_ALL  [context]->write(1);
           in_NB_INST_COMMIT_ALL [context]->write(1);
 …
           in_DECOD_EVENT_CONTEXT_ID    [port]->write(context);
           in_DECOD_EVENT_IS_DELAY_SLOT [port]->write(0);
+          in_DECOD_EVENT_ADDRESS       [port]->write(0x100);
+          in_DECOD_EVENT_ADDRESS_EPCR  [port]->write(0xdeadbeef);
+          in_DECOD_EVENT_ADDRESS       [port]->write(0x300);
+          in_DECOD_EVENT_ADDRESS_EPCR  [port]->write(0xdead0300);
+          if (_param->_have_port_depth)
+          in_DECOD_EVENT_DEPTH         [port]->write((_param->_array_size_depth[context]==0)?0:((context+1)%_param->_array_size_depth[context]));
+          in_DECOD_EVENT_TYPE          [port]->write(EVENT_TYPE_CSYNC);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          in_DECOD_EVENT_VAL           [port]->write(1);
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 0);
+          SC_START(1);
+          in_NB_INST_DECOD_ALL  [context]->write(0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
+          in_NB_INST_COMMIT_MEM [context]->write(0);
+          LABEL("csync (send decod)");
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 1);
+          SC_START(1);
+          in_DECOD_EVENT_VAL     [port]->write(0);
+          in_NB_INST_COMMIT_ALL  [context]->write(1);
+          LABEL("csync (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          SC_START(3);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
+          SC_START(1);
+          bool find = false;
+          do
+            {
+              in_EVENT_ACK [context]->write(rand()%percent_transaction_event);
+              SC_START(0);
+              if (out_EVENT_VAL [context]->read() and in_EVENT_ACK [context]->read())
+                {
+                  TEST(Taddress_t,out_EVENT_ADDRESS          [context]->read(),0x301);
+                  TEST(Taddress_t,out_EVENT_ADDRESS_NEXT     [context]->read(),0xdead0300);
+                  TEST(Tcontrol_t,out_EVENT_ADDRESS_NEXT_VAL [context]->read(),0);
+                  TEST(Tcontrol_t,out_EVENT_IS_DS_TAKE       [context]->read(),0);
+                  find = true;
+                }
+              SC_START(1);
+            }
+          while (not find);
+          in_EVENT_ACK [context]->write(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+        }
+      if (test4)
+        {
+          SC_START(3);
+          LABEL("spr_access (begin)");
+          in_NB_INST_DECOD_ALL  [context]->write(1);
+          in_NB_INST_COMMIT_ALL [context]->write(1);
+          in_NB_INST_COMMIT_MEM [context]->write(1);
+          uint32_t port = rand()%_param->_nb_decod_unit;
+          in_DECOD_EVENT_CONTEXT_ID    [port]->write(context);
+          in_DECOD_EVENT_IS_DELAY_SLOT [port]->write(0);
+          in_DECOD_EVENT_ADDRESS       [port]->write(0x400);
+          in_DECOD_EVENT_ADDRESS_EPCR  [port]->write(0xdead0400);
           if (_param->_have_port_depth)
           in_DECOD_EVENT_DEPTH         [port]->write((_param->_array_size_depth[context]==0)?0:((context+1)%_param->_array_size_depth[context]));
 …
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          do
+            {
+              in_DECOD_EVENT_VAL [port]->write(rand()%percent_transaction_decod_event);
+              SC_START(1);
+            }
+          while (not ( in_DECOD_EVENT_VAL [port]->read() and
+                       out_DECOD_EVENT_ACK [port]->read()));
+          in_DECOD_EVENT_VAL [port]->write(0);
+          LABEL("spr (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          SC_START(3);
+          in_DECOD_EVENT_VAL           [port]->write(1);
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 0);
+          SC_START(1);
           in_NB_INST_DECOD_ALL  [context]->write(0);
           in_NB_INST_COMMIT_ALL [context]->write(0);
           in_NB_INST_COMMIT_MEM [context]->write(0);
           SC_START(1);
           LABEL("spr (send decod)");
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
           SC_START(3);
           in_NB_INST_DECOD_ALL  [context]->write(1);
           SC_START(1);
           LABEL("spr (wait end)");
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
           in_NB_INST_DECOD_ALL  [context]->write(0);
           in_NB_INST_COMMIT_ALL [context]->write(1);
           SC_START(3);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
+          LABEL("spr_access (send decod)");
+          SC_START(0);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+          TEST(Tcontrol_t, out_DECOD_EVENT_ACK     [port]   ->read(), 1);
+          SC_START(1);
+          in_DECOD_EVENT_VAL     [port]->write(0);
+          in_NB_INST_COMMIT_ALL  [context]->write(1);
+          LABEL("spr_access (wait end)");
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          SC_START(3);
+          TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 0);
+          in_NB_INST_COMMIT_ALL [context]->write(0);
           SC_START(1);
           TEST(Tcontrol_t, out_CONTEXT_DECOD_ENABLE[context]->read(), 1);
+        }
       if (1)
+      if (test5)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test6)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test7)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test8)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test9)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test10)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test11)
+        {
           SC_START(3);
 …
+        }
       if (1)
+      if (test12)
+        {
           SC_START(3);

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

r98	r101
197	197	public : void transition (void);
198	198	public : void genMoore (void);
	199	public : void genMealy_decod_event (void);
199	200	#endif
200	201

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

-                      r83
+                      r101
       CONTEXT_STATE_KO_EXCEP_ADDR   , // update address manager
       CONTEXT_STATE_KO_EXCEP_SPR    , // update spr (epc, esr, sr[DSX])
-      CONTEXT_STATE_KO_MISS         , // wait end of event (miss (branch, load))
       CONTEXT_STATE_KO_MISS_ADDR    , // update address manager
+      CONTEXT_STATE_KO_MSYNC        , // wait completion of all memory operation
+      CONTEXT_STATE_KO_MSYNC_ISSUE  , // issue msync operation
+      CONTEXT_STATE_KO_MISS_WAITEND , // wait end of event (miss (branch, load))
+//    CONTEXT_STATE_KO_MSYNC        , // wait completion of all memory operation
+//    CONTEXT_STATE_KO_MSYNC_ISSUE  , // issue msync operation
       CONTEXT_STATE_KO_MSYNC_EXEC   , // wait completion of     msync  operation
       CONTEXT_STATE_KO_PSYNC        , // wait completion of all        operation and after flush pipeline
+//    CONTEXT_STATE_KO_PSYNC        , // wait completion of all        operation and after flush pipeline
       CONTEXT_STATE_KO_PSYNC_FLUSH  , // wait completion of all
       CONTEXT_STATE_KO_PSYNC_ADDR   , // wait completion of all
       CONTEXT_STATE_KO_CSYNC        , // wait completion of all        operation and after flush pipeline and flush ALL units (MMU, cache ...)
+//    CONTEXT_STATE_KO_CSYNC        , // wait completion of all        operation and after flush pipeline and flush ALL units (MMU, cache ...)
       CONTEXT_STATE_KO_CSYNC_FLUSH  ,
       CONTEXT_STATE_KO_CSYNC_ADDR   ,
       CONTEXT_STATE_KO_SPR          , // wait completion of all        operation
       CONTEXT_STATE_KO_SPR_ISSUE    , // issue spr's access
+//    CONTEXT_STATE_KO_SPR          , // wait completion of all        operation
+//    CONTEXT_STATE_KO_SPR_ISSUE    , // issue spr's access
       CONTEXT_STATE_KO_SPR_EXEC       // wait completion of all        operation (spr access)
     } context_state_t;
 …
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_EXCEP_ADDR   : return "context_state_ko_excep_addr"  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_EXCEP_SPR    : return "context_state_ko_excep_spr"   ; break;
-      case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MISS         : return "context_state_ko_miss"        ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MISS_ADDR    : return "context_state_ko_miss_addr"   ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MSYNC        : return "context_state_ko_msync"       ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MSYNC_ISSUE  : return "context_state_ko_msync_issue" ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MISS_WAITEND : return "context_state_ko_miss_waitend"; break;
+//       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MSYNC        : return "context_state_ko_msync"       ; break;
+//    case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MSYNC_ISSUE  : return "context_state_ko_msync_issue" ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_MSYNC_EXEC   : return "context_state_ko_msync_exec"  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_PSYNC        : return "context_state_ko_psync"       ; break;
+//    case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_PSYNC        : return "context_state_ko_psync"       ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_PSYNC_FLUSH  : return "context_state_ko_psync_flush" ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_PSYNC_ADDR   : return "context_state_ko_psync_addr"  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_CSYNC        : return "context_state_ko_csync"       ; break;
+//    case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_CSYNC        : return "context_state_ko_csync"       ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_CSYNC_FLUSH  : return "context_state_ko_csync_flush" ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_CSYNC_ADDR   : return "context_state_ko_csync_addr"  ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_SPR          : return "context_state_ko_spr"         ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_SPR_ISSUE    : return "context_state_ko_spr_issue"   ; break;
+//    case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_SPR          : return "context_state_ko_spr"         ; break;
+//    case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_SPR_ISSUE    : return "context_state_ko_spr_issue"   ; break;
       case morpheo::behavioural::core::multi_front_end::front_end::context_state::CONTEXT_STATE_KO_SPR_EXEC     : return "context_state_ko_spr_exec"    ; break;
       default    : return ""      ; break;

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

-                      r88
+                      r101
+          }
         for (uint32_t i=0; i<_param->_nb_decod_unit; i++)
+          {
             internal_DECOD_EVENT_ACK [i] = 1;
             PORT_WRITE(out_DECOD_EVENT_ACK [i], internal_DECOD_EVENT_ACK [i]);
+          }
+//      for (uint32_t i=0; i<_param->_nb_decod_unit; i++)
+//        {
+//          internal_DECOD_EVENT_ACK [i] = 1;
+//          PORT_WRITE(out_DECOD_EVENT_ACK [i], internal_DECOD_EVENT_ACK [i]);
+//        }
         internal_COMMIT_EVENT_ACK = 1;
 …
         dont_initialize ();
         sensitive << (*(in_CLOCK)).neg(); // use internal register
+# ifdef SYSTEMCASS_SPECIFIC
+        // List dependency information
+# endif
+        log_printf(INFO,Context_State,FUNCTION,_("Method - genMealy_decod_event"));
+        SC_METHOD (genMealy_decod_event);
+        dont_initialize ();
+        sensitive << (*(in_CLOCK)).neg(); // use internal register
+        for (uint32_t i=0; i<_param->_nb_decod_unit; ++i)
+          {
+            sensitive << (*(in_DECOD_EVENT_VAL        [i])) // not necessary
+                      << (*(in_DECOD_EVENT_TYPE       [i]));
+            if (_param->_have_port_context_id)
+            sensitive << (*(in_DECOD_EVENT_CONTEXT_ID [i]));
+          }
+        for (uint32_t i=0; i<_param->_nb_context; ++i)
+          {
+            sensitive << (*(in_NB_INST_DECOD_ALL      [i]))
+                      << (*(in_NB_INST_COMMIT_ALL     [i]))
+                      << (*(in_NB_INST_COMMIT_MEM     [i]));
+          }
 # ifdef SYSTEMCASS_SPECIFIC

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

-                      r97
+                      r101
         context_state_t state = reg_STATE [i];
+        PORT_WRITE(out_CONTEXT_DECOD_ENABLE [i], ((state==CONTEXT_STATE_OK            ) or
+                                                  (state==CONTEXT_STATE_KO_MSYNC_ISSUE) or
+                                                  (state==CONTEXT_STATE_KO_SPR_ISSUE  )));
+//      PORT_WRITE(out_CONTEXT_DECOD_ENABLE [i], ((state==CONTEXT_STATE_OK            ) or
+//                                                (state==CONTEXT_STATE_KO_MSYNC_ISSUE) or
+//                                                (state==CONTEXT_STATE_KO_SPR_ISSUE  )));
+        PORT_WRITE(out_CONTEXT_DECOD_ENABLE [i], (state==CONTEXT_STATE_OK));
+      }

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

-                      r98
+                      r101
+      {
         // -------------------------------------------------------------------
+        // -----[ next state ]------------------------------------------------
+        // -------------------------------------------------------------------
+        for (uint32_t i=0; i<_param->_nb_context; i++)
+          {
+//             uint32_t x = _param->_link_context_to_decod_unit    [i];
+            Tcounter_t inst_all = PORT_READ(in_NB_INST_COMMIT_ALL[i]) + PORT_READ(in_NB_INST_DECOD_ALL [i]);
+//          Tcounter_t inst_mem = PORT_READ(in_NB_INST_COMMIT_MEM[i]) + PORT_READ(in_NB_INST_DECOD_ALL [i]);
+            context_state_t state = reg_STATE [i];
+            switch (state)
+              {
+              case CONTEXT_STATE_OK              :
+                {
+                  // nothing, wait an event
+                  break;
+                }
+              case CONTEXT_STATE_KO_EXCEP        :
+                {
+                  // Wait end of all instruction
+                  if (inst_all == 0)
+                    state = CONTEXT_STATE_KO_EXCEP_ADDR;
+                  break;
+                }
+              case CONTEXT_STATE_KO_EXCEP_ADDR   :
+                {
+                  // nothing, wait the update of internal register (pc)
+                  break;
+                }
+              case CONTEXT_STATE_KO_MISS_WAITEND :
+                {
+                  // Wait end of all instruction
+                  if (inst_all == 0)
+//                  state = CONTEXT_STATE_OK; // @@@ TODO : make MISS fast (miss decod)
+                    state = CONTEXT_STATE_KO_MISS_ADDR;
+                  break;
+                }
+              case CONTEXT_STATE_KO_EXCEP_SPR    :
+                {
+                  // nothing, wait the update of internal register (epcr, eear, sr, esr)
+                  break;
+                }
+              case CONTEXT_STATE_KO_MISS_ADDR    :
+                {
+                  // nothing, wait the update of internal register (pc)
+                  break;
+                }
+//               case CONTEXT_STATE_KO_PSYNC        :
+//                 {
+//                   // Wait end of all instruction
+//                   if (inst_all == 0)
+//                     state = CONTEXT_STATE_KO_PSYNC_FLUSH;
+//                   break;
+//                 }
+              case CONTEXT_STATE_KO_PSYNC_FLUSH  :
+                {
+                  // nothing, wait end of flush (ifetch)
+                  if (inst_all == 0)
+//                  state = CONTEXT_STATE_KO_PSYNC_ADDR;
+                    state = CONTEXT_STATE_OK;
+                  break;
+                }
+              case CONTEXT_STATE_KO_PSYNC_ADDR   :
+                {
+                  // nothing, wait the pc write
+                  break;
+                }
+//               case CONTEXT_STATE_KO_CSYNC        :
+//                 {
+//                   // Wait end of all instruction
+//                   if (inst_all == 0)
+//                     state = CONTEXT_STATE_KO_CSYNC_FLUSH;
+//                   break;
+//                 }
+              case CONTEXT_STATE_KO_CSYNC_FLUSH  :
+                {
+                  // nothing, wait end of flush (all internal structure)
+                  if (inst_all == 0)
+                    state = CONTEXT_STATE_KO_CSYNC_ADDR;
+                  break;
+                }
+              case CONTEXT_STATE_KO_CSYNC_ADDR   :
+                {
+                  // nothing, wait the pc write
+                  break;
+                }
+//               case CONTEXT_STATE_KO_MSYNC        :
+//                 {
+//                   // Wait end of memory instruction
+//                   if (inst_mem == 0)
+//                     state = CONTEXT_STATE_KO_MSYNC_ISSUE;
+//                   break;
+//                 }
+//               case CONTEXT_STATE_KO_MSYNC_ISSUE  :
+//                 {
+//                   // Wait the msync issue
+//                   if (inst_mem != 0)
+//                     state = CONTEXT_STATE_KO_MSYNC_EXEC;
+//                   break;
+//                 }
+              case CONTEXT_STATE_KO_MSYNC_EXEC   :
+                {
+                  // Wait the end of msync
+                  if (inst_all == 0)
+                    state = CONTEXT_STATE_OK;
+                  break;
+                }
+//               case CONTEXT_STATE_KO_SPR          :
+//                 {
+//                   // Wait end of all instruction
+//                   if (inst_all == 0)
+//                     state = CONTEXT_STATE_KO_SPR_ISSUE;
+//                   break;
+//                 }
+//               case CONTEXT_STATE_KO_SPR_ISSUE    :
+//                 {
+//                   // Wait the spr_access issue
+//                   if (inst_all != 0)
+//                     state = CONTEXT_STATE_KO_SPR_EXEC;
+//                   break;
+//                 }
+              case CONTEXT_STATE_KO_SPR_EXEC     :
+                {
+                  // Wait the spr_access execution
+                  if (inst_all == 0)
+                    state = CONTEXT_STATE_OK;
+                  break;
+                }
+              default :
+                {
+                  throw ERRORMORPHEO(FUNCTION,toString(_("Context[%d], Unknow state : %s.\n"),i,toString(state).c_str()));
+                }
+              }
+            reg_STATE [i] = state;
+          }
+        // -------------------------------------------------------------------
         // -----[ BRANCH_EVENT ]----------------------------------------------
         // -------------------------------------------------------------------
 …
               // priority : miss > excep > spr/sync
               uint8_t    priority0  = (state == CONTEXT_STATE_KO_MISS)?2:((state == EVENT_TYPE_EXCEPTION)?1:0);
+              uint8_t    priority0  = ((state == CONTEXT_STATE_KO_MISS_ADDR) or (state == CONTEXT_STATE_KO_MISS_WAITEND))?2:((state == EVENT_TYPE_EXCEPTION)?1:0);
               uint8_t    priority1  = 2; // miss
 …
+                {
                   Tcontrol_t dest_val = PORT_READ(in_BRANCH_EVENT_ADDRESS_DEST_VAL[i]);
+                  reg_STATE                  [i] =  CONTEXT_STATE_KO_MISS;
+//                reg_STATE                  [i] =  CONTEXT_STATE_KO_MISS_ADDR;
+                  reg_STATE                  [i] =  CONTEXT_STATE_KO_MISS_WAITEND; //@@@ TODO : make MISS fast (miss decod)
                   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
 …
               // miss > excep > spr/sync
               uint8_t    priority0  = (state == CONTEXT_STATE_KO_MISS)?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
+              uint8_t    priority0  = ((state == CONTEXT_STATE_KO_MISS_ADDR) or (state == CONTEXT_STATE_KO_MISS_WAITEND))?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
               uint8_t    priority1  = (state == EVENT_TYPE_EXCEPTION)?1:0;
 …
               if (is_valid)
+                {
+                  log_printf(TRACE,Context_State,FUNCTION,"    * is_valid");
                   // decod :
                   // type : csync, psync, msync, spr_access (l.mac, l.maci, l.macrc, l.msb, l.mfspr, l.mtspr), exception (l.sys)
 …
                     case EVENT_TYPE_EXCEPTION          :
+                      {
+                        log_printf(TRACE,Context_State,FUNCTION,"    * EVENT_TYPE_EXCEPTION");
                         state_next = CONTEXT_STATE_KO_EXCEP;
 …
                     case EVENT_TYPE_SPR_ACCESS         :
+                      {
+                        state_next = CONTEXT_STATE_KO_SPR  ;
+                        log_printf(TRACE,Context_State,FUNCTION,"    * EVENT_TYPE_SPR_ACCESS");
+//                      state_next = CONTEXT_STATE_KO_SPR  ;
+                        state_next = CONTEXT_STATE_KO_SPR_EXEC;
                         address++; // take next address
                         if (is_delay_slot)
                           throw ERRORMORPHEO(FUNCTION,"SPR access in delay slot, not supported.\n");
+//                         if (is_delay_slot)
+//                           throw ERRORMORPHEO(FUNCTION,"SPR access in delay slot, not supported.\n");
                         break;
+                      }
                     case EVENT_TYPE_MSYNC              :
+                      {
+                        state_next = CONTEXT_STATE_KO_MSYNC;
+                        log_printf(TRACE,Context_State,FUNCTION,"    * EVENT_TYPE_MSYNC");
+//                      state_next = CONTEXT_STATE_KO_MSYNC;
+                        state_next = CONTEXT_STATE_KO_MSYNC_EXEC;
                         address++;  // take next address
                         if (is_delay_slot)
                           throw ERRORMORPHEO(FUNCTION,"SPR access in delay slot, not supported.\n");
+//                         if (is_delay_slot)
+//                           throw ERRORMORPHEO(FUNCTION,"MSYNC in delay slot, not supported.\n");
                         break;
+                      }
                     case EVENT_TYPE_PSYNC              :
+                      {
+                        state_next = CONTEXT_STATE_KO_PSYNC;
+                        log_printf(TRACE,Context_State,FUNCTION,"    * EVENT_TYPE_PSYNC");
+//                      state_next = CONTEXT_STATE_KO_PSYNC;
+                        state_next = CONTEXT_STATE_KO_PSYNC_FLUSH;
                         address++;  // take next address
                         if (is_delay_slot)
                           throw ERRORMORPHEO(FUNCTION,"SPR access in delay slot, not supported.\n");
+                          throw ERRORMORPHEO(FUNCTION,"PSYNC in delay slot, not supported.\n");
                         break;
+                      }
                     case EVENT_TYPE_CSYNC              :
+                      {
+                        state_next = CONTEXT_STATE_KO_CSYNC;
+                        log_printf(TRACE,Context_State,FUNCTION,"    * EVENT_TYPE_CSYNC");
+//                      state_next = CONTEXT_STATE_KO_CSYNC;
+                        state_next = CONTEXT_STATE_KO_CSYNC_FLUSH;
                         address++;  // take next address
                         if (is_delay_slot)
                           throw ERRORMORPHEO(FUNCTION,"SPR access in delay slot, not supported.\n");
+                          throw ERRORMORPHEO(FUNCTION,"CSYNC in delay slot, not supported.\n");
                         break;
+                      }
 …
             // miss > excep > spr/sync
             uint8_t    priority0  = (state == CONTEXT_STATE_KO_MISS)?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
+            uint8_t    priority0  = ((state == CONTEXT_STATE_KO_MISS_ADDR) or (state == CONTEXT_STATE_KO_MISS_WAITEND))?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
             uint8_t    priority1  = 1; // exception
 …
 //                   // miss > excep > spr/sync
 //                   uint8_t    priority0  = (state == CONTEXT_STATE_KO_MISS)?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
+//                   uint8_t    priority0  = ((state == CONTEXT_STATE_KO_MISS_ADDR) or (state == CONTEXT_STATE_KO_MISS_WAITEND))?2:((state == CONTEXT_STATE_KO_EXCEP)?1:0);
 //                   uint8_t    priority1  = 2; // miss
 …
+                  }
                 case CONTEXT_STATE_KO_MISS_ADDR  :
+//                   {
+//                     reg_STATE [i] = CONTEXT_STATE_KO_MISS_WAITEND; //@@@ TODO : make MISS fast (miss decod)
+//                     break;
+//                   }
                 case CONTEXT_STATE_KO_PSYNC_ADDR :
                 case CONTEXT_STATE_KO_CSYNC_ADDR :
 …
               reg_STATE [i] = CONTEXT_STATE_OK;
+            }
-        // -------------------------------------------------------------------
-        // -----[ next state ]------------------------------------------------
-        // -------------------------------------------------------------------
-        for (uint32_t i=0; i<_param->_nb_context; i++)
+          {
-//             uint32_t x = _param->_link_context_to_decod_unit    [i];
-            Tcounter_t inst_all = PORT_READ(in_NB_INST_COMMIT_ALL[i]) + PORT_READ(in_NB_INST_DECOD_ALL [i]);
-            Tcounter_t inst_mem = PORT_READ(in_NB_INST_COMMIT_MEM[i]) + PORT_READ(in_NB_INST_DECOD_ALL [i]);
-            context_state_t state = reg_STATE [i];
-            switch (state)
+              {
-              case CONTEXT_STATE_OK              :
+                {
-                  // nothing, wait an event
-                  break;
+                }
-              case CONTEXT_STATE_KO_EXCEP        :
+                {
-                  // Wait end of all instruction
-                  if (inst_all == 0)
-                    state = CONTEXT_STATE_KO_EXCEP_ADDR;
-                  break;
+                }
-              case CONTEXT_STATE_KO_MISS         :
+                {
-                  // Wait end of all instruction
-                  if (inst_all == 0)
-                    state = CONTEXT_STATE_KO_MISS_ADDR;
-                  break;
+                }
-              case CONTEXT_STATE_KO_EXCEP_ADDR   :
+                {
-                  // nothing, wait the update of internal register (pc)
-                  break;
+                }
-              case CONTEXT_STATE_KO_EXCEP_SPR    :
+                {
-                  // nothing, wait the update of internal register (epcr, eear, sr, esr)
-                  break;
+                }
-              case CONTEXT_STATE_KO_MISS_ADDR    :
+                {
-                  // nothing, wait the update of internal register (pc)
-                  break;
+                }
-              case CONTEXT_STATE_KO_PSYNC        :
+                {
-                  // Wait end of all instruction
-                  if (inst_all == 0)
-//                  state = CONTEXT_STATE_KO_PSYNC_FLUSH;
-                    state = CONTEXT_STATE_KO_PSYNC_ADDR ;
-                  break;
+                }
-//            case CONTEXT_STATE_KO_PSYNC_FLUSH  :
-//              {
-//                // nothing, wait end of flush (ifetch)
-//                break;
-//              }
-              case CONTEXT_STATE_KO_PSYNC_ADDR   :
+                {
-                  // nothing, wait the pc write
-                  break;
+                }
-              case CONTEXT_STATE_KO_CSYNC        :
+                {
-                  // Wait end of all instruction
-                  if (inst_all == 0)
-                    state = CONTEXT_STATE_KO_CSYNC_ADDR ;
-//                  state = CONTEXT_STATE_KO_CSYNC_FLUSH;
-                  break;
+                }
-//            case CONTEXT_STATE_KO_CSYNC_FLUSH  :
-//              {
-//                // nothing, wait end of flush (all internal structure)
-//                break;
-//              }
-              case CONTEXT_STATE_KO_CSYNC_ADDR   :
+                {
-                  // nothing, wait the pc write
-                  break;
+                }
-              case CONTEXT_STATE_KO_MSYNC        :
+                {
-                  // Wait end of memory instruction
-                  if (inst_mem == 0)
-                    state = CONTEXT_STATE_KO_MSYNC_ISSUE;
-                  break;
+                }
-              case CONTEXT_STATE_KO_MSYNC_ISSUE  :
+                {
-                  // Wait the msync issue
-                  if (inst_mem != 0)
-                    state = CONTEXT_STATE_KO_MSYNC_EXEC;
-                  break;
+                }
-              case CONTEXT_STATE_KO_MSYNC_EXEC   :
+                {
-                  // Wait the end of msync
-                  if (inst_mem == 0)
-                    state = CONTEXT_STATE_OK;
-                  break;
+                }
-              case CONTEXT_STATE_KO_SPR          :
+                {
-                  // Wait end of all instruction
-                  if (inst_all == 0)
-                    state = CONTEXT_STATE_KO_SPR_ISSUE;
-                  break;
+                }
-              case CONTEXT_STATE_KO_SPR_ISSUE    :
+                {
-                  // Wait the spr_access issue
-                  if (inst_all != 0)
-                    state = CONTEXT_STATE_KO_SPR_EXEC;
-                  break;
+                }
-              case CONTEXT_STATE_KO_SPR_EXEC     :
+                {
-                  // Wait the spr_access execution
-                  if (inst_all == 0)
-                    state = CONTEXT_STATE_OK;
-                  break;
+                }
-              default :
+                {
-                  throw ERRORMORPHEO(FUNCTION,toString(_("Context[%d], Unknow state : %s.\n"),i,toString(state).c_str()));
+                }
+              }
-            reg_STATE [i] = state;
+          }
         for (uint32_t i=0; i<_param->_nb_context; ++i)

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

r100	r101
29	29	void instruction_decod (decod_instruction_t * inst, decod_param_t * param)
30	30	{
	31	log_printf(TRACE,Decod,"instruction_decod"," * instruction : decod");
	32
31	33	// instruction_decod_type_0 (inst,param);
32	34
33	35	uint32_t opcod = range<uint32_t>(inst->_instruction,31,26);
	36
	37	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	38
34	39	(* param->_function_decod[ 0][opcod]) (inst,param);
35	40	}
…	…
43	48	void instruction_decod_type_1 (decod_instruction_t * inst, decod_param_t * param)
44	49	{
	50	log_printf(TRACE,Decod,"instruction_decod_type_1"," * instruction : decod type_1");
	51
45	52	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 0);
	53
	54	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	55
46	56	(* param->_function_decod[ 1][opcod]) (inst,param);
47	57	}
…	…
49	59	void instruction_decod_type_2 (decod_instruction_t * inst, decod_param_t * param)
50	60	{
	61	log_printf(TRACE,Decod,"instruction_decod_type_2"," * instruction : decod type_2");
	62
51	63	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 0);
	64
	65	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	66
52	67	(* param->_function_decod[ 2][opcod]) (inst,param);
53	68	}
…	…
55	70	void instruction_decod_type_3 (decod_instruction_t * inst, decod_param_t * param)
56	71	{
	72	log_printf(TRACE,Decod,"instruction_decod_type_3"," * instruction : decod type_3");
	73
57	74	uint32_t opcod = ((range<uint32_t>(inst->_instruction, 9, 8)<<4) \|
58	75	(range<uint32_t>(inst->_instruction, 3, 0)));
	76
	77	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	78
59	79	(* param->_function_decod[ 3][opcod]) (inst,param);
60	80	}
…	…
62	82	void instruction_decod_type_4 (decod_instruction_t * inst, decod_param_t * param)
63	83	{
	84	log_printf(TRACE,Decod,"instruction_decod_type_4"," * instruction : decod type_4");
	85
64	86	uint32_t opcod = range<uint32_t>(inst->_instruction,25,21);
	87
	88	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	89
65	90	(* param->_function_decod[ 4][opcod]) (inst,param);
66	91	}
…	…
68	93	void instruction_decod_type_5 (decod_instruction_t * inst, decod_param_t * param)
69	94	{
	95	log_printf(TRACE,Decod,"instruction_decod_type_5"," * instruction : decod type_5");
	96
70	97	uint32_t opcod = range<uint32_t>(inst->_instruction,25,21);
	98
	99	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	100
71	101	(* param->_function_decod[ 5][opcod]) (inst,param);
72	102	}
…	…
74	104	void instruction_decod_type_6 (decod_instruction_t * inst, decod_param_t * param)
75	105	{
	106	log_printf(TRACE,Decod,"instruction_decod_type_6"," * instruction : decod type_6");
	107
76	108	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 6);
	109
	110	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	111
77	112	(* param->_function_decod[ 6][opcod]) (inst,param);
78	113	}
…	…
80	115	void instruction_decod_type_7 (decod_instruction_t * inst, decod_param_t * param)
81	116	{
	117	log_printf(TRACE,Decod,"instruction_decod_type_7"," * instruction : decod type_7");
	118
82	119	uint32_t opcod = range<uint32_t>(inst->_instruction, 3, 0);
	120
	121	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	122
83	123	(* param->_function_decod[ 7][opcod]) (inst,param);
84	124	}
…	…
86	126	void instruction_decod_type_8 (decod_instruction_t * inst, decod_param_t * param)
87	127	{
	128	log_printf(TRACE,Decod,"instruction_decod_type_8"," * instruction : decod type_8");
	129
88	130	uint32_t opcod = range<uint32_t>(inst->_instruction,16,16);
	131
	132	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	133
89	134	(* param->_function_decod[ 8][opcod]) (inst,param);
90	135	}
…	…
92	137	void instruction_decod_type_9 (decod_instruction_t * inst, decod_param_t * param)
93	138	{
	139	log_printf(TRACE,Decod,"instruction_decod_type_9"," * instruction : decod type_9");
	140
94	141	uint32_t opcod = range<uint32_t>(inst->_instruction,25,23);
	142
	143	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	144
95	145	(* param->_function_decod[ 9][opcod]) (inst,param);
96	146	}
…	…
98	148	void instruction_decod_type_10 (decod_instruction_t * inst, decod_param_t * param)
99	149	{
	150	log_printf(TRACE,Decod,"instruction_decod_type_10"," * instruction : decod type_10");
	151
100	152	uint32_t opcod = range<uint32_t>(inst->_instruction,25,24);
	153
	154	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	155
101	156	(* param->_function_decod[10][opcod]) (inst,param);
102	157	}
…	…
104	159	void instruction_decod_type_11 (decod_instruction_t * inst, decod_param_t * param)
105	160	{
	161	log_printf(TRACE,Decod,"instruction_decod_type_11"," * instruction : decod type_11");
	162
106	163	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 6);
	164
	165	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	166
107	167	(* param->_function_decod[11][opcod]) (inst,param);
108	168	}
…	…
110	170	void instruction_decod_type_12 (decod_instruction_t * inst, decod_param_t * param)
111	171	{
	172	log_printf(TRACE,Decod,"instruction_decod_type_12"," * instruction : decod type_12");
	173
112	174	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 6);
	175
	176	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	177
113	178	(* param->_function_decod[12][opcod]) (inst,param);
114	179	}
…	…
116	181	void instruction_decod_type_13 (decod_instruction_t * inst, decod_param_t * param)
117	182	{
	183	log_printf(TRACE,Decod,"instruction_decod_type_13"," * instruction : decod type_13");
	184
118	185	uint32_t opcod = range<uint32_t>(inst->_instruction, 7, 6);
	186
	187	log_printf(TRACE,Decod,"instruction_decod"," * opcod : %d (0x%x)",opcod,opcod);
	188
119	189	(* param->_function_decod[13][opcod]) (inst,param);
120	190	}
…	…
122	192	void instruction_illegal (decod_instruction_t * inst, decod_param_t * param)
123	193	{
124		log_printf(TRACE,Decod,"instruction_illegal","instruction_illegal");
	194	log_printf(TRACE,Decod,"instruction_illegal"," * instruction : illegal");
	195
	196	msgWarning(_("Instruction \"%.8x\" at address \"%.8x\" is illegal.\n"),inst->_instruction,inst->_address);
125	197
126	198	inst->_exception_use = EXCEPTION_USE_ILLEGAL_INSTRUCTION;

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

-                      r95
+                      r101
 xe1e4f801,x,y,z,
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK,0,0x0,
 ,TYPE_ALU,OPERATION_ALU_L_ADD,false,
+,TYPE_ALU,OPERATION_ALU_L_ADDC,false,
 ,0x00000000,1, 4,1,31,1,SPR_LOGIC_SR_CY_OV,1,15,1,SPR_LOGIC_SR_CY_OV,
     EXCEPTION_USE_RANGE,EVENT_TYPE_NONE));
 …
 xa0ecffff,x,y,z,
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK,0, 0x0,
 ,TYPE_ALU,OPERATION_ALU_L_ADD,false,
+,TYPE_ALU,OPERATION_ALU_L_ADDC,false,
 ,0xffffffff,1,12,0, 0,1,SPR_LOGIC_SR_CY_OV,1,7 ,1,SPR_LOGIC_SR_CY_OV,
     EXCEPTION_USE_RANGE,EVENT_TYPE_NONE));
 …
 xa1110000,x,y,z,
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK,0, 0x0,
 ,TYPE_ALU,OPERATION_ALU_L_ADD,false,
+,TYPE_ALU,OPERATION_ALU_L_ADDC,false,
 ,0x00000000,1,17,0, 0,1,SPR_LOGIC_SR_CY_OV,1,8 ,1,SPR_LOGIC_SR_CY_OV,
     EXCEPTION_USE_RANGE,EVENT_TYPE_NONE));
 …
 xa2a707bd,x,y,z,
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK,0, 0x0,
 ,TYPE_ALU,OPERATION_ALU_L_ADD,false,
+,TYPE_ALU,OPERATION_ALU_L_ADDC,false,
 ,0x000007bd,1, 7,0, 0,1,SPR_LOGIC_SR_CY_OV,1,21,1,SPR_LOGIC_SR_CY_OV,
     EXCEPTION_USE_RANGE,EVENT_TYPE_NONE));
 …
 x23000000,x,y,z,
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_NONE_WITHOUT_WRITE_STACK,0, 0x0,
 ,TYPE_SPECIAL,OPERATION_SPECIAL_L_CSYNC,false,
+,TYPE_MEMORY,OPERATION_MEMORY_SYNCHRONIZATION,false,
 ,0  ,0,0 ,0,0 ,0,0                 ,0,0 ,0,0                 ,
     EXCEPTION_USE_NONE,EVENT_TYPE_CSYNC));
 …
     BRANCH_STATE_NONE,0,BRANCH_CONDITION_READ_REGISTER_WITH_WRITE_STACK,1, z, // branch_address_dest can be determined if BRANCH_STATE != NONE (also : previous prediction)
 ,TYPE_BRANCH,OPERATION_BRANCH_L_JALR,false,
 ,0   ,0,0 ,1,20,0,0,1,9 ,0,0,
+,z+1,0,0 ,1,20,0,0,1,9 ,0,0,
     EXCEPTION_USE_NONE,EVENT_TYPE_NONE));
     SEQ;
 …
 x22000000,x,y,z,
 ,0,0,0,0,0,
     TYPE_SPECIAL,OPERATION_SPECIAL_L_MSYNC,false,
+    TYPE_MEMORY,OPERATION_MEMORY_SYNCHRONIZATION,false,
 ,0, 0,0, 0,0, 0,0, 0,0, 0,0,
     EXCEPTION_USE_NONE,EVENT_TYPE_MSYNC));
 …
 x22800000,x,y,z,
 ,0,0,0,0,0,
     TYPE_SPECIAL,OPERATION_SPECIAL_L_PSYNC,false,
+    TYPE_MEMORY,OPERATION_MEMORY_SYNCHRONIZATION,false,
 ,0, 0,0, 0,0, 0,0, 0,0, 0,0,
     EXCEPTION_USE_NONE,EVENT_TYPE_PSYNC));

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

-                      r88
+                      r101
 //   ALLOC1_SC_SIGNAL( in_PREDICT_CAN_CONTINUE               ," in_PREDICT_CAN_CONTINUE               ",Tcontrol_t         ,_param->_nb_inst_decod);
   ALLOC1_SC_SIGNAL( in_CONTEXT_DECOD_ENABLE               ," in_CONTEXT_DECOD_ENABLE               ",Tcontrol_t         ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_CONTEXT_DEPTH_VAL                  ," in_CONTEXT_DEPTH_VAL                  ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_CONTEXT_DEPTH                      ," in_CONTEXT_DEPTH                      ",Tdepth_t           ,_param->_nb_context);
   ALLOC_SC_SIGNAL (out_CONTEXT_EVENT_VAL                  ,"out_CONTEXT_EVENT_VAL                  ",Tcontrol_t         );
 …
 //   INSTANCE1_SC_SIGNAL(_Decod, in_PREDICT_CAN_CONTINUE               ,_param->_nb_inst_decod);
   INSTANCE1_SC_SIGNAL(_Decod, in_CONTEXT_DECOD_ENABLE               ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Decod, in_CONTEXT_DEPTH_VAL                  ,_param->_nb_context);
   for (uint32_t i=0; i<_param->_nb_context; i++)
     if (_param->_have_port_depth)
 …
   LABEL("Loop of Test");
+  for (uint32_t i=0; i<_param->_nb_context; i++)
+    in_CONTEXT_DEPTH_VAL [i]->write(1);
   for (uint32_t iteration=0; iteration<NB_ITERATION; iteration ++)
 …
   delete []  in_CONTEXT_DECOD_ENABLE               ;
+  delete []  in_CONTEXT_DEPTH_VAL                  ;
   delete []  in_CONTEXT_DEPTH                      ;

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

r88	r101
120	120	// ~~~~~[ Interface : "context" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
121	121	public : SC_IN (Tcontrol_t ) ** in_CONTEXT_DECOD_ENABLE ;//[nb_context]
	122	public : SC_IN (Tcontrol_t ) ** in_CONTEXT_DEPTH_VAL ;//[nb_context]
122	123	public : SC_IN (Tdepth_t ) ** in_CONTEXT_DEPTH ;//[nb_context]
123	124

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

r88	r101
103	103	if (_param->_have_port_depth)
104	104	sensitive << (*(in_IFETCH_BRANCH_UPDATE_PREDICTION_ID [i]));
	105	sensitive << (*(in_CONTEXT_DEPTH_VAL [i]));
105	106	if (_param->_have_port_depth)
106	107	sensitive << (*(in_CONTEXT_DEPTH [i]));

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

-                      r95
+                      r101
   void Decod::allocation (
 #ifdef STATISTICS
                                morpheo::behavioural::Parameters_Statistics * param_statistics
+                               morpheo::behavioural::Parameters_Statistics * param_statistics
 #else
                                void
+                               void
 #endif
+                               )
+                               )
+  {
     log_printf(FUNC,Decod,FUNCTION,"Begin");
 …
     Entity * entity = _component->set_entity (_name
                                               ,"Decod"
+                                              ,"Decod"
 #ifdef POSITION
                                               ,COMBINATORY
+                                              ,COMBINATORY
 #endif
                                               );
+                                              );
     _interfaces = entity->set_interfaces();
 …
       Interface * interface = _interfaces->set_interface(""
 #ifdef POSITION
                                                          ,IN
                                                          ,SOUTH,
                                                          "Generalist interface"
+                                                         ,IN
+                                                         ,SOUTH,
+                                                         "Generalist interface"
 #endif
                                                          );
+                                                         );
       in_CLOCK        = interface->set_signal_clk              ("clock" ,1, CLOCK_VHDL_YES);
 …
+    }
     // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    {
       ALLOC1_INTERFACE("decod", OUT, EAST, "Instructiont decoded", _param->_nb_inst_decod);
 …
       ALLOC1_SIGNAL_IN (in_CONTEXT_DECOD_ENABLE,"decod_enable",Tcontrol_t,1);
+      ALLOC1_SIGNAL_IN (in_CONTEXT_DEPTH_VAL   ,"depth_val"   ,Tcontrol_t,1);
       ALLOC1_SIGNAL_IN (in_CONTEXT_DEPTH       ,"depth"       ,Tdepth_t  ,_param->_size_depth);
+    }
     // ~~~~~[ Interface : "context_event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    // ~~~~~[ Interface : "context_event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    {
       ALLOC_INTERFACE("context_event", OUT, NORTH, "context's evenement");
 …
     // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
     _priority = new generic::priority::Priority (_name+"_priority"      ,
                                                  _param->_priority      ,
                                                  _param->_load_balancing,
                                                  _param->_nb_context    ,
                                                  _param->_nb_inst_fetch ,
                                                  _param->_nb_context_select);
+                                                 _param->_priority      ,
+                                                 _param->_load_balancing,
+                                                 _param->_nb_context    ,
+                                                 _param->_nb_inst_fetch ,
+                                                 _param->_nb_context_select);
     const uint32_t nb_opcod_type = 14;
     const uint32_t tab_opcod_type [] = {MAX_OPCOD_0,
                                         MAX_OPCOD_1 ,
                                         MAX_OPCOD_2 ,
                                         MAX_OPCOD_3 ,
                                         MAX_OPCOD_4 ,
                                         MAX_OPCOD_5 ,
                                         MAX_OPCOD_6 ,
                                         MAX_OPCOD_7 ,
                                         MAX_OPCOD_8 ,
                                         MAX_OPCOD_9 ,
                                         MAX_OPCOD_10,
                                         MAX_OPCOD_11,
                                         MAX_OPCOD_12,
                                         MAX_OPCOD_13};
+                                        MAX_OPCOD_1 ,
+                                        MAX_OPCOD_2 ,
+                                        MAX_OPCOD_3 ,
+                                        MAX_OPCOD_4 ,
+                                        MAX_OPCOD_5 ,
+                                        MAX_OPCOD_6 ,
+                                        MAX_OPCOD_7 ,
+                                        MAX_OPCOD_8 ,
+                                        MAX_OPCOD_9 ,
+                                        MAX_OPCOD_10,
+                                        MAX_OPCOD_11,
+                                        MAX_OPCOD_12,
+                                        MAX_OPCOD_13};
     _function_decod  = new function_decod_t *** [_param->_nb_context];
 …
     for (uint32_t i=0; i<_param->_nb_context; i++)
+      {
         _function_decod  [i] = new function_decod_t ** [nb_opcod_type];
         _function_custom [i] = new function_decod_t ** [nb_opcod_type];
         for (uint32_t j=0; j<nb_opcod_type; j++)
+          {
             _function_decod  [i][j] = new function_decod_t * [tab_opcod_type[j]];
             _function_custom [i][j] = new function_decod_t * [tab_opcod_type[j]];
             for (uint32_t k=0; k<tab_opcod_type[j]; k++)
+              {
                 _function_decod  [i][j][k] = &(instruction_illegal);
                 _function_custom [i][j][k] = &(instruction_illegal);
+              }
+          }
         // Create indirection
         _function_decod[i][0][OPCOD_1 ] = &(instruction_decod_type_1 ); // Instruction ORFPX32/64
         _function_decod[i][0][OPCOD_2 ] = &(instruction_decod_type_2 ); // Instruction ORVDX64
         _function_decod[i][0][OPCOD_3 ] = &(instruction_decod_type_3 ); // Instructions Register-Register
         _function_decod[i][0][OPCOD_4 ] = &(instruction_decod_type_4 ); // Instructions "set flag" with register
         _function_decod[i][0][OPCOD_5 ] = &(instruction_decod_type_5 ); // Instructions "set flag" with immediat
         _function_decod[i][0][OPCOD_6 ] = &(instruction_decod_type_6 ); // Instruction Shift/Rotate with immediat
         _function_decod[i][0][OPCOD_7 ] = &(instruction_decod_type_7 ); // Instructions multiply with HI-LO
         _function_decod[i][0][OPCOD_8 ] = &(instruction_decod_type_8 ); // Instructions acces at HI-LO
         _function_decod[i][0][OPCOD_9 ] = &(instruction_decod_type_9 ); // Instructions special
         _function_decod[i][0][OPCOD_10] = &(instruction_decod_type_10); // Instructions no operation
         _function_decod[i][3][OPCOD_11] = &(instruction_decod_type_11); // Instruction Shift/Rotate with register
         _function_decod[i][3][OPCOD_12] = &(instruction_decod_type_12); // Instructions extend
         _function_decod[i][3][OPCOD_13] = &(instruction_decod_type_13); // Instructions extend (64b)
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADD      ]) _function_decod[i][ 3][OPCOD_L_ADD      ] = &(instruction_l_add       );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDC     ]) _function_decod[i][ 3][OPCOD_L_ADDC     ] = &(instruction_l_addc           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDI     ]) _function_decod[i][ 0][OPCOD_L_ADDI     ] = &(instruction_l_addi           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDIC    ]) _function_decod[i][ 0][OPCOD_L_ADDIC    ] = &(instruction_l_addic          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_AND      ]) _function_decod[i][ 3][OPCOD_L_AND      ] = &(instruction_l_and            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ANDI     ]) _function_decod[i][ 0][OPCOD_L_ANDI     ] = &(instruction_l_andi           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_BF       ]) _function_decod[i][ 0][OPCOD_L_BF       ] = &(instruction_l_bf     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_BNF      ]) _function_decod[i][ 0][OPCOD_L_BNF      ] = &(instruction_l_bnf            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CMOV     ]) _function_decod[i][ 3][OPCOD_L_CMOV     ] = &(instruction_l_cmov           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CSYNC    ]) _function_decod[i][ 9][OPCOD_L_CSYNC    ] = &(instruction_l_csync          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_DIV      ]) _function_decod[i][ 3][OPCOD_L_DIV      ] = &(instruction_l_div            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_DIVU     ]) _function_decod[i][ 3][OPCOD_L_DIVU     ] = &(instruction_l_divu           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTBS    ]) _function_decod[i][12][OPCOD_L_EXTBS    ] = &(instruction_l_extbs          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTBZ    ]) _function_decod[i][12][OPCOD_L_EXTBZ    ] = &(instruction_l_extbz          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTHS    ]) _function_decod[i][12][OPCOD_L_EXTHS    ] = &(instruction_l_exths          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTHZ    ]) _function_decod[i][12][OPCOD_L_EXTHZ    ] = &(instruction_l_exthz          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTWS    ]) _function_decod[i][13][OPCOD_L_EXTWS    ] = &(instruction_l_extws          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTWZ    ]) _function_decod[i][13][OPCOD_L_EXTWZ    ] = &(instruction_l_extwz          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_FF1      ]) _function_decod[i][ 3][OPCOD_L_FF1      ] = &(instruction_l_ff1            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_FL1      ]) _function_decod[i][ 3][OPCOD_L_FL1      ] = &(instruction_l_fl1            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_J        ]) _function_decod[i][ 0][OPCOD_L_J        ] = &(instruction_l_j      );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_JAL      ]) _function_decod[i][ 0][OPCOD_L_JAL      ] = &(instruction_l_jal            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_JALR     ]) _function_decod[i][ 0][OPCOD_L_JALR     ] = &(instruction_l_jalr           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_JR       ]) _function_decod[i][ 0][OPCOD_L_JR       ] = &(instruction_l_jr     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LBS      ]) _function_decod[i][ 0][OPCOD_L_LBS      ] = &(instruction_l_lbs            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LBZ      ]) _function_decod[i][ 0][OPCOD_L_LBZ      ] = &(instruction_l_lbz            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LD       ]) _function_decod[i][ 0][OPCOD_L_LD       ] = &(instruction_l_ld     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LHS      ]) _function_decod[i][ 0][OPCOD_L_LHS      ] = &(instruction_l_lhs            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LHZ      ]) _function_decod[i][ 0][OPCOD_L_LHZ      ] = &(instruction_l_lhz            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LWS      ]) _function_decod[i][ 0][OPCOD_L_LWS      ] = &(instruction_l_lws            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_LWZ      ]) _function_decod[i][ 0][OPCOD_L_LWZ      ] = &(instruction_l_lwz            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MAC      ]) _function_decod[i][ 7][OPCOD_L_MAC      ] = &(instruction_l_mac            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MACI     ]) _function_decod[i][ 0][OPCOD_L_MACI     ] = &(instruction_l_maci           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MACRC    ]) _function_decod[i][ 8][OPCOD_L_MACRC    ] = &(instruction_l_macrc          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MFSPR    ]) _function_decod[i][ 0][OPCOD_L_MFSPR    ] = &(instruction_l_mfspr          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MOVHI    ]) _function_decod[i][ 8][OPCOD_L_MOVHI    ] = &(instruction_l_movhi          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MSB      ]) _function_decod[i][ 7][OPCOD_L_MSB      ] = &(instruction_l_msb            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MSYNC    ]) _function_decod[i][ 9][OPCOD_L_MSYNC    ] = &(instruction_l_msync          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MTSPR    ]) _function_decod[i][ 0][OPCOD_L_MTSPR    ] = &(instruction_l_mtspr          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MUL      ]) _function_decod[i][ 3][OPCOD_L_MUL      ] = &(instruction_l_mul            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MULI     ]) _function_decod[i][ 0][OPCOD_L_MULI     ] = &(instruction_l_muli           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_MULU     ]) _function_decod[i][ 3][OPCOD_L_MULU     ] = &(instruction_l_mulu           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_NOP      ]) _function_decod[i][10][OPCOD_L_NOP      ] = &(instruction_l_nop            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_OR       ]) _function_decod[i][ 3][OPCOD_L_OR       ] = &(instruction_l_or     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ORI      ]) _function_decod[i][ 0][OPCOD_L_ORI      ] = &(instruction_l_ori            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_PSYNC    ]) _function_decod[i][ 9][OPCOD_L_PSYNC    ] = &(instruction_l_psync          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_RFE      ]) _function_decod[i][ 0][OPCOD_L_RFE      ] = &(instruction_l_rfe            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_ROR      ]) _function_decod[i][11][OPCOD_L_ROR      ] = &(instruction_l_ror            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_RORI     ]) _function_decod[i][ 6][OPCOD_L_RORI     ] = &(instruction_l_rori           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SB       ]) _function_decod[i][ 0][OPCOD_L_SB       ] = &(instruction_l_sb     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SD       ]) _function_decod[i][ 0][OPCOD_L_SD       ] = &(instruction_l_sd     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFEQ     ]) _function_decod[i][ 4][OPCOD_L_SFEQ     ] = &(instruction_l_sfeq           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFEQI    ]) _function_decod[i][ 5][OPCOD_L_SFEQI    ] = &(instruction_l_sfeqi          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGES    ]) _function_decod[i][ 4][OPCOD_L_SFGES    ] = &(instruction_l_sfges          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGESI   ]) _function_decod[i][ 5][OPCOD_L_SFGESI   ] = &(instruction_l_sfgesi    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGEU    ]) _function_decod[i][ 4][OPCOD_L_SFGEU    ] = &(instruction_l_sfgeu          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGEUI   ]) _function_decod[i][ 5][OPCOD_L_SFGEUI   ] = &(instruction_l_sfgeui    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTS    ]) _function_decod[i][ 4][OPCOD_L_SFGTS    ] = &(instruction_l_sfgts          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTSI   ]) _function_decod[i][ 5][OPCOD_L_SFGTSI   ] = &(instruction_l_sfgtsi    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTU    ]) _function_decod[i][ 4][OPCOD_L_SFGTU    ] = &(instruction_l_sfgtu          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTUI   ]) _function_decod[i][ 5][OPCOD_L_SFGTUI   ] = &(instruction_l_sfgtui    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLES    ]) _function_decod[i][ 4][OPCOD_L_SFLES    ] = &(instruction_l_sfles          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLESI   ]) _function_decod[i][ 5][OPCOD_L_SFLESI   ] = &(instruction_l_sflesi    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLEU    ]) _function_decod[i][ 4][OPCOD_L_SFLEU    ] = &(instruction_l_sfleu          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLEUI   ]) _function_decod[i][ 5][OPCOD_L_SFLEUI   ] = &(instruction_l_sfleui    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTS    ]) _function_decod[i][ 4][OPCOD_L_SFLTS    ] = &(instruction_l_sflts          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTSI   ]) _function_decod[i][ 5][OPCOD_L_SFLTSI   ] = &(instruction_l_sfltsi    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTU    ]) _function_decod[i][ 4][OPCOD_L_SFLTU    ] = &(instruction_l_sfltu          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTUI   ]) _function_decod[i][ 5][OPCOD_L_SFLTUI   ] = &(instruction_l_sfltui    );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFNE     ]) _function_decod[i][ 4][OPCOD_L_SFNE     ] = &(instruction_l_sfne           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFNEI    ]) _function_decod[i][ 5][OPCOD_L_SFNEI    ] = &(instruction_l_sfnei          );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SH       ]) _function_decod[i][ 0][OPCOD_L_SH       ] = &(instruction_l_sh     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SLL      ]) _function_decod[i][11][OPCOD_L_SLL      ] = &(instruction_l_sll            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SLLI     ]) _function_decod[i][ 6][OPCOD_L_SLLI     ] = &(instruction_l_slli           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRA      ]) _function_decod[i][11][OPCOD_L_SRA      ] = &(instruction_l_sra            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRAI     ]) _function_decod[i][ 6][OPCOD_L_SRAI     ] = &(instruction_l_srai           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRL      ]) _function_decod[i][11][OPCOD_L_SRL      ] = &(instruction_l_srl            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRLI     ]) _function_decod[i][ 6][OPCOD_L_SRLI     ] = &(instruction_l_srli           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SUB      ]) _function_decod[i][ 3][OPCOD_L_SUB      ] = &(instruction_l_sub            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SW       ]) _function_decod[i][ 0][OPCOD_L_SW       ] = &(instruction_l_sw     );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_SYS      ]) _function_decod[i][ 9][OPCOD_L_SYS      ] = &(instruction_l_sys            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_TRAP     ]) _function_decod[i][ 9][OPCOD_L_TRAP     ] = &(instruction_l_trap           );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_XOR      ]) _function_decod[i][ 3][OPCOD_L_XOR      ] = &(instruction_l_xor            );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_XORI     ]) _function_decod[i][ 0][OPCOD_L_XORI     ] = &(instruction_l_xori           );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ADD_D   ]) _function_decod[i][ 1][OPCOD_LF_ADD_D   ] = &(instruction_lf_add_d    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ADD_S   ]) _function_decod[i][ 1][OPCOD_LF_ADD_S   ] = &(instruction_lf_add_s    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_DIV_D   ]) _function_decod[i][ 1][OPCOD_LF_DIV_D   ] = &(instruction_lf_div_d    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_DIV_S   ]) _function_decod[i][ 1][OPCOD_LF_DIV_S   ] = &(instruction_lf_div_s    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_FTOI_D  ]) _function_decod[i][ 1][OPCOD_LF_FTOI_D  ] = &(instruction_lf_ftoi_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_FTOI_S  ]) _function_decod[i][ 1][OPCOD_LF_FTOI_S  ] = &(instruction_lf_ftoi_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ITOF_D  ]) _function_decod[i][ 1][OPCOD_LF_ITOF_D  ] = &(instruction_lf_itof_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ITOF_S  ]) _function_decod[i][ 1][OPCOD_LF_ITOF_S  ] = &(instruction_lf_itof_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MADD_D  ]) _function_decod[i][ 1][OPCOD_LF_MADD_D  ] = &(instruction_lf_madd_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MADD_S  ]) _function_decod[i][ 1][OPCOD_LF_MADD_S  ] = &(instruction_lf_madd_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MUL_D   ]) _function_decod[i][ 1][OPCOD_LF_MUL_D   ] = &(instruction_lf_mul_d    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MUL_S   ]) _function_decod[i][ 1][OPCOD_LF_MUL_S   ] = &(instruction_lf_mul_s    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_REM_D   ]) _function_decod[i][ 1][OPCOD_LF_REM_D   ] = &(instruction_lf_rem_d    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_REM_S   ]) _function_decod[i][ 1][OPCOD_LF_REM_S   ] = &(instruction_lf_rem_s    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFEQ_D  ]) _function_decod[i][ 1][OPCOD_LF_SFEQ_D  ] = &(instruction_lf_sfeq_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFEQ_S  ]) _function_decod[i][ 1][OPCOD_LF_SFEQ_S  ] = &(instruction_lf_sfeq_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFGE_D  ] = &(instruction_lf_sfge_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFGE_S  ] = &(instruction_lf_sfge_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGT_D  ]) _function_decod[i][ 1][OPCOD_LF_SFGT_D  ] = &(instruction_lf_sfgt_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGT_S  ]) _function_decod[i][ 1][OPCOD_LF_SFGT_S  ] = &(instruction_lf_sfgt_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFLE_D  ] = &(instruction_lf_sfle_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFLE_S  ] = &(instruction_lf_sfle_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLT_D  ]) _function_decod[i][ 1][OPCOD_LF_SFLT_D  ] = &(instruction_lf_sflt_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLT_S  ]) _function_decod[i][ 1][OPCOD_LF_SFLT_S  ] = &(instruction_lf_sflt_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFNE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFNE_D  ] = &(instruction_lf_sfne_d   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFNE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFNE_S  ] = &(instruction_lf_sfne_s   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SUB_D   ]) _function_decod[i][ 1][OPCOD_LF_SUB_D   ] = &(instruction_lf_sub_d    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SUB_S   ]) _function_decod[i][ 1][OPCOD_LF_SUB_S   ] = &(instruction_lf_sub_s    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADD_B   ]) _function_decod[i][ 2][OPCOD_LV_ADD_B   ] = &(instruction_lv_add_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADD_H   ]) _function_decod[i][ 2][OPCOD_LV_ADD_H   ] = &(instruction_lv_add_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDS_B  ]) _function_decod[i][ 2][OPCOD_LV_ADDS_B  ] = &(instruction_lv_adds_b   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDS_H  ]) _function_decod[i][ 2][OPCOD_LV_ADDS_H  ] = &(instruction_lv_adds_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDU_B  ]) _function_decod[i][ 2][OPCOD_LV_ADDU_B  ] = &(instruction_lv_addu_b   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDU_H  ]) _function_decod[i][ 2][OPCOD_LV_ADDU_H  ] = &(instruction_lv_addu_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDUS_B ]) _function_decod[i][ 2][OPCOD_LV_ADDUS_B ] = &(instruction_lv_addus_b  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDUS_H ]) _function_decod[i][ 2][OPCOD_LV_ADDUS_H ] = &(instruction_lv_addus_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_EQ_B]) _function_decod[i][ 2][OPCOD_LV_ALL_EQ_B] = &(instruction_lv_all_eq_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_EQ_H]) _function_decod[i][ 2][OPCOD_LV_ALL_EQ_H] = &(instruction_lv_all_eq_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_GE_B] = &(instruction_lv_all_ge_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_GE_H] = &(instruction_lv_all_ge_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GT_B]) _function_decod[i][ 2][OPCOD_LV_ALL_GT_B] = &(instruction_lv_all_gt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GT_H]) _function_decod[i][ 2][OPCOD_LV_ALL_GT_H] = &(instruction_lv_all_gt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_LE_B] = &(instruction_lv_all_le_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_LE_H] = &(instruction_lv_all_le_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LT_B]) _function_decod[i][ 2][OPCOD_LV_ALL_LT_B] = &(instruction_lv_all_lt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LT_H]) _function_decod[i][ 2][OPCOD_LV_ALL_LT_H] = &(instruction_lv_all_lt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_NE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_NE_B] = &(instruction_lv_all_ne_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_NE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_NE_H] = &(instruction_lv_all_ne_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AND     ]) _function_decod[i][ 2][OPCOD_LV_AND     ] = &(instruction_lv_and           );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_EQ_B]) _function_decod[i][ 2][OPCOD_LV_ANY_EQ_B] = &(instruction_lv_any_eq_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_EQ_H]) _function_decod[i][ 2][OPCOD_LV_ANY_EQ_H] = &(instruction_lv_any_eq_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_GE_B] = &(instruction_lv_any_ge_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_GE_H] = &(instruction_lv_any_ge_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GT_B]) _function_decod[i][ 2][OPCOD_LV_ANY_GT_B] = &(instruction_lv_any_gt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GT_H]) _function_decod[i][ 2][OPCOD_LV_ANY_GT_H] = &(instruction_lv_any_gt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_LE_B] = &(instruction_lv_any_le_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_LE_H] = &(instruction_lv_any_le_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LT_B]) _function_decod[i][ 2][OPCOD_LV_ANY_LT_B] = &(instruction_lv_any_lt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LT_H]) _function_decod[i][ 2][OPCOD_LV_ANY_LT_H] = &(instruction_lv_any_lt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_NE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_NE_B] = &(instruction_lv_any_ne_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_NE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_NE_H] = &(instruction_lv_any_ne_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AVG_B   ]) _function_decod[i][ 2][OPCOD_LV_AVG_B   ] = &(instruction_lv_avg_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AVG_H   ]) _function_decod[i][ 2][OPCOD_LV_AVG_H   ] = &(instruction_lv_avg_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_EQ_B]) _function_decod[i][ 2][OPCOD_LV_CMP_EQ_B] = &(instruction_lv_cmp_eq_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_EQ_H]) _function_decod[i][ 2][OPCOD_LV_CMP_EQ_H] = &(instruction_lv_cmp_eq_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_GE_B] = &(instruction_lv_cmp_ge_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_GE_H] = &(instruction_lv_cmp_ge_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GT_B]) _function_decod[i][ 2][OPCOD_LV_CMP_GT_B] = &(instruction_lv_cmp_gt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GT_H]) _function_decod[i][ 2][OPCOD_LV_CMP_GT_H] = &(instruction_lv_cmp_gt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_LE_B] = &(instruction_lv_cmp_le_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_LE_H] = &(instruction_lv_cmp_le_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LT_B]) _function_decod[i][ 2][OPCOD_LV_CMP_LT_B] = &(instruction_lv_cmp_lt_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LT_H]) _function_decod[i][ 2][OPCOD_LV_CMP_LT_H] = &(instruction_lv_cmp_lt_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_NE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_NE_B] = &(instruction_lv_cmp_ne_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_NE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_NE_H] = &(instruction_lv_cmp_ne_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MADDS_H ]) _function_decod[i][ 2][OPCOD_LV_MADDS_H ] = &(instruction_lv_madds_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MAX_B   ]) _function_decod[i][ 2][OPCOD_LV_MAX_B   ] = &(instruction_lv_max_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MAX_H   ]) _function_decod[i][ 2][OPCOD_LV_MAX_H   ] = &(instruction_lv_max_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MERGE_B ]) _function_decod[i][ 2][OPCOD_LV_MERGE_B ] = &(instruction_lv_merge_b  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MERGE_H ]) _function_decod[i][ 2][OPCOD_LV_MERGE_H ] = &(instruction_lv_merge_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MIN_B   ]) _function_decod[i][ 2][OPCOD_LV_MIN_B   ] = &(instruction_lv_min_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MIN_H   ]) _function_decod[i][ 2][OPCOD_LV_MIN_H   ] = &(instruction_lv_min_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MSUBS_H ]) _function_decod[i][ 2][OPCOD_LV_MSUBS_H ] = &(instruction_lv_msubs_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MULS_H  ]) _function_decod[i][ 2][OPCOD_LV_MULS_H  ] = &(instruction_lv_muls_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_NAND    ]) _function_decod[i][ 2][OPCOD_LV_NAND    ] = &(instruction_lv_nand          );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_NOR     ]) _function_decod[i][ 2][OPCOD_LV_NOR     ] = &(instruction_lv_nor           );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_OR      ]) _function_decod[i][ 2][OPCOD_LV_OR      ] = &(instruction_lv_or            );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACK_B  ]) _function_decod[i][ 2][OPCOD_LV_PACK_B  ] = &(instruction_lv_pack_b   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACK_H  ]) _function_decod[i][ 2][OPCOD_LV_PACK_H  ] = &(instruction_lv_pack_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKS_B ]) _function_decod[i][ 2][OPCOD_LV_PACKS_B ] = &(instruction_lv_packs_b  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKS_H ]) _function_decod[i][ 2][OPCOD_LV_PACKS_H ] = &(instruction_lv_packs_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKUS_B]) _function_decod[i][ 2][OPCOD_LV_PACKUS_B] = &(instruction_lv_packus_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKUS_H]) _function_decod[i][ 2][OPCOD_LV_PACKUS_H] = &(instruction_lv_packus_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PERM_N  ]) _function_decod[i][ 2][OPCOD_LV_PERM_N  ] = &(instruction_lv_perm_n   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_RL_B    ]) _function_decod[i][ 2][OPCOD_LV_RL_B    ] = &(instruction_lv_rl_b          );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_RL_H    ]) _function_decod[i][ 2][OPCOD_LV_RL_H    ] = &(instruction_lv_rl_h          );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL     ]) _function_decod[i][ 2][OPCOD_LV_SLL     ] = &(instruction_lv_sll           );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL_B   ]) _function_decod[i][ 2][OPCOD_LV_SLL_B   ] = &(instruction_lv_sll_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL_H   ]) _function_decod[i][ 2][OPCOD_LV_SLL_H   ] = &(instruction_lv_sll_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRA_B   ]) _function_decod[i][ 2][OPCOD_LV_SRA_B   ] = &(instruction_lv_sra_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRA_H   ]) _function_decod[i][ 2][OPCOD_LV_SRA_H   ] = &(instruction_lv_sra_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL     ]) _function_decod[i][ 2][OPCOD_LV_SRL     ] = &(instruction_lv_srl           );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL_B   ]) _function_decod[i][ 2][OPCOD_LV_SRL_B   ] = &(instruction_lv_srl_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL_H   ]) _function_decod[i][ 2][OPCOD_LV_SRL_H   ] = &(instruction_lv_srl_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUB_B   ]) _function_decod[i][ 2][OPCOD_LV_SUB_B   ] = &(instruction_lv_sub_b    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUB_H   ]) _function_decod[i][ 2][OPCOD_LV_SUB_H   ] = &(instruction_lv_sub_h    );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBS_B  ]) _function_decod[i][ 2][OPCOD_LV_SUBS_B  ] = &(instruction_lv_subs_b   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBS_H  ]) _function_decod[i][ 2][OPCOD_LV_SUBS_H  ] = &(instruction_lv_subs_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBU_B  ]) _function_decod[i][ 2][OPCOD_LV_SUBU_B  ] = &(instruction_lv_subu_b   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBU_H  ]) _function_decod[i][ 2][OPCOD_LV_SUBU_H  ] = &(instruction_lv_subu_h   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBUS_B ]) _function_decod[i][ 2][OPCOD_LV_SUBUS_B ] = &(instruction_lv_subus_b  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBUS_H ]) _function_decod[i][ 2][OPCOD_LV_SUBUS_H ] = &(instruction_lv_subus_h  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_UNPACK_B]) _function_decod[i][ 2][OPCOD_LV_UNPACK_B] = &(instruction_lv_unpack_b );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_UNPACK_H]) _function_decod[i][ 2][OPCOD_LV_UNPACK_H] = &(instruction_lv_unpack_h );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_XOR     ]) _function_decod[i][ 2][OPCOD_LV_XOR     ] = &(instruction_lv_xor      );
         // Custom Instruction
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST1    ]) _function_decod [i][ 0][OPCOD_L_CUST1    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST2    ]) _function_decod [i][ 0][OPCOD_L_CUST2    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST3    ]) _function_decod [i][ 0][OPCOD_L_CUST3    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST4    ]) _function_decod [i][ 0][OPCOD_L_CUST4    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST5    ]) _function_decod [i][ 0][OPCOD_L_CUST5    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST6    ]) _function_decod [i][ 0][OPCOD_L_CUST6    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST7    ]) _function_decod [i][ 0][OPCOD_L_CUST7    ] = &(instruction_l_custom );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST8    ]) _function_decod [i][ 0][OPCOD_L_CUST8    ] = &(instruction_l_custom );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_D ]) _function_decod [i][ 1][OPCOD_LF_CUST1_D ] = &(instruction_lf_custom);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_S ]) _function_decod [i][ 1][OPCOD_LF_CUST1_S ] = &(instruction_lf_custom);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST1   ]) _function_decod [i][ 2][OPCOD_LV_CUST1   ] = &(instruction_lv_custom);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST2   ]) _function_decod [i][ 2][OPCOD_LV_CUST2   ] = &(instruction_lv_custom);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST3   ]) _function_decod [i][ 2][OPCOD_LV_CUST3   ] = &(instruction_lv_custom);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST4   ]) _function_decod [i][ 2][OPCOD_LV_CUST4   ] = &(instruction_lv_custom);
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST1    ]) _function_custom[i][ 0][OPCOD_L_CUST1    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_1   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST2    ]) _function_custom[i][ 0][OPCOD_L_CUST2    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_2   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST3    ]) _function_custom[i][ 0][OPCOD_L_CUST3    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_3   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST4    ]) _function_custom[i][ 0][OPCOD_L_CUST4    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_4   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST5    ]) _function_custom[i][ 0][OPCOD_L_CUST5    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_5   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST6    ]) _function_custom[i][ 0][OPCOD_L_CUST6    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_6   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST7    ]) _function_custom[i][ 0][OPCOD_L_CUST7    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_7   );
         if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST8    ]) _function_custom[i][ 0][OPCOD_L_CUST8    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_8   );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_D ]) _function_custom[i][ 1][OPCOD_LF_CUST1_D ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LF_1_D);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_S ]) _function_custom[i][ 1][OPCOD_LF_CUST1_S ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LF_1_S);
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST1   ]) _function_custom[i][ 2][OPCOD_LV_CUST1   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_1  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST2   ]) _function_custom[i][ 2][OPCOD_LV_CUST2   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_2  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST3   ]) _function_custom[i][ 2][OPCOD_LV_CUST3   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_3  );
 //      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST4   ]) _function_custom[i][ 2][OPCOD_LV_CUST4   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_4  );
+        _function_decod  [i] = new function_decod_t ** [nb_opcod_type];
+        _function_custom [i] = new function_decod_t ** [nb_opcod_type];
+        for (uint32_t j=0; j<nb_opcod_type; j++)
+          {
+            _function_decod  [i][j] = new function_decod_t * [tab_opcod_type[j]];
+            _function_custom [i][j] = new function_decod_t * [tab_opcod_type[j]];
+            for (uint32_t k=0; k<tab_opcod_type[j]; k++)
+              {
+                _function_decod  [i][j][k] = &(instruction_illegal);
+                _function_custom [i][j][k] = &(instruction_illegal);
+              }
+          }
+        // Create indirection
+        _function_decod[i][0][OPCOD_1 ] = &(instruction_decod_type_1 ); // Instruction ORFPX32/64
+        _function_decod[i][0][OPCOD_2 ] = &(instruction_decod_type_2 ); // Instruction ORVDX64
+        _function_decod[i][0][OPCOD_3 ] = &(instruction_decod_type_3 ); // Instructions Register-Register
+        _function_decod[i][0][OPCOD_4 ] = &(instruction_decod_type_4 ); // Instructions "set flag" with register
+        _function_decod[i][0][OPCOD_5 ] = &(instruction_decod_type_5 ); // Instructions "set flag" with immediat
+        _function_decod[i][0][OPCOD_6 ] = &(instruction_decod_type_6 ); // Instruction Shift/Rotate with immediat
+        _function_decod[i][0][OPCOD_7 ] = &(instruction_decod_type_7 ); // Instructions multiply with HI-LO
+        _function_decod[i][0][OPCOD_8 ] = &(instruction_decod_type_8 ); // Instructions acces at HI-LO
+        _function_decod[i][0][OPCOD_9 ] = &(instruction_decod_type_9 ); // Instructions special
+        _function_decod[i][0][OPCOD_10] = &(instruction_decod_type_10); // Instructions no operation
+        _function_decod[i][3][OPCOD_11] = &(instruction_decod_type_11); // Instruction Shift/Rotate with register
+        _function_decod[i][3][OPCOD_12] = &(instruction_decod_type_12); // Instructions extend
+        _function_decod[i][3][OPCOD_13] = &(instruction_decod_type_13); // Instructions extend (64b)
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADD      ]) _function_decod[i][ 3][OPCOD_L_ADD      ] = &(instruction_l_add            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDC     ]) _function_decod[i][ 3][OPCOD_L_ADDC     ] = &(instruction_l_addc           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDI     ]) _function_decod[i][ 0][OPCOD_L_ADDI     ] = &(instruction_l_addi           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ADDIC    ]) _function_decod[i][ 0][OPCOD_L_ADDIC    ] = &(instruction_l_addic          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_AND      ]) _function_decod[i][ 3][OPCOD_L_AND      ] = &(instruction_l_and            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ANDI     ]) _function_decod[i][ 0][OPCOD_L_ANDI     ] = &(instruction_l_andi           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_BF       ]) _function_decod[i][ 0][OPCOD_L_BF       ] = &(instruction_l_bf             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_BNF      ]) _function_decod[i][ 0][OPCOD_L_BNF      ] = &(instruction_l_bnf            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CMOV     ]) _function_decod[i][ 3][OPCOD_L_CMOV     ] = &(instruction_l_cmov           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CSYNC    ]) _function_decod[i][ 9][OPCOD_L_CSYNC    ] = &(instruction_l_csync          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_DIV      ]) _function_decod[i][ 3][OPCOD_L_DIV      ] = &(instruction_l_div            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_DIVU     ]) _function_decod[i][ 3][OPCOD_L_DIVU     ] = &(instruction_l_divu           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTBS    ]) _function_decod[i][12][OPCOD_L_EXTBS    ] = &(instruction_l_extbs          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTBZ    ]) _function_decod[i][12][OPCOD_L_EXTBZ    ] = &(instruction_l_extbz          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTHS    ]) _function_decod[i][12][OPCOD_L_EXTHS    ] = &(instruction_l_exths          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTHZ    ]) _function_decod[i][12][OPCOD_L_EXTHZ    ] = &(instruction_l_exthz          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTWS    ]) _function_decod[i][13][OPCOD_L_EXTWS    ] = &(instruction_l_extws          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_EXTWZ    ]) _function_decod[i][13][OPCOD_L_EXTWZ    ] = &(instruction_l_extwz          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_FF1      ]) _function_decod[i][ 3][OPCOD_L_FF1      ] = &(instruction_l_ff1            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_FL1      ]) _function_decod[i][ 3][OPCOD_L_FL1      ] = &(instruction_l_fl1            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_J        ]) _function_decod[i][ 0][OPCOD_L_J        ] = &(instruction_l_j              );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_JAL      ]) _function_decod[i][ 0][OPCOD_L_JAL      ] = &(instruction_l_jal            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_JALR     ]) _function_decod[i][ 0][OPCOD_L_JALR     ] = &(instruction_l_jalr           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_JR       ]) _function_decod[i][ 0][OPCOD_L_JR       ] = &(instruction_l_jr             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LBS      ]) _function_decod[i][ 0][OPCOD_L_LBS      ] = &(instruction_l_lbs            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LBZ      ]) _function_decod[i][ 0][OPCOD_L_LBZ      ] = &(instruction_l_lbz            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LD       ]) _function_decod[i][ 0][OPCOD_L_LD       ] = &(instruction_l_ld             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LHS      ]) _function_decod[i][ 0][OPCOD_L_LHS      ] = &(instruction_l_lhs            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LHZ      ]) _function_decod[i][ 0][OPCOD_L_LHZ      ] = &(instruction_l_lhz            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LWS      ]) _function_decod[i][ 0][OPCOD_L_LWS      ] = &(instruction_l_lws            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_LWZ      ]) _function_decod[i][ 0][OPCOD_L_LWZ      ] = &(instruction_l_lwz            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MAC      ]) _function_decod[i][ 7][OPCOD_L_MAC      ] = &(instruction_l_mac            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MACI     ]) _function_decod[i][ 0][OPCOD_L_MACI     ] = &(instruction_l_maci           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MACRC    ]) _function_decod[i][ 8][OPCOD_L_MACRC    ] = &(instruction_l_macrc          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MFSPR    ]) _function_decod[i][ 0][OPCOD_L_MFSPR    ] = &(instruction_l_mfspr          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MOVHI    ]) _function_decod[i][ 8][OPCOD_L_MOVHI    ] = &(instruction_l_movhi          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MSB      ]) _function_decod[i][ 7][OPCOD_L_MSB      ] = &(instruction_l_msb            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MSYNC    ]) _function_decod[i][ 9][OPCOD_L_MSYNC    ] = &(instruction_l_msync          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MTSPR    ]) _function_decod[i][ 0][OPCOD_L_MTSPR    ] = &(instruction_l_mtspr          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MUL      ]) _function_decod[i][ 3][OPCOD_L_MUL      ] = &(instruction_l_mul            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MULI     ]) _function_decod[i][ 0][OPCOD_L_MULI     ] = &(instruction_l_muli           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_MULU     ]) _function_decod[i][ 3][OPCOD_L_MULU     ] = &(instruction_l_mulu           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_NOP      ]) _function_decod[i][10][OPCOD_L_NOP      ] = &(instruction_l_nop            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_OR       ]) _function_decod[i][ 3][OPCOD_L_OR       ] = &(instruction_l_or             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ORI      ]) _function_decod[i][ 0][OPCOD_L_ORI      ] = &(instruction_l_ori            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_PSYNC    ]) _function_decod[i][ 9][OPCOD_L_PSYNC    ] = &(instruction_l_psync          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_RFE      ]) _function_decod[i][ 0][OPCOD_L_RFE      ] = &(instruction_l_rfe            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_ROR      ]) _function_decod[i][11][OPCOD_L_ROR      ] = &(instruction_l_ror            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_RORI     ]) _function_decod[i][ 6][OPCOD_L_RORI     ] = &(instruction_l_rori           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SB       ]) _function_decod[i][ 0][OPCOD_L_SB       ] = &(instruction_l_sb             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SD       ]) _function_decod[i][ 0][OPCOD_L_SD       ] = &(instruction_l_sd             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFEQ     ]) _function_decod[i][ 4][OPCOD_L_SFEQ     ] = &(instruction_l_sfeq           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFEQI    ]) _function_decod[i][ 5][OPCOD_L_SFEQI    ] = &(instruction_l_sfeqi          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGES    ]) _function_decod[i][ 4][OPCOD_L_SFGES    ] = &(instruction_l_sfges          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGESI   ]) _function_decod[i][ 5][OPCOD_L_SFGESI   ] = &(instruction_l_sfgesi         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGEU    ]) _function_decod[i][ 4][OPCOD_L_SFGEU    ] = &(instruction_l_sfgeu          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGEUI   ]) _function_decod[i][ 5][OPCOD_L_SFGEUI   ] = &(instruction_l_sfgeui         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTS    ]) _function_decod[i][ 4][OPCOD_L_SFGTS    ] = &(instruction_l_sfgts          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTSI   ]) _function_decod[i][ 5][OPCOD_L_SFGTSI   ] = &(instruction_l_sfgtsi         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTU    ]) _function_decod[i][ 4][OPCOD_L_SFGTU    ] = &(instruction_l_sfgtu          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFGTUI   ]) _function_decod[i][ 5][OPCOD_L_SFGTUI   ] = &(instruction_l_sfgtui         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLES    ]) _function_decod[i][ 4][OPCOD_L_SFLES    ] = &(instruction_l_sfles          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLESI   ]) _function_decod[i][ 5][OPCOD_L_SFLESI   ] = &(instruction_l_sflesi         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLEU    ]) _function_decod[i][ 4][OPCOD_L_SFLEU    ] = &(instruction_l_sfleu          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLEUI   ]) _function_decod[i][ 5][OPCOD_L_SFLEUI   ] = &(instruction_l_sfleui         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTS    ]) _function_decod[i][ 4][OPCOD_L_SFLTS    ] = &(instruction_l_sflts          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTSI   ]) _function_decod[i][ 5][OPCOD_L_SFLTSI   ] = &(instruction_l_sfltsi         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTU    ]) _function_decod[i][ 4][OPCOD_L_SFLTU    ] = &(instruction_l_sfltu          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFLTUI   ]) _function_decod[i][ 5][OPCOD_L_SFLTUI   ] = &(instruction_l_sfltui         );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFNE     ]) _function_decod[i][ 4][OPCOD_L_SFNE     ] = &(instruction_l_sfne           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SFNEI    ]) _function_decod[i][ 5][OPCOD_L_SFNEI    ] = &(instruction_l_sfnei          );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SH       ]) _function_decod[i][ 0][OPCOD_L_SH       ] = &(instruction_l_sh             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SLL      ]) _function_decod[i][11][OPCOD_L_SLL      ] = &(instruction_l_sll            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SLLI     ]) _function_decod[i][ 6][OPCOD_L_SLLI     ] = &(instruction_l_slli           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRA      ]) _function_decod[i][11][OPCOD_L_SRA      ] = &(instruction_l_sra            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRAI     ]) _function_decod[i][ 6][OPCOD_L_SRAI     ] = &(instruction_l_srai           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRL      ]) _function_decod[i][11][OPCOD_L_SRL      ] = &(instruction_l_srl            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SRLI     ]) _function_decod[i][ 6][OPCOD_L_SRLI     ] = &(instruction_l_srli           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SUB      ]) _function_decod[i][ 3][OPCOD_L_SUB      ] = &(instruction_l_sub            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SW       ]) _function_decod[i][ 0][OPCOD_L_SW       ] = &(instruction_l_sw             );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_SYS      ]) _function_decod[i][ 9][OPCOD_L_SYS      ] = &(instruction_l_sys            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_TRAP     ]) _function_decod[i][ 9][OPCOD_L_TRAP     ] = &(instruction_l_trap           );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_XOR      ]) _function_decod[i][ 3][OPCOD_L_XOR      ] = &(instruction_l_xor            );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_XORI     ]) _function_decod[i][ 0][OPCOD_L_XORI     ] = &(instruction_l_xori           );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ADD_D   ]) _function_decod[i][ 1][OPCOD_LF_ADD_D   ] = &(instruction_lf_add_d    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ADD_S   ]) _function_decod[i][ 1][OPCOD_LF_ADD_S   ] = &(instruction_lf_add_s    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_DIV_D   ]) _function_decod[i][ 1][OPCOD_LF_DIV_D   ] = &(instruction_lf_div_d    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_DIV_S   ]) _function_decod[i][ 1][OPCOD_LF_DIV_S   ] = &(instruction_lf_div_s    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_FTOI_D  ]) _function_decod[i][ 1][OPCOD_LF_FTOI_D  ] = &(instruction_lf_ftoi_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_FTOI_S  ]) _function_decod[i][ 1][OPCOD_LF_FTOI_S  ] = &(instruction_lf_ftoi_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ITOF_D  ]) _function_decod[i][ 1][OPCOD_LF_ITOF_D  ] = &(instruction_lf_itof_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_ITOF_S  ]) _function_decod[i][ 1][OPCOD_LF_ITOF_S  ] = &(instruction_lf_itof_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MADD_D  ]) _function_decod[i][ 1][OPCOD_LF_MADD_D  ] = &(instruction_lf_madd_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MADD_S  ]) _function_decod[i][ 1][OPCOD_LF_MADD_S  ] = &(instruction_lf_madd_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MUL_D   ]) _function_decod[i][ 1][OPCOD_LF_MUL_D   ] = &(instruction_lf_mul_d    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_MUL_S   ]) _function_decod[i][ 1][OPCOD_LF_MUL_S   ] = &(instruction_lf_mul_s    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_REM_D   ]) _function_decod[i][ 1][OPCOD_LF_REM_D   ] = &(instruction_lf_rem_d    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_REM_S   ]) _function_decod[i][ 1][OPCOD_LF_REM_S   ] = &(instruction_lf_rem_s    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFEQ_D  ]) _function_decod[i][ 1][OPCOD_LF_SFEQ_D  ] = &(instruction_lf_sfeq_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFEQ_S  ]) _function_decod[i][ 1][OPCOD_LF_SFEQ_S  ] = &(instruction_lf_sfeq_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFGE_D  ] = &(instruction_lf_sfge_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFGE_S  ] = &(instruction_lf_sfge_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGT_D  ]) _function_decod[i][ 1][OPCOD_LF_SFGT_D  ] = &(instruction_lf_sfgt_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFGT_S  ]) _function_decod[i][ 1][OPCOD_LF_SFGT_S  ] = &(instruction_lf_sfgt_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFLE_D  ] = &(instruction_lf_sfle_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFLE_S  ] = &(instruction_lf_sfle_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLT_D  ]) _function_decod[i][ 1][OPCOD_LF_SFLT_D  ] = &(instruction_lf_sflt_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFLT_S  ]) _function_decod[i][ 1][OPCOD_LF_SFLT_S  ] = &(instruction_lf_sflt_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFNE_D  ]) _function_decod[i][ 1][OPCOD_LF_SFNE_D  ] = &(instruction_lf_sfne_d   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SFNE_S  ]) _function_decod[i][ 1][OPCOD_LF_SFNE_S  ] = &(instruction_lf_sfne_s   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SUB_D   ]) _function_decod[i][ 1][OPCOD_LF_SUB_D   ] = &(instruction_lf_sub_d    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_SUB_S   ]) _function_decod[i][ 1][OPCOD_LF_SUB_S   ] = &(instruction_lf_sub_s    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADD_B   ]) _function_decod[i][ 2][OPCOD_LV_ADD_B   ] = &(instruction_lv_add_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADD_H   ]) _function_decod[i][ 2][OPCOD_LV_ADD_H   ] = &(instruction_lv_add_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDS_B  ]) _function_decod[i][ 2][OPCOD_LV_ADDS_B  ] = &(instruction_lv_adds_b   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDS_H  ]) _function_decod[i][ 2][OPCOD_LV_ADDS_H  ] = &(instruction_lv_adds_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDU_B  ]) _function_decod[i][ 2][OPCOD_LV_ADDU_B  ] = &(instruction_lv_addu_b   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDU_H  ]) _function_decod[i][ 2][OPCOD_LV_ADDU_H  ] = &(instruction_lv_addu_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDUS_B ]) _function_decod[i][ 2][OPCOD_LV_ADDUS_B ] = &(instruction_lv_addus_b  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ADDUS_H ]) _function_decod[i][ 2][OPCOD_LV_ADDUS_H ] = &(instruction_lv_addus_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_EQ_B]) _function_decod[i][ 2][OPCOD_LV_ALL_EQ_B] = &(instruction_lv_all_eq_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_EQ_H]) _function_decod[i][ 2][OPCOD_LV_ALL_EQ_H] = &(instruction_lv_all_eq_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_GE_B] = &(instruction_lv_all_ge_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_GE_H] = &(instruction_lv_all_ge_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GT_B]) _function_decod[i][ 2][OPCOD_LV_ALL_GT_B] = &(instruction_lv_all_gt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_GT_H]) _function_decod[i][ 2][OPCOD_LV_ALL_GT_H] = &(instruction_lv_all_gt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_LE_B] = &(instruction_lv_all_le_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_LE_H] = &(instruction_lv_all_le_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LT_B]) _function_decod[i][ 2][OPCOD_LV_ALL_LT_B] = &(instruction_lv_all_lt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_LT_H]) _function_decod[i][ 2][OPCOD_LV_ALL_LT_H] = &(instruction_lv_all_lt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_NE_B]) _function_decod[i][ 2][OPCOD_LV_ALL_NE_B] = &(instruction_lv_all_ne_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ALL_NE_H]) _function_decod[i][ 2][OPCOD_LV_ALL_NE_H] = &(instruction_lv_all_ne_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AND     ]) _function_decod[i][ 2][OPCOD_LV_AND     ] = &(instruction_lv_and           );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_EQ_B]) _function_decod[i][ 2][OPCOD_LV_ANY_EQ_B] = &(instruction_lv_any_eq_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_EQ_H]) _function_decod[i][ 2][OPCOD_LV_ANY_EQ_H] = &(instruction_lv_any_eq_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_GE_B] = &(instruction_lv_any_ge_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_GE_H] = &(instruction_lv_any_ge_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GT_B]) _function_decod[i][ 2][OPCOD_LV_ANY_GT_B] = &(instruction_lv_any_gt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_GT_H]) _function_decod[i][ 2][OPCOD_LV_ANY_GT_H] = &(instruction_lv_any_gt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_LE_B] = &(instruction_lv_any_le_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_LE_H] = &(instruction_lv_any_le_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LT_B]) _function_decod[i][ 2][OPCOD_LV_ANY_LT_B] = &(instruction_lv_any_lt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_LT_H]) _function_decod[i][ 2][OPCOD_LV_ANY_LT_H] = &(instruction_lv_any_lt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_NE_B]) _function_decod[i][ 2][OPCOD_LV_ANY_NE_B] = &(instruction_lv_any_ne_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_ANY_NE_H]) _function_decod[i][ 2][OPCOD_LV_ANY_NE_H] = &(instruction_lv_any_ne_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AVG_B   ]) _function_decod[i][ 2][OPCOD_LV_AVG_B   ] = &(instruction_lv_avg_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_AVG_H   ]) _function_decod[i][ 2][OPCOD_LV_AVG_H   ] = &(instruction_lv_avg_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_EQ_B]) _function_decod[i][ 2][OPCOD_LV_CMP_EQ_B] = &(instruction_lv_cmp_eq_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_EQ_H]) _function_decod[i][ 2][OPCOD_LV_CMP_EQ_H] = &(instruction_lv_cmp_eq_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_GE_B] = &(instruction_lv_cmp_ge_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_GE_H] = &(instruction_lv_cmp_ge_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GT_B]) _function_decod[i][ 2][OPCOD_LV_CMP_GT_B] = &(instruction_lv_cmp_gt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_GT_H]) _function_decod[i][ 2][OPCOD_LV_CMP_GT_H] = &(instruction_lv_cmp_gt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_LE_B] = &(instruction_lv_cmp_le_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_LE_H] = &(instruction_lv_cmp_le_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LT_B]) _function_decod[i][ 2][OPCOD_LV_CMP_LT_B] = &(instruction_lv_cmp_lt_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_LT_H]) _function_decod[i][ 2][OPCOD_LV_CMP_LT_H] = &(instruction_lv_cmp_lt_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_NE_B]) _function_decod[i][ 2][OPCOD_LV_CMP_NE_B] = &(instruction_lv_cmp_ne_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CMP_NE_H]) _function_decod[i][ 2][OPCOD_LV_CMP_NE_H] = &(instruction_lv_cmp_ne_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MADDS_H ]) _function_decod[i][ 2][OPCOD_LV_MADDS_H ] = &(instruction_lv_madds_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MAX_B   ]) _function_decod[i][ 2][OPCOD_LV_MAX_B   ] = &(instruction_lv_max_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MAX_H   ]) _function_decod[i][ 2][OPCOD_LV_MAX_H   ] = &(instruction_lv_max_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MERGE_B ]) _function_decod[i][ 2][OPCOD_LV_MERGE_B ] = &(instruction_lv_merge_b  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MERGE_H ]) _function_decod[i][ 2][OPCOD_LV_MERGE_H ] = &(instruction_lv_merge_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MIN_B   ]) _function_decod[i][ 2][OPCOD_LV_MIN_B   ] = &(instruction_lv_min_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MIN_H   ]) _function_decod[i][ 2][OPCOD_LV_MIN_H   ] = &(instruction_lv_min_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MSUBS_H ]) _function_decod[i][ 2][OPCOD_LV_MSUBS_H ] = &(instruction_lv_msubs_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_MULS_H  ]) _function_decod[i][ 2][OPCOD_LV_MULS_H  ] = &(instruction_lv_muls_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_NAND    ]) _function_decod[i][ 2][OPCOD_LV_NAND    ] = &(instruction_lv_nand          );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_NOR     ]) _function_decod[i][ 2][OPCOD_LV_NOR     ] = &(instruction_lv_nor           );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_OR      ]) _function_decod[i][ 2][OPCOD_LV_OR      ] = &(instruction_lv_or            );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACK_B  ]) _function_decod[i][ 2][OPCOD_LV_PACK_B  ] = &(instruction_lv_pack_b   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACK_H  ]) _function_decod[i][ 2][OPCOD_LV_PACK_H  ] = &(instruction_lv_pack_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKS_B ]) _function_decod[i][ 2][OPCOD_LV_PACKS_B ] = &(instruction_lv_packs_b  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKS_H ]) _function_decod[i][ 2][OPCOD_LV_PACKS_H ] = &(instruction_lv_packs_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKUS_B]) _function_decod[i][ 2][OPCOD_LV_PACKUS_B] = &(instruction_lv_packus_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PACKUS_H]) _function_decod[i][ 2][OPCOD_LV_PACKUS_H] = &(instruction_lv_packus_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_PERM_N  ]) _function_decod[i][ 2][OPCOD_LV_PERM_N  ] = &(instruction_lv_perm_n   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_RL_B    ]) _function_decod[i][ 2][OPCOD_LV_RL_B    ] = &(instruction_lv_rl_b          );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_RL_H    ]) _function_decod[i][ 2][OPCOD_LV_RL_H    ] = &(instruction_lv_rl_h          );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL     ]) _function_decod[i][ 2][OPCOD_LV_SLL     ] = &(instruction_lv_sll           );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL_B   ]) _function_decod[i][ 2][OPCOD_LV_SLL_B   ] = &(instruction_lv_sll_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SLL_H   ]) _function_decod[i][ 2][OPCOD_LV_SLL_H   ] = &(instruction_lv_sll_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRA_B   ]) _function_decod[i][ 2][OPCOD_LV_SRA_B   ] = &(instruction_lv_sra_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRA_H   ]) _function_decod[i][ 2][OPCOD_LV_SRA_H   ] = &(instruction_lv_sra_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL     ]) _function_decod[i][ 2][OPCOD_LV_SRL     ] = &(instruction_lv_srl           );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL_B   ]) _function_decod[i][ 2][OPCOD_LV_SRL_B   ] = &(instruction_lv_srl_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SRL_H   ]) _function_decod[i][ 2][OPCOD_LV_SRL_H   ] = &(instruction_lv_srl_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUB_B   ]) _function_decod[i][ 2][OPCOD_LV_SUB_B   ] = &(instruction_lv_sub_b    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUB_H   ]) _function_decod[i][ 2][OPCOD_LV_SUB_H   ] = &(instruction_lv_sub_h    );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBS_B  ]) _function_decod[i][ 2][OPCOD_LV_SUBS_B  ] = &(instruction_lv_subs_b   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBS_H  ]) _function_decod[i][ 2][OPCOD_LV_SUBS_H  ] = &(instruction_lv_subs_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBU_B  ]) _function_decod[i][ 2][OPCOD_LV_SUBU_B  ] = &(instruction_lv_subu_b   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBU_H  ]) _function_decod[i][ 2][OPCOD_LV_SUBU_H  ] = &(instruction_lv_subu_h   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBUS_B ]) _function_decod[i][ 2][OPCOD_LV_SUBUS_B ] = &(instruction_lv_subus_b  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_SUBUS_H ]) _function_decod[i][ 2][OPCOD_LV_SUBUS_H ] = &(instruction_lv_subus_h  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_UNPACK_B]) _function_decod[i][ 2][OPCOD_LV_UNPACK_B] = &(instruction_lv_unpack_b );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_UNPACK_H]) _function_decod[i][ 2][OPCOD_LV_UNPACK_H] = &(instruction_lv_unpack_h );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_XOR     ]) _function_decod[i][ 2][OPCOD_LV_XOR     ] = &(instruction_lv_xor      );
+        // Custom Instruction
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST1    ]) _function_decod [i][ 0][OPCOD_L_CUST1    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST2    ]) _function_decod [i][ 0][OPCOD_L_CUST2    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST3    ]) _function_decod [i][ 0][OPCOD_L_CUST3    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST4    ]) _function_decod [i][ 0][OPCOD_L_CUST4    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST5    ]) _function_decod [i][ 0][OPCOD_L_CUST5    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST6    ]) _function_decod [i][ 0][OPCOD_L_CUST6    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST7    ]) _function_decod [i][ 0][OPCOD_L_CUST7    ] = &(instruction_l_custom );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST8    ]) _function_decod [i][ 0][OPCOD_L_CUST8    ] = &(instruction_l_custom );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_D ]) _function_decod [i][ 1][OPCOD_LF_CUST1_D ] = &(instruction_lf_custom);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_S ]) _function_decod [i][ 1][OPCOD_LF_CUST1_S ] = &(instruction_lf_custom);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST1   ]) _function_decod [i][ 2][OPCOD_LV_CUST1   ] = &(instruction_lv_custom);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST2   ]) _function_decod [i][ 2][OPCOD_LV_CUST2   ] = &(instruction_lv_custom);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST3   ]) _function_decod [i][ 2][OPCOD_LV_CUST3   ] = &(instruction_lv_custom);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST4   ]) _function_decod [i][ 2][OPCOD_LV_CUST4   ] = &(instruction_lv_custom);
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST1    ]) _function_custom[i][ 0][OPCOD_L_CUST1    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_1   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST2    ]) _function_custom[i][ 0][OPCOD_L_CUST2    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_2   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST3    ]) _function_custom[i][ 0][OPCOD_L_CUST3    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_3   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST4    ]) _function_custom[i][ 0][OPCOD_L_CUST4    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_4   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST5    ]) _function_custom[i][ 0][OPCOD_L_CUST5    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_5   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST6    ]) _function_custom[i][ 0][OPCOD_L_CUST6    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_6   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST7    ]) _function_custom[i][ 0][OPCOD_L_CUST7    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_7   );
+        if (_param->_instruction_implemeted[i][INSTRUCTION_L_CUST8    ]) _function_custom[i][ 0][OPCOD_L_CUST8    ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_L_8   );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_D ]) _function_custom[i][ 1][OPCOD_LF_CUST1_D ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LF_1_D);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LF_CUST1_S ]) _function_custom[i][ 1][OPCOD_LF_CUST1_S ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LF_1_S);
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST1   ]) _function_custom[i][ 2][OPCOD_LV_CUST1   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_1  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST2   ]) _function_custom[i][ 2][OPCOD_LV_CUST2   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_2  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST3   ]) _function_custom[i][ 2][OPCOD_LV_CUST3   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_3  );
+//      if (_param->_instruction_implemeted[i][INSTRUCTION_LV_CUST4   ]) _function_custom[i][ 2][OPCOD_LV_CUST4   ] = _param->_get_custom_information()._get_custom_decod(OPERATION_CUSTOM_LV_4  );
+      }
 …
     for (uint32_t i=0; i<_param->_nb_context; i++)
       _decod_param [i] = new decod_param_t (_param->_size_general_data,
                                             _function_decod [i],
                                             _function_custom[i]);
+                                            _function_decod [i],
+                                            _function_custom[i]);
 #ifdef POSITION

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

r88	r101
79	79
80	80	DELETE1_SIGNAL(in_CONTEXT_DECOD_ENABLE, _param->_nb_context,1);
	81	DELETE1_SIGNAL(in_CONTEXT_DEPTH_VAL , _param->_nb_context,1);
81	82	DELETE1_SIGNAL(in_CONTEXT_DEPTH , _param->_nb_context,_param->_size_depth);
82	83

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

-                      r88
+                      r101
+              {
                 log_printf(TRACE,Decod,FUNCTION,"  * IFETCH [%d][%d]",x,y);
+                log_printf(TRACE,Decod,FUNCTION,"    * decod_ack [%d] : %d",i,PORT_READ(in_DECOD_ACK [i]));
                 can_continue [x] = can_continue_next [x];
 …
                 PORT_WRITE(out_DECOD_READ_RC       [i], _decod_instruction->_read_rc       );
                 PORT_WRITE(out_DECOD_NUM_REG_RC    [i], _decod_instruction->_num_reg_rc    );
                 PORT_WRITE(out_DECOD_WRITE_RD      [i], _decod_instruction->_write_rd      );
+                PORT_WRITE(out_DECOD_WRITE_RD      [i],(_decod_instruction->_num_reg_rd!=0)?_decod_instruction->_write_rd:0);
                 PORT_WRITE(out_DECOD_NUM_REG_RD    [i], _decod_instruction->_num_reg_rd    );
                 PORT_WRITE(out_DECOD_WRITE_RE      [i], _decod_instruction->_write_re      );
 …
 //              PORT_WRITE(out_DECOD_EXCEPTION     [i], _decod_instruction->_exception     );
+                // Branch predictor can accept : the depth is valid
+                log_printf(TRACE,Decod,FUNCTION,"    * context_depth_val : %d",PORT_READ(in_CONTEXT_DEPTH_VAL [x]));
+                decod_val   [i]    &= PORT_READ(in_CONTEXT_DEPTH_VAL [x]);
+                ifetch_ack  [x][y] &= PORT_READ(in_CONTEXT_DEPTH_VAL [x]);
                 if (type == TYPE_BRANCH)
+                  {
                     log_printf(TRACE,Decod,FUNCTION,"    * type is branch");
+                    log_printf(TRACE,Decod,FUNCTION,"      * predict_ack  : %d",PORT_READ(in_PREDICT_ACK [i]));
                     log_printf(TRACE,Decod,FUNCTION,"      * address src  : %.8x (%.8x)",_decod_instruction->_address     ,_decod_instruction->_address     <<2);
                     log_printf(TRACE,Decod,FUNCTION,"      * address dest : %.8x (%.8x)",_decod_instruction->_address_next,_decod_instruction->_address_next<<2);
 …
                     predict_val [i]     = ifetch_ack  [x][y] // and decod_val [i]
+                      ;
                     decod_val   [i]    &= PORT_READ(in_PREDICT_ACK [i]);// predict_ack and fetch_val and decod_enable
                     ifetch_ack  [x][y] &= PORT_READ(in_PREDICT_ACK [i]);// predict_ack and fetch_val and decod_enable and decod_ack
+                    decod_val   [i]    &= PORT_READ(in_PREDICT_ACK [i]);// predict_ack and fetch_val and decod_enable
+                    ifetch_ack  [x][y] &= PORT_READ(in_PREDICT_ACK [i]);// predict_ack and fetch_val and decod_enable and decod_ack
                     if (_param->_have_port_context_id)
                     PORT_WRITE(out_PREDICT_CONTEXT_ID                  [i],x);

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

-                      r88
+                      r101
   ALLOC1_SC_SIGNAL( in_DEPTH_MIN               ," in_DEPTH_MIN              ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_DEPTH_MAX               ," in_DEPTH_MAX              ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_DEPTH_FULL              ," in_DEPTH_FULL             ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_NB_INST_ALL             ,"out_NB_INST_ALL            ",Tcounter_t         ,_param->_nb_context);
 …
   INSTANCE1_SC_SIGNAL(_Decod_queue,out_DECOD_OUT_EXCEPTION     ,_param->_nb_inst_decod);
   for (uint32_t i=0; i<_param->_nb_context; ++i)
     if (_param->_have_port_depth)
       INSTANCE_SC_SIGNAL(_Decod_queue, in_DEPTH_MIN  [i]);
+  if (_param->_have_port_depth)
+    {
+  INSTANCE1_SC_SIGNAL(_Decod_queue, in_DEPTH_MIN               ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Decod_queue, in_DEPTH_MAX               ,_param->_nb_context);
+    }
+  INSTANCE1_SC_SIGNAL(_Decod_queue, in_DEPTH_FULL              ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Decod_queue,out_NB_INST_ALL             ,_param->_nb_context);
   msg(_("<%s> : Start Simulation ............\n"),name.c_str());
 …
   DELETE1_SC_SIGNAL( in_DEPTH_MIN               ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DEPTH_MAX               ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_DEPTH_FULL              ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_NB_INST_ALL             ,_param->_nb_context);

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

r88	r101
119	119	public : SC_IN (Tdepth_t ) ** in_DEPTH_MIN ;//[nb_context]
120	120	public : SC_IN (Tdepth_t ) ** in_DEPTH_MAX ;//[nb_context]
	121	public : SC_IN (Tcontrol_t ) ** in_DEPTH_FULL ;//[nb_context]
121	122
122	123	// ~~~~~[ Interface : "nb_inst" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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

r88	r101
107	107	{
108	108	if (_param->_have_port_depth)
	109	{
109	110	sensitive << (*(in_DEPTH_MIN [i]));
110	111	sensitive << (*(in_DEPTH_MAX [i]));
	112	}
	113	sensitive << (*(in_DEPTH_FULL[i]));
111	114	}
112	115
…	…
119	122	{
120	123	if (_param->_have_port_depth)
	124	{
121	125	((out_DECOD_OUT_VAL [i])) ((in_DEPTH_MIN [j]));
122	126	((out_DECOD_OUT_VAL [i])) ((in_DEPTH_MAX [j]));
	127	}
123	128	}
124	129	}

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

-                      r95
+                      r101
       ALLOC1_INTERFACE("depth",IN ,NORTH,"Depth", _param->_nb_context);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MIN      ,"min"      ,Tdepth_t           ,_param->_size_depth  );
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MAX      ,"max"      ,Tdepth_t           ,_param->_size_depth+1);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MIN      ,"min"      ,Tdepth_t           ,_param->_size_depth);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MAX      ,"max"      ,Tdepth_t           ,_param->_size_depth);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_FULL     ,"full"     ,Tcontrol_t         ,1);
+    }

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

-                      r88
+                      r101
         DELETE1_SIGNAL(out_DECOD_OUT_EXCEPTION     ,_param->_nb_inst_decod,_param->_size_exception             );
+        DELETE1_SIGNAL( in_DEPTH_MIN               ,_param->_nb_context,_param->_size_depth  );
+        DELETE1_SIGNAL( in_DEPTH_MAX               ,_param->_nb_context,_param->_size_depth+1);
+        DELETE1_SIGNAL( in_DEPTH_MIN               ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_MAX               ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_FULL              ,_param->_nb_context,1);
         DELETE1_SIGNAL(out_NB_INST_ALL             ,_param->_nb_context,_param->_size_nb_inst_decod);

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

-                      r88
+                      r101
             Tdepth_t   depth           = reg_QUEUE->front()->_depth         [i];
             Tdepth_t   depth_min       = (_param->_have_port_depth)?PORT_READ(in_DEPTH_MIN [context]):0;
+            Tdepth_t   depth_max       = PORT_READ(in_DEPTH_MAX[context]);
+            Tdepth_t   depth_max       = (_param->_have_port_depth)?PORT_READ(in_DEPTH_MAX [context]):0;
+            Tcontrol_t depth_full      = PORT_READ(in_DEPTH_FULL[context]);
             // is a valid instruction ?
             // If DEPTH_CURRENT :
             // equal at     DEPTH_MIN            -> not speculative
             // not include ]DEPTH_MIN:DEPTH_MAX[ -> previous branch miss
             //     include ]DEPTH_MIN:DEPTH_MAX[ -> speculative
+            // not include ]DEPTH_MIN:DEPTH_MAX] -> previous branch miss
+            //     include ]DEPTH_MIN:DEPTH_MAX] -> speculative
             // All case
 …
             // ....... max ...X... min ....... KO
+            Tcontrol_t is_valid        = ((depth == depth_min) or
+                                          ((depth_min < depth_max)?
+                                           (depth<depth_max):
+                                           ((depth > depth_min) or (depth < depth_max))));
+            Tcontrol_t   is_valid      = ((depth == depth_min) or
+                                          depth_full or
+                                          ((depth_min <= depth_max)?
+                                           ((depth >= depth_min) and (depth <=depth_max)):
+                                           ((depth >= depth_min) or  (depth <=depth_max))));
+//          Tcontrol_t is_valid        = ((depth == depth_min) or
+//                                           ((depth_min < depth_max)?
+//                                            (depth<=depth_max):
+//                                            ((depth > depth_min) or (depth <= depth_max))));
 //          Tcontrol_t is_valid        = depth <= depth_max;
+            log_printf(TRACE,Decod_queue,FUNCTION,_("    * is_valid : %d"),is_valid);
+            log_printf(TRACE,Decod_queue,FUNCTION,"    * is_valid : %d",is_valid);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * context   : %d",context);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * depth     : %d",depth);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * depth_min : %d",depth_min);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * depth_max : %d",depth_max);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * depth_full: %d",depth_full);
+            log_printf(TRACE,Decod_queue,FUNCTION,"      * address   : 0x%x (0x%x)",reg_QUEUE->front()->_address[i],reg_QUEUE->front()->_address[i]<<2);
             internal_DECOD_OUT_VAL [i] = 1; // in all case, val is set (entry is not empty, and instruction is valid)
             if (is_valid)
 …
     for (uint32_t i=0; i<_param->_nb_inst_decod; i++)
+      {
         log_printf(TRACE,Decod_queue,FUNCTION,_("  * DECOD_OUT_VAL : %d"),val [i]);
+        log_printf(TRACE,Decod_queue,FUNCTION,"  * DECOD_OUT_VAL : %d",val [i]);
         PORT_WRITE(out_DECOD_OUT_VAL [i],val [i]);

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

-                      r88
+                      r101
+          {
             if ((*it)->_val [i])
               log_printf(TRACE,Decod_queue,FUNCTION,"      * [%d] %d, %d %d, %d %d %d %d, 0x%x, %d 0x%x, %d %d, %d %d, %d %d, %d %d, %d %d, %d %d"
+              log_printf(TRACE,Decod_queue,FUNCTION,"      * [%.4d] %.1d, %.3d %.2d, %.2d %.3d %.1d %.1d, 0x%.8x (0x%.8x), %.1d 0x%.8x, %.1d %.2d, %.1d %.2d, %.1d %.2d, %.1d %.2d, %.1d %.2d, %.1d %.2d"
                          ,i
                          ,(*it)->_val           [i]
 …
                          ,(*it)->_is_delay_slot [i]
                          ,(*it)->_address       [i]
+                         ,(*it)->_address       [i]<<2
                          ,(*it)->_has_immediat  [i]
                          ,(*it)->_immediat      [i]

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

-                      r88
+                      r101
   ALLOC1_SC_SIGNAL( in_DEPTH_MIN                          ," in_DEPTH_MIN                          ",Tdepth_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_DEPTH_MAX                          ," in_DEPTH_MAX                          ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_DEPTH_FULL                         ," in_DEPTH_FULL                         ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_NB_INST_DECOD_ALL                  ,"out_NB_INST_DECOD_ALL                  ",Tcounter_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_CONTEXT_DECOD_ENABLE               ," in_CONTEXT_DECOD_ENABLE               ",Tcontrol_t         ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_CONTEXT_DEPTH_VAL                  ," in_CONTEXT_DEPTH_VAL                  ",Tcontrol_t         ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_CONTEXT_DEPTH                      ," in_CONTEXT_DEPTH                      ",Tdepth_t           ,_param->_nb_context);
 …
 //INSTANCE1_SC_SIGNAL(_Decod_unit, in_PREDICT_CAN_CONTINUE               ,_param->_nb_inst_decod);
+  if (_param->_have_port_depth)
+    {
+  INSTANCE1_SC_SIGNAL(_Decod_unit, in_DEPTH_MIN                          ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Decod_unit, in_DEPTH_MAX                          ,_param->_nb_context);
+    }
+  INSTANCE1_SC_SIGNAL(_Decod_unit, in_DEPTH_FULL                         ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Decod_unit,out_NB_INST_DECOD_ALL                  ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Decod_unit, in_CONTEXT_DECOD_ENABLE               ,_param->_nb_context);
+  for (uint32_t i=0; i<_param->_nb_context; ++i)
+    if (_param->_have_port_depth)
+      {
+        INSTANCE_SC_SIGNAL(_Decod_unit, in_DEPTH_MIN     [i]);
+        INSTANCE_SC_SIGNAL(_Decod_unit, in_CONTEXT_DEPTH [i]);
+      }
+  INSTANCE1_SC_SIGNAL(_Decod_unit, in_CONTEXT_DEPTH_VAL                  ,_param->_nb_context);
+  if (_param->_have_port_depth)
+  INSTANCE1_SC_SIGNAL(_Decod_unit, in_CONTEXT_DEPTH                      ,_param->_nb_context);
   INSTANCE_SC_SIGNAL( _Decod_unit,out_CONTEXT_EVENT_VAL                  );
 …
   SC_START(5);
   in_NRESET->write(1);
+  for (uint32_t i=0; i<_param->_nb_context; i++)
+    in_CONTEXT_DEPTH_VAL [i]->write(1);
   LABEL("Loop of Test");
 …
   DELETE1_SC_SIGNAL( in_DEPTH_MIN                          ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DEPTH_MAX                          ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_DEPTH_FULL                         ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_NB_INST_DECOD_ALL                  ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_CONTEXT_DECOD_ENABLE               ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_CONTEXT_DEPTH_VAL                  ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_CONTEXT_DEPTH                      ,_param->_nb_context);

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

-                      r88
+                      r101
   public    : SC_IN (Tdepth_t           )  **  in_DEPTH_MIN                          ;//[nb_context]
   public    : SC_IN (Tdepth_t           )  **  in_DEPTH_MAX                          ;//[nb_context]
+  public    : SC_IN (Tcontrol_t         )  **  in_DEPTH_FULL                         ;//[nb_context]
     // ~~~~~[ Interface : "nb_inst" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
     // ~~~~~[ Interface : "context" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   public    : SC_IN (Tcontrol_t         )  **  in_CONTEXT_DECOD_ENABLE               ;//[nb_context]
+  public    : SC_IN (Tcontrol_t         )  **  in_CONTEXT_DEPTH_VAL                  ;//[nb_context]
   public    : SC_IN (Tdepth_t           )  **  in_CONTEXT_DEPTH                      ;//[nb_context]

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

-                      r88
+                      r101
       ALLOC1_INTERFACE("depth",IN ,NORTH,"Depth", _param->_nb_context);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MIN      ,"min"      ,Tdepth_t           ,_param->_size_depth  );
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MAX      ,"max"      ,Tdepth_t           ,_param->_size_depth+1);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MIN      ,"min"      ,Tdepth_t           ,_param->_size_depth);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_MAX      ,"max"      ,Tdepth_t           ,_param->_size_depth);
+      ALLOC1_SIGNAL_IN ( in_DEPTH_FULL     ,"full"     ,Tcontrol_t         ,1);
+    }
 …
       ALLOC1_SIGNAL_IN (in_CONTEXT_DECOD_ENABLE,"decod_enable",Tcontrol_t,1);
+      ALLOC1_SIGNAL_IN (in_CONTEXT_DEPTH_VAL   ,"depth_val"   ,Tcontrol_t,1);
       ALLOC1_SIGNAL_IN (in_CONTEXT_DEPTH       ,"depth"       ,Tdepth_t  ,_param->_size_depth);
+    }
 …
 #ifdef POSITION
           _component->interface_map (src ,"context"+toString(i),
                                      dest,"context"+toString(i));
+          _component->interface_map (src ,"context_"+toString(i),
+                                     dest,"context_"+toString(i));
 #endif
           PORT_MAP(_component,src , "in_CONTEXT_"+toString(i)+"_DECOD_ENABLE",
                               dest, "in_CONTEXT_"+toString(i)+"_DECOD_ENABLE");
+          PORT_MAP(_component,src , "in_CONTEXT_"+toString(i)+"_DEPTH_VAL"   ,
+                              dest, "in_CONTEXT_"+toString(i)+"_DEPTH_VAL"   );
           if (_param->_have_port_depth)
           PORT_MAP(_component,src , "in_CONTEXT_"+toString(i)+"_DEPTH"       ,
 …
           if (_param->_have_port_depth)
+            {
           PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_MIN",
                               dest, "in_DEPTH_"+toString(i)+"_MIN");
           PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_MAX",
                               dest, "in_DEPTH_"+toString(i)+"_MAX");
+            }
+          PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_FULL",
+                              dest, "in_DEPTH_"+toString(i)+"_FULL");
+        }

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

-                      r88
+                      r101
 //      DELETE1_SIGNAL( in_PREDICT_CAN_CONTINUE               ,_param->_nb_inst_decod,1                             );
+        DELETE1_SIGNAL( in_DEPTH_MIN                          ,_param->_nb_context,_param->_size_depth  );
+        DELETE1_SIGNAL( in_DEPTH_MAX                          ,_param->_nb_context,_param->_size_depth+1);
+        DELETE1_SIGNAL( in_DEPTH_MIN                          ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_MAX                          ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_FULL                         ,_param->_nb_context,1);
         DELETE1_SIGNAL(out_NB_INST_DECOD_ALL                  ,_param->_nb_context,_param->_size_nb_inst_decod);

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

-                      r97
+                      r101
   ALLOC1_SC_SIGNAL(out_DEPTH_MIN                                      ,"out_DEPTH_MIN                                      ",Tdepth_t  ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_MAX                                      ,"out_DEPTH_MAX                                      ",Tdepth_t  ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_FULL                                     ,"out_DEPTH_FULL                                     ",Tcontrol_t,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_VAL                      ," in_DEPTH_PREDICTION_UNIT_VAL                      ",Tcontrol_t,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_CURRENT                  ," in_DEPTH_PREDICTION_UNIT_CURRENT                  ",Tdepth_t  ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_MIN                      ," in_DEPTH_PREDICTION_UNIT_MIN                      ",Tdepth_t  ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_MAX                      ," in_DEPTH_PREDICTION_UNIT_MAX                      ",Tdepth_t  ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_FULL                     ," in_DEPTH_PREDICTION_UNIT_FULL                     ",Tcontrol_t,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_CONTEXT_STATE_MIN                        ,"out_DEPTH_CONTEXT_STATE_MIN                        ",Tdepth_t  ,_param->_nb_context);
   ALLOC2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_MIN                           ,"out_DEPTH_DECOD_UNIT_MIN                           ",Tdepth_t  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
   ALLOC2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_MAX                           ,"out_DEPTH_DECOD_UNIT_MAX                           ",Tdepth_t  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  ALLOC2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_FULL                          ,"out_DEPTH_DECOD_UNIT_FULL                          ",Tcontrol_t,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  ALLOC2_SC_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH_VAL                   ,"out_CONTEXT_DECOD_UNIT_DEPTH_VAL                   ",Tcontrol_t,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
   ALLOC2_SC_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH                       ,"out_CONTEXT_DECOD_UNIT_DEPTH                       ",Tdepth_t  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
 …
   INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_EVENT_CONTEXT_STATE_DEPTH                        ,_param->_nb_context);
+  for (uint32_t i=0; i<_param->_nb_context; ++i)
+    if (_param->_have_port_depth)
+      {
+        INSTANCE_SC_SIGNAL(_Front_end_Glue,out_DEPTH_MIN                     [i]);
+        INSTANCE_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_CURRENT [i]);
+        INSTANCE_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_MIN     [i]);
+        INSTANCE_SC_SIGNAL(_Front_end_Glue,out_DEPTH_CONTEXT_STATE_MIN       [i]);
+      }
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_VAL                        ,_param->_nb_context);
+  if (_param->_have_port_depth)
+    {
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue,out_DEPTH_MIN                                        ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_CURRENT                    ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_MIN                        ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue,out_DEPTH_CONTEXT_STATE_MIN                          ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Front_end_Glue,out_DEPTH_MAX                                        ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_MAX                        ,_param->_nb_context);
   INSTANCE2_SC_SIGNAL(_Front_end_Glue,out_DEPTH_DECOD_UNIT_MAX                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+    }
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue,out_DEPTH_FULL                                       ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Front_end_Glue, in_DEPTH_PREDICTION_UNIT_FULL                       ,_param->_nb_context);
+  INSTANCE2_SC_SIGNAL(_Front_end_Glue,out_DEPTH_DECOD_UNIT_FULL                            ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  INSTANCE2_SC_SIGNAL(_Front_end_Glue,out_CONTEXT_DECOD_UNIT_DEPTH_VAL                     ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
   for (uint32_t i=0; i<_param->_nb_decod_unit; ++i)
     for (uint32_t j=0; j<_param->_decod_unit_nb_context [i]; ++j)
 …
   DELETE1_SC_SIGNAL(out_DEPTH_MIN                                        ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_MAX                                        ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_DEPTH_FULL                                       ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_VAL                        ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_CURRENT                    ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_MIN                        ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_MAX                        ,_param->_nb_context);
+  DELETE1_SC_SIGNAL( in_DEPTH_PREDICTION_UNIT_FULL                       ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_CONTEXT_STATE_MIN                          ,_param->_nb_context);
+  DELETE2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_MIN                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
   DELETE2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_MAX                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  DELETE2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_MIN                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  DELETE2_SC_SIGNAL(out_DEPTH_DECOD_UNIT_FULL                            ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+  DELETE2_SC_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH_VAL                     ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
   DELETE2_SC_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH                         ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+    }

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

-                      r97
+                      r101
   public    : SC_OUT(Tdepth_t             )  ** out_DEPTH_MIN                                         ;//[nb_context]
   public    : SC_OUT(Tdepth_t             )  ** out_DEPTH_MAX                                         ;//[nb_context]
+  public    : SC_OUT(Tcontrol_t           )  ** out_DEPTH_FULL                                        ;//[nb_context]
+  public    : SC_IN (Tcontrol_t           )  **  in_DEPTH_PREDICTION_UNIT_VAL                         ;//[nb_context]
   public    : SC_IN (Tdepth_t             )  **  in_DEPTH_PREDICTION_UNIT_CURRENT                     ;//[nb_context]
   public    : SC_IN (Tdepth_t             )  **  in_DEPTH_PREDICTION_UNIT_MIN                         ;//[nb_context]
   public    : SC_IN (Tdepth_t             )  **  in_DEPTH_PREDICTION_UNIT_MAX                         ;//[nb_context]
+  public    : SC_IN (Tcontrol_t           )  **  in_DEPTH_PREDICTION_UNIT_FULL                        ;//[nb_context]
 //public    : SC_OUT(Tdepth_t             ) *** out_DEPTH_DECOD_UNIT_CURRENT                          ;//[nb_decod_unit][nb_decod_unit_context]
   public    : SC_OUT(Tdepth_t             ) *** out_DEPTH_DECOD_UNIT_MIN                              ;//[nb_decod_unit][nb_decod_unit_context]
   public    : SC_OUT(Tdepth_t             ) *** out_DEPTH_DECOD_UNIT_MAX                              ;//[nb_decod_unit][nb_decod_unit_context]
+  public    : SC_OUT(Tcontrol_t           ) *** out_DEPTH_DECOD_UNIT_FULL                             ;//[nb_decod_unit][nb_decod_unit_context]
   public    : SC_OUT(Tdepth_t             )  ** out_DEPTH_CONTEXT_STATE_MIN                           ;//[nb_context]
     // ~~~~~[ Interface : "context" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  public    : SC_OUT(Tcontrol_t           ) *** out_CONTEXT_DECOD_UNIT_DEPTH_VAL                      ;//[nb_decod_unit][nb_decod_unit_context]
   public    : SC_OUT(Tdepth_t             ) *** out_CONTEXT_DECOD_UNIT_DEPTH                          ;//[nb_decod_unit][nb_decod_unit_context]

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

-                      r97
+                      r101
             if (_param->_have_port_depth)
             sensitive << (*( in_DEPTH_PREDICTION_UNIT_CURRENT [i]))
+                      << (*( in_DEPTH_PREDICTION_UNIT_MIN     [i]));
+            sensitive << (*( in_DEPTH_PREDICTION_UNIT_MAX     [i]));
+                      << (*( in_DEPTH_PREDICTION_UNIT_MIN     [i]))
+                      << (*( in_DEPTH_PREDICTION_UNIT_MAX     [i]));
+            sensitive << (*( in_DEPTH_PREDICTION_UNIT_VAL     [i]))
+                      << (*( in_DEPTH_PREDICTION_UNIT_FULL    [i]));
+          }

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

-                      r97
+                      r101
 //    ALLOC1_SIGNAL_OUT (out_DEPTH_CURRENT                                     ,"CURRENT"                       ,Tdepth_t             ,_param->_size_depth  );
       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);
+      ALLOC1_SIGNAL_OUT (out_DEPTH_MAX                                         ,"MAX"                           ,Tdepth_t             ,_param->_size_depth  );
+      ALLOC1_SIGNAL_OUT (out_DEPTH_FULL                                        ,"FULL"                          ,Tcontrol_t           ,1);
+      ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_VAL                         ,"PREDICTION_UNIT_VAL"           ,Tcontrol_t           ,1);
       ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_CURRENT                     ,"PREDICTION_UNIT_CURRENT"       ,Tdepth_t             ,_param->_size_depth  );
       ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_MIN                         ,"PREDICTION_UNIT_MIN"           ,Tdepth_t             ,_param->_size_depth  );
+      ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_MAX                         ,"PREDICTION_UNIT_MAX"           ,Tdepth_t             ,_param->_size_depth+1);
+      ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_MAX                         ,"PREDICTION_UNIT_MAX"           ,Tdepth_t             ,_param->_size_depth  );
+      ALLOC1_SIGNAL_IN  ( in_DEPTH_PREDICTION_UNIT_FULL                        ,"PREDICTION_UNIT_FULL"          ,Tcontrol_t           ,1);
       ALLOC1_SIGNAL_OUT (out_DEPTH_CONTEXT_STATE_MIN                           ,"CONTEXT_STATE_MIN"             ,Tdepth_t             ,_param->_size_depth  );
 …
 //    _ALLOC2_SIGNAL_OUT(out_DEPTH_DECOD_UNIT_CURRENT                          ,"DECOD_UNIT_CURRENT"            ,Tdepth_t             ,_param->_size_depth  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
       _ALLOC2_SIGNAL_OUT(out_DEPTH_DECOD_UNIT_MIN                              ,"DECOD_UNIT_MIN"                ,Tdepth_t             ,_param->_size_depth  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+      _ALLOC2_SIGNAL_OUT(out_DEPTH_DECOD_UNIT_MAX                              ,"DECOD_UNIT_MAX"                ,Tdepth_t             ,_param->_size_depth+1,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+      _ALLOC2_SIGNAL_OUT(out_DEPTH_DECOD_UNIT_MAX                              ,"DECOD_UNIT_MAX"                ,Tdepth_t             ,_param->_size_depth  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+      _ALLOC2_SIGNAL_OUT(out_DEPTH_DECOD_UNIT_FULL                             ,"DECOD_UNIT_FULL"               ,Tcontrol_t           ,1                    ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+    }
 …
       ALLOC2_INTERFACE("context",OUT,EAST,_("context"),_param->_nb_decod_unit,_param->_translate_context_id_from_decod_unit[it1].size());
+      _ALLOC2_SIGNAL_OUT(out_CONTEXT_DECOD_UNIT_DEPTH_VAL                      ,"DECOD_UNIT_DEPTH_VAL"          ,Tcontrol_t           ,1                    ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
       _ALLOC2_SIGNAL_OUT(out_CONTEXT_DECOD_UNIT_DEPTH                          ,"DECOD_UNIT_DEPTH"              ,Tdepth_t             ,_param->_size_depth  ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1]);
+    }

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

-                      r97
+                      r101
         DELETE1_SIGNAL( in_EVENT_CONTEXT_STATE_DEPTH                        ,_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);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_CURRENT                    ,_param->_nb_context,_param->_size_depth  );
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_MIN                        ,_param->_nb_context,_param->_size_depth  );
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_MAX                        ,_param->_nb_context,_param->_size_depth+1);
+        DELETE1_SIGNAL(out_DEPTH_CONTEXT_STATE_MIN                          ,_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);
+        DELETE1_SIGNAL(out_DEPTH_FULL                                       ,_param->_nb_context,1);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_VAL                        ,_param->_nb_context,1);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_CURRENT                    ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_MIN                        ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_MAX                        ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL( in_DEPTH_PREDICTION_UNIT_FULL                       ,_param->_nb_context,1);
+        DELETE1_SIGNAL(out_DEPTH_CONTEXT_STATE_MIN                          ,_param->_nb_context,_param->_size_depth);
+//      DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_CURRENT                         ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth  );
+        DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_MIN                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth  );
+        DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_MAX                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth+1);
+//      DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_CURRENT                         ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth);
+        DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_MIN                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth);
+        DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_MAX                             ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth);
+        DELETE2_SIGNAL(out_DEPTH_DECOD_UNIT_FULL                            ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],1);
+        DELETE2_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH_VAL                     ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],1);
         DELETE2_SIGNAL(out_CONTEXT_DECOD_UNIT_DEPTH                         ,_param->_nb_decod_unit,_param->_decod_unit_nb_context [it1],_param->_size_depth);
+      }

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

r88	r101
26	26	if (_param->_have_port_depth)
27	27	{
28		Tdepth_t min = PORT_READ(in_DEPTH_PREDICTION_UNIT_MIN [i]);
29		PORT_WRITE(out_DEPTH_CONTEXT_STATE_MIN [i],min);
30		PORT_WRITE(out_DEPTH_MIN [i],min);
	28	Tdepth_t min = PORT_READ(in_DEPTH_PREDICTION_UNIT_MIN [i]);
	29	PORT_WRITE(out_DEPTH_CONTEXT_STATE_MIN [i],min);
	30	PORT_WRITE(out_DEPTH_MIN [i],min);
	31	PORT_WRITE(out_DEPTH_MAX [i], PORT_READ(in_DEPTH_PREDICTION_UNIT_MAX [i]));
31	32	}
32
33		PORT_WRITE(out_DEPTH_MAX [i], PORT_READ(in_DEPTH_PREDICTION_UNIT_MAX [i]));
	33	PORT_WRITE(out_DEPTH_FULL [i], PORT_READ(in_DEPTH_PREDICTION_UNIT_FULL [i]));
34	34	}
35	35
…	…
39	39	uint32_t num_context = _param->_translate_context_id_from_decod_unit[i][j];
40	40
	41	PORT_WRITE(out_CONTEXT_DECOD_UNIT_DEPTH_VAL [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_VAL [num_context]));
41	42	if (_param->_have_port_depth)
42	43	{
43		PORT_WRITE(out_CONTEXT_DECOD_UNIT_DEPTH [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_CURRENT [num_context]));
44		PORT_WRITE(out_DEPTH_DECOD_UNIT_MIN [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_MIN [num_context]));
	44	PORT_WRITE(out_CONTEXT_DECOD_UNIT_DEPTH [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_CURRENT [num_context]));
	45	PORT_WRITE(out_DEPTH_DECOD_UNIT_MIN [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_MIN [num_context]));
	46	PORT_WRITE(out_DEPTH_DECOD_UNIT_MAX [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_MAX [num_context]));
45	47	}
46		PORT_WRITE(out_DEPTH_DECOD_UNIT_~~MAX [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_MAX~~ [num_context]));
	48	PORT_WRITE(out_DEPTH_DECOD_UNIT_FULL [i][j], PORT_READ(in_DEPTH_PREDICTION_UNIT_FULL [num_context]));
47	49	}
48	50

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

-                      r88
+                      r101
   ALLOC1_SC_SIGNAL( in_PREDICT_INSTRUCTION_ENABLE         ," in_PREDICT_INSTRUCTION_ENABLE         ",Tcontrol_t        ,_param->_nb_instruction);
   ALLOC_SC_SIGNAL ( in_PREDICT_INST_IFETCH_PTR            ," in_PREDICT_INST_IFETCH_PTR            ",Tinst_ifetch_ptr_t);
+//ALLOC_SC_SIGNAL ( in_PREDICT_BRANCH_IS_CURRENT          ," in_PREDICT_BRANCH_IS_CURRENT          ",Tcontrol_t        );
   ALLOC_SC_SIGNAL ( in_PREDICT_BRANCH_STATE               ," in_PREDICT_BRANCH_STATE               ",Tbranch_state_t   );
   ALLOC_SC_SIGNAL ( in_PREDICT_BRANCH_UPDATE_PREDICTION_ID," in_PREDICT_BRANCH_UPDATE_PREDICTION_ID",Tprediction_ptr_t );
 …
   if (_param->_have_port_inst_ifetch_ptr)
   INSTANCE_SC_SIGNAL (_Address_management, in_PREDICT_INST_IFETCH_PTR            );
+//INSTANCE_SC_SIGNAL (_Address_management, in_PREDICT_BRANCH_IS_CURRENT          );
   INSTANCE_SC_SIGNAL (_Address_management, in_PREDICT_BRANCH_STATE               );
   if (_param->_have_port_depth)
 …
   srand(seed);
   const  int32_t percent_transaction_address = 75;
   const  int32_t percent_transaction_predict = 75;
   const  int32_t percent_transaction_event   =  5;
+  const  int32_t percent_transaction_address = 100;
+  const  int32_t percent_transaction_predict = 100;
+  const  int32_t percent_transaction_event   =  0;
   SC_START(0);
 …
   uint32_t        nb_packet = 1;
+  Tcontrol_t      a_val   = false;
   Tcontrol_t      c_val   = false;
   Tcontrol_t      n_val   = false;
+  Tcontrol_t      n_val   = true ;
   Tcontrol_t      nn_val  = false;
+  Tgeneral_data_t a_addr  = 0x100>>2;
   Tgeneral_data_t c_addr  = 0x100>>2;
   Tgeneral_data_t n_addr  = 0x100>>2;
   Tgeneral_data_t nn_addr = 0x100>>2;
+  Tcontrol_t      a_enable [_param->_nb_instruction];
   Tcontrol_t      c_enable [_param->_nb_instruction];
   Tcontrol_t      n_enable [_param->_nb_instruction];
+  Tcontrol_t      a_is_ds_take   = 0;
   Tcontrol_t      c_is_ds_take   = 0;
   Tcontrol_t      n_is_ds_take   = 0;
   Tcontrol_t      nn_is_ds_take  = 0;
   c_enable [0] = 1;
+  n_enable [0] = 1;
   for (uint32_t i=1; i<_param->_nb_instruction; i++)
     c_enable [i] = 0;
+    n_enable [i] = 0;
   LABEL("Send Reset");
 …
         in_PREDICT_PC_NEXT_IS_DS_TAKE         ->write(take);
         in_PREDICT_INST_IFETCH_PTR            ->write(0);
+//      in_PREDICT_BRANCH_IS_CURRENT          ->write(0);
         in_PREDICT_BRANCH_STATE               ->write(0);
         in_PREDICT_BRANCH_UPDATE_PREDICTION_ID->write(0);
 …
           for (uint32_t i=0; i<_param->_nb_instruction; i++)
           n_enable [i]  = in_PREDICT_INSTRUCTION_ENABLE [i]->read();
+          LABEL("  * nn_addr          : %.8x",nn_addr);
+        }
 …
+        {
           LABEL("ADDRESS    : Transaction accepted");
           LABEL("  * address wait     : %.8x",c_addr);
           TEST(Tgeneral_address_t,out_ADDRESS_INSTRUCTION_ADDRESS        ->read(),c_addr);
+          LABEL("  * address wait     : %.8x",a_addr);
+          TEST(Tgeneral_address_t,out_ADDRESS_INSTRUCTION_ADDRESS        ->read(),a_addr);
           for (uint32_t i=0; i<_param->_nb_instruction; i++)
           TEST(Tcontrol_t        ,out_ADDRESS_INSTRUCTION_ENABLE     [i] ->read(),c_enable[i]);
+          TEST(Tcontrol_t        ,out_ADDRESS_INSTRUCTION_ENABLE     [i] ->read(),a_enable[i]);
           if (_param->_have_port_inst_ifetch_ptr)
           TEST(Tinst_ifetch_ptr_t,out_ADDRESS_INST_IFETCH_PTR            ->read(),0);
 …
           TEST(Tprediction_ptr_t ,out_ADDRESS_BRANCH_UPDATE_PREDICTION_ID->read(),0);
           c_val = 0;
+          a_val = 0;
           nb_packet ++;
+        }
+      {
+        string str_a_enable = "";
+        string str_c_enable = "";
+        string str_n_enable = "";
+        for (uint32_t i=0; i<_param->_nb_instruction; i++)
+          {
+            str_a_enable += " " + toString(a_enable [i]);
+            str_c_enable += " " + toString(c_enable [i]);
+            str_n_enable += " " + toString(n_enable [i]);
+          }
+        LABEL("----[ Before ]---------------------");
+        LABEL("  * nb_packet : %d",nb_packet);
+        LABEL("  * pc a : %d %d %.8x %s",a_val ,a_is_ds_take ,a_addr ,str_a_enable.c_str());
+        LABEL("  * pc   : %d %d %.8x %s",c_val ,c_is_ds_take ,c_addr ,str_c_enable.c_str());
+        LABEL("  * pc+4 : %d %d %.8x %s",n_val ,n_is_ds_take ,n_addr ,str_n_enable.c_str());
+        LABEL("  * pc+8 : %d %d %.8x"   ,nn_val,nn_is_ds_take,nn_addr);
+        LABEL("-----------------------------------");
+      }
+      if (not a_val)
+        {
+          if (c_val and n_val and nn_val)
+            {
+              a_val        = 1;
+              c_val        = 0;
+              a_addr       = c_addr;
+              a_is_ds_take = c_is_ds_take;
+              for (uint32_t i=0; i<_param->_nb_instruction; i++)
+                a_enable [i] = c_enable [i];
+            }
+        }
       if (not c_val)
+        {
+          if (n_val and nn_val)
+            {
+              c_val        = 1;
+              c_addr       = n_addr;
+              c_is_ds_take = n_is_ds_take;
+              for (uint32_t i=0; i<_param->_nb_instruction; i++)
+                c_enable [i] = n_enable [i];
+              n_val        = 1;
+              n_addr       = nn_addr;
+              n_is_ds_take = nn_is_ds_take;
+              nn_val       = 0;
+            }
+        }
+        {
+          c_val        = n_val;
+          if (n_val)
+            {
+              c_addr       = n_addr;
+              c_is_ds_take = n_is_ds_take;
+              for (uint32_t i=0; i<_param->_nb_instruction; i++)
+                c_enable [i] = n_enable [i];
+            }
+          n_val        = 0;
+        }
+      if (not n_val)
+        {
+          n_val        = nn_val;
+          if (nn_val)
+            {
+              n_addr       = nn_addr;
+              n_is_ds_take = nn_is_ds_take;
+//            for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//              n_enable [i] = nn_enable [i];
+            }
+          nn_val       = 0;
+        }
       if (in_EVENT_VAL->read() and out_EVENT_ACK->read())
 …
           LABEL("EVENT      : Transaction accepted");
+          a_val        = false;
           c_val        = false;
           n_val        = true;
 …
+      {
+        string str_a_enable = "";
         string str_c_enable = "";
         string str_n_enable = "";
 …
         for (uint32_t i=0; i<_param->_nb_instruction; i++)
+          {
+            str_a_enable += " " + toString(a_enable [i]);
             str_c_enable += " " + toString(c_enable [i]);
             str_n_enable += " " + toString(n_enable [i]);
+          }
         LABEL("-----------------------------------");
+        LABEL("----[ After ]----------------------");
         LABEL("  * nb_packet : %d",nb_packet);
+        LABEL("  * pc   : %d %d %.8x %s",c_val  ,c_is_ds_take , c_addr ,str_c_enable.c_str());
+        if (nn_val)
+          {
+        LABEL("  * pc+4 : %d %d %.8x %s",n_val  ,n_is_ds_take , n_addr ,str_n_enable.c_str());
+          }
+        else
+          {
+        LABEL("  * pc+4 : %d %d %.8x"   ,n_val  ,n_is_ds_take , n_addr );
+          }
+        LABEL("  * pc+8 : %d %d %.8x"   ,nn_val ,nn_is_ds_take, nn_addr);
+        LABEL("  * pc a : %d %d %.8x %s",a_val ,a_is_ds_take ,a_addr ,str_a_enable.c_str());
+        LABEL("  * pc   : %d %d %.8x %s",c_val ,c_is_ds_take ,c_addr ,str_c_enable.c_str());
+        LABEL("  * pc+4 : %d %d %.8x %s",n_val ,n_is_ds_take ,n_addr ,str_n_enable.c_str());
+        LABEL("  * pc+8 : %d %d %.8x"   ,nn_val,nn_is_ds_take,nn_addr);
         LABEL("-----------------------------------");
+      }
 …
   delete []  in_PREDICT_INSTRUCTION_ENABLE         ;
   delete     in_PREDICT_INST_IFETCH_PTR            ;
+//delete     in_PREDICT_BRANCH_IS_CURRENT          ;
   delete     in_PREDICT_BRANCH_STATE               ;
   delete     in_PREDICT_BRANCH_UPDATE_PREDICTION_ID;

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

-                      r88
+                      r101
   public    : SC_IN (Tcontrol_t         )   *  in_PREDICT_PC_NEXT_IS_DS_TAKE          ;
   public    : SC_IN (Tcontrol_t         )  **  in_PREDICT_INSTRUCTION_ENABLE          ; //[nb_instruction]
   public    : SC_IN (Tinst_ifetch_ptr_t )   *  in_PREDICT_INST_IFETCH_PTR             ;
+//public    : SC_IN (Tcontrol_t         )   *  in_PREDICT_BRANCH_IS_CURRENT           ;
   public    : SC_IN (Tbranch_state_t    )   *  in_PREDICT_BRANCH_STATE                ;
   public    : SC_IN (Tprediction_ptr_t  )   *  in_PREDICT_BRANCH_UPDATE_PREDICTION_ID ;
+  public    : SC_IN (Tinst_ifetch_ptr_t )   *  in_PREDICT_INST_IFETCH_PTR             ;
     // ~~~~~[ Interface "event" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
     // ~~~~~[ Register ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  private   : Tcontrol_t                      reg_PC_ACCESS_VAL                           ;
+  private   : Tgeneral_address_t              reg_PC_ACCESS                               ;
+  private   : Tcontrol_t                      reg_PC_ACCESS_IS_DS_TAKE                    ;
+  private   : Tcontrol_t                    * reg_PC_ACCESS_INSTRUCTION_ENABLE            ; //[nb_instruction]
+  private   : Tinst_ifetch_ptr_t              reg_PC_ACCESS_INST_IFETCH_PTR               ;
+  private   : Tbranch_state_t                 reg_PC_ACCESS_BRANCH_STATE                  ;
+  private   : Tprediction_ptr_t               reg_PC_ACCESS_BRANCH_UPDATE_PREDICTION_ID   ;
   private   : Tcontrol_t                      reg_PC_CURRENT_VAL                          ;
   private   : Tgeneral_address_t              reg_PC_CURRENT                              ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Address_management/src/Address_management_allocation.cpp

r88	r101
85	85	ALLOC_SIGNAL_IN ( in_PREDICT_PC_NEXT ,"pc_next" ,Tgeneral_address_t,_param->_size_instruction_address);
86	86	ALLOC_SIGNAL_IN ( in_PREDICT_PC_NEXT_IS_DS_TAKE ,"pc_next_is_ds_take" ,Tcontrol_t ,1);
87		~~ALLOC_SIGNAL_IN ( in_PREDICT_INST_IFETCH_PTR ,"inst_ifetch_ptr" ,Tinst_ifetch_ptr_t,_param->_size_inst_ifetch_ptr~~);
	87	// ALLOC_SIGNAL_IN ( in_PREDICT_BRANCH_IS_CURRENT ,"branch_is_current" ,Tcontrol_t ,1);
88	88	ALLOC_SIGNAL_IN ( in_PREDICT_BRANCH_STATE ,"branch_state" ,Tbranch_state_t ,_param->_size_branch_state);
89	89	ALLOC_SIGNAL_IN ( in_PREDICT_BRANCH_UPDATE_PREDICTION_ID,"branch_update_prediction_id",Tprediction_ptr_t ,_param->_size_depth);
	90	ALLOC_SIGNAL_IN ( in_PREDICT_INST_IFETCH_PTR ,"inst_ifetch_ptr" ,Tinst_ifetch_ptr_t,_param->_size_inst_ifetch_ptr);
90	91	}
91	92	{
…	…
110	111	if (usage_is_set(_usage,USE_SYSTEMC))
111	112	{
112		reg_PC_CURRENT_INSTRUCTION_ENABLE = new Tcontrol_t [_param->_nb_instruction];
113		reg_PC_NEXT_INSTRUCTION_ENABLE = new Tcontrol_t [_param->_nb_instruction];
	113	ALLOC1(reg_PC_ACCESS_INSTRUCTION_ENABLE ,Tcontrol_t,_param->_nb_instruction);
	114	ALLOC1(reg_PC_CURRENT_INSTRUCTION_ENABLE,Tcontrol_t,_param->_nb_instruction);
	115	ALLOC1(reg_PC_NEXT_INSTRUCTION_ENABLE ,Tcontrol_t,_param->_nb_instruction);
114	116	}
115	117

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Address_management/src/Address_management_deallocation.cpp

-                      r88
+                      r101
         if (_param->_have_port_inst_ifetch_ptr)
         delete     in_PREDICT_INST_IFETCH_PTR            ;
+//      delete     in_PREDICT_BRANCH_IS_CURRENT          ;
         delete     in_PREDICT_BRANCH_STATE               ;
         if (_param->_have_port_depth)
 …
         if (usage_is_set(_usage,USE_SYSTEMC))
+          {
+            delete reg_PC_ACCESS_INSTRUCTION_ENABLE ;
             delete reg_PC_CURRENT_INSTRUCTION_ENABLE;
             delete reg_PC_NEXT_INSTRUCTION_ENABLE   ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Address_management/src/Address_management_genMoore.cpp

-                      r88
+                      r101
     // =========================================
     internal_ADDRESS_VAL = reg_PC_CURRENT_VAL;
+    internal_ADDRESS_VAL = reg_PC_ACCESS_VAL;
     PORT_WRITE(out_ADDRESS_VAL                        ,internal_ADDRESS_VAL                      );
     PORT_WRITE(out_ADDRESS_INSTRUCTION_ADDRESS        ,reg_PC_CURRENT                            );
+    PORT_WRITE(out_ADDRESS_INSTRUCTION_ADDRESS        ,reg_PC_ACCESS                            );
     if (_param->_have_port_inst_ifetch_ptr)
     PORT_WRITE(out_ADDRESS_INST_IFETCH_PTR            ,reg_PC_CURRENT_INST_IFETCH_PTR            );
     PORT_WRITE(out_ADDRESS_BRANCH_STATE               ,reg_PC_CURRENT_BRANCH_STATE               );
+    PORT_WRITE(out_ADDRESS_INST_IFETCH_PTR            ,reg_PC_ACCESS_INST_IFETCH_PTR            );
+    PORT_WRITE(out_ADDRESS_BRANCH_STATE               ,reg_PC_ACCESS_BRANCH_STATE               );
     if (_param->_have_port_depth)
     PORT_WRITE(out_ADDRESS_BRANCH_UPDATE_PREDICTION_ID,reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID);
+    PORT_WRITE(out_ADDRESS_BRANCH_UPDATE_PREDICTION_ID,reg_PC_ACCESS_BRANCH_UPDATE_PREDICTION_ID);
     for (uint32_t i=0; i<_param->_nb_instruction; i++)
       PORT_WRITE(out_ADDRESS_INSTRUCTION_ENABLE [i], reg_PC_CURRENT_INSTRUCTION_ENABLE[i]);
+      PORT_WRITE(out_ADDRESS_INSTRUCTION_ENABLE [i], reg_PC_ACCESS_INSTRUCTION_ENABLE[i]);
     // =========================================

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Address_management/src/Address_management_transition.cpp

-                      r98
+                      r101
+      {
         // nothing is valid
+        reg_PC_ACCESS_VAL    = 0;
         reg_PC_CURRENT_VAL   = 0;
         reg_PC_NEXT_VAL      = 1;
         reg_PC_NEXT          = 0x100>>2;
+        reg_PC_NEXT_IS_DS_TAKE                  = 0;
+        reg_PC_NEXT_INSTRUCTION_ENABLE [0]      = 1;
+        for (uint32_t i=1; i<_param->_nb_instruction; i++)
+        reg_PC_NEXT_INSTRUCTION_ENABLE [i]      = 0;
+        reg_PC_NEXT_INST_IFETCH_PTR             = 0;
+        reg_PC_NEXT_BRANCH_STATE                = 0;
+        reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID = 0;
         reg_PC_NEXT_NEXT_VAL = 0;
 …
         if (PORT_READ(in_PREDICT_ACK) and internal_PREDICT_VAL)
+          {
+            bool branch_is_current = reg_PC_NEXT_IS_DS_TAKE;
+            if (branch_is_current)
+              {
+                if (_param->_have_port_inst_ifetch_ptr)
+                reg_PC_CURRENT_INST_IFETCH_PTR             = PORT_READ(in_PREDICT_INST_IFETCH_PTR            );
+                reg_PC_CURRENT_BRANCH_STATE                = PORT_READ(in_PREDICT_BRANCH_STATE               );
+                if (_param->_have_port_depth)
+                reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID = PORT_READ(in_PREDICT_BRANCH_UPDATE_PREDICTION_ID);
+              }
+            else
+              {
+                if (_param->_have_port_inst_ifetch_ptr)
+                reg_PC_NEXT_INST_IFETCH_PTR                = PORT_READ(in_PREDICT_INST_IFETCH_PTR            );
+                reg_PC_NEXT_BRANCH_STATE                   = PORT_READ(in_PREDICT_BRANCH_STATE               );
+                if (_param->_have_port_depth)
+                reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID    = PORT_READ(in_PREDICT_BRANCH_UPDATE_PREDICTION_ID);
+              }
             for (uint32_t i=0; i<_param->_nb_instruction; i++)
             reg_PC_NEXT_INSTRUCTION_ENABLE [i] = PORT_READ(in_PREDICT_INSTRUCTION_ENABLE [i]);
-            if (_param->_have_port_inst_ifetch_ptr)
-            reg_PC_NEXT_INST_IFETCH_PTR             = PORT_READ(in_PREDICT_INST_IFETCH_PTR            );
-            reg_PC_NEXT_BRANCH_STATE                = PORT_READ(in_PREDICT_BRANCH_STATE               );
-            if (_param->_have_port_depth)
-            reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID = PORT_READ(in_PREDICT_BRANCH_UPDATE_PREDICTION_ID);
             reg_PC_NEXT_NEXT_VAL                    = 1; // address is valid
 …
         // =========================================
         // transaction with icache
+        if ( (internal_ADDRESS_VAL and PORT_READ(in_ADDRESS_ACK)) or not reg_PC_CURRENT_VAL)
+          {
+        if (internal_ADDRESS_VAL and PORT_READ(in_ADDRESS_ACK))
+          {
+            reg_PC_ACCESS_VAL = 0;
 #ifdef STATISTICS
             if (usage_is_set(_usage,USE_STATISTICS))
+              if (reg_PC_CURRENT_VAL)
+                {
+              {
                   (*_stat_nb_transaction_address) ++;
                   for (uint32_t i=0; i<_param->_nb_instruction; i++)
                     if (reg_PC_CURRENT_INSTRUCTION_ENABLE [i] == true)
+                    if (reg_PC_ACCESS_INSTRUCTION_ENABLE [i] == true)
                       (*_stat_sum_packet_size) ++;
+                }
 #endif
+            Tcontrol_t pc_next_val = reg_PC_NEXT_VAL and reg_PC_NEXT_NEXT_VAL;
+            // next pc became current pc
+            reg_PC_CURRENT_VAL                             = pc_next_val;
+            // if pc_next is not valid : don't erase PC and PC_IS_DS_TAKE : this register is send a the predict (to compute pc_next)
+            if (pc_next_val)
+              {
+                reg_PC_CURRENT                             = reg_PC_NEXT                            ;
+                reg_PC_CURRENT_IS_DS_TAKE                  = reg_PC_NEXT_IS_DS_TAKE                 ;
+                reg_PC_CURRENT_INST_IFETCH_PTR             = reg_PC_NEXT_INST_IFETCH_PTR            ;
+                reg_PC_CURRENT_BRANCH_STATE                = reg_PC_NEXT_BRANCH_STATE               ;
+                reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID = reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID;
+                for (uint32_t i=0; i<_param->_nb_instruction; i++)
+                reg_PC_CURRENT_INSTRUCTION_ENABLE [i] = reg_PC_NEXT_INSTRUCTION_ENABLE [i];
+                reg_PC_NEXT_VAL                            = reg_PC_NEXT_NEXT_VAL       ;
+                // if pc_next_next is not valid : don't erase PC_NEXT and PC_NEXT_IS_DS_TAKE : this register is send a the predict (to compute pc_next)
+                if (reg_PC_NEXT_NEXT_VAL)
+                  {
+                    reg_PC_NEXT                            = reg_PC_NEXT_NEXT           ;
+                    reg_PC_NEXT_IS_DS_TAKE                 = reg_PC_NEXT_NEXT_IS_DS_TAKE;
+                  }
+                // invalid next next pc
+                reg_PC_NEXT_NEXT_VAL                       = 0;
+              }
+          }
+          }
+        // Shift register
+        if (not reg_PC_ACCESS_VAL and reg_PC_CURRENT_VAL and reg_PC_NEXT_VAL and reg_PC_NEXT_NEXT_VAL)
+          {
+            reg_PC_ACCESS_VAL  = 1; // new request
+            reg_PC_CURRENT_VAL = 0; // invalid current
+            reg_PC_ACCESS                             = reg_PC_CURRENT                            ;
+            reg_PC_ACCESS_IS_DS_TAKE                  = reg_PC_CURRENT_IS_DS_TAKE                 ;
+            reg_PC_ACCESS_INST_IFETCH_PTR             = reg_PC_CURRENT_INST_IFETCH_PTR            ;
+            reg_PC_ACCESS_BRANCH_STATE                = reg_PC_CURRENT_BRANCH_STATE               ;
+            reg_PC_ACCESS_BRANCH_UPDATE_PREDICTION_ID = reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID;
+            for (uint32_t i=0; i<_param->_nb_instruction; i++)
+              reg_PC_ACCESS_INSTRUCTION_ENABLE [i] = reg_PC_CURRENT_INSTRUCTION_ENABLE [i];
+          }
+        if (not reg_PC_CURRENT_VAL)
+          {
+            bool val = reg_PC_NEXT_VAL;
+            reg_PC_CURRENT_VAL = val; // new PC_CURRENT if PC_NEXT is valid
+            reg_PC_NEXT_VAL    = 0;   // invalid next
+            if (val)
+              {
+                reg_PC_CURRENT                             = reg_PC_NEXT                            ;
+                reg_PC_CURRENT_IS_DS_TAKE                  = reg_PC_NEXT_IS_DS_TAKE                 ;
+                reg_PC_CURRENT_INST_IFETCH_PTR             = reg_PC_NEXT_INST_IFETCH_PTR            ;
+                reg_PC_CURRENT_BRANCH_STATE                = reg_PC_NEXT_BRANCH_STATE               ;
+                reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID = reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID;
+                for (uint32_t i=0; i<_param->_nb_instruction; i++)
+                  reg_PC_CURRENT_INSTRUCTION_ENABLE [i] = reg_PC_NEXT_INSTRUCTION_ENABLE [i];
+              }
+          }
+        if (not reg_PC_NEXT_VAL)
+          {
+            bool val = reg_PC_NEXT_NEXT_VAL;
+            reg_PC_NEXT_VAL      = val; // new PC_NEXT if PC_NEXT_NEXT is valid
+            reg_PC_NEXT_NEXT_VAL = 0;   // invalid next_next
+            if (val)
+              {
+                reg_PC_NEXT                             = reg_PC_NEXT_NEXT                            ;
+                reg_PC_NEXT_IS_DS_TAKE                  = reg_PC_NEXT_NEXT_IS_DS_TAKE                 ;
+//              reg_PC_NEXT_INST_IFETCH_PTR             = reg_PC_NEXT_NEXT_INST_IFETCH_PTR            ;
+//              reg_PC_NEXT_BRANCH_STATE                = reg_PC_NEXT_NEXT_BRANCH_STATE               ;
+//              reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID = reg_PC_NEXT_NEXT_BRANCH_UPDATE_PREDICTION_ID;
+//              for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//                reg_PC_NEXT_INSTRUCTION_ENABLE [i] = reg_PC_NEXT_NEXT_INSTRUCTION_ENABLE [i];
+              }
+          }
         // =========================================
 …
             log_printf(TRACE,Address_management,FUNCTION,"    * ADDRESS_NEXT     : %.8x (%.8x)",PORT_READ(in_EVENT_ADDRESS_NEXT    ),PORT_READ(in_EVENT_ADDRESS_NEXT    )<<2);
             log_printf(TRACE,Address_management,FUNCTION,"    * ADDRESS_NEXT_VAL : %d"  ,PORT_READ(in_EVENT_ADDRESS_NEXT_VAL));
+            reg_PC_ACCESS_VAL                       = 0;
             reg_PC_CURRENT_VAL                      = 0;
             reg_PC_NEXT_VAL                         = 1;
 …
+      }
 #if defined(DEBUG) and (DEBUG >= DEBUG_TRACE)
+#if defined(DEBUG) and DEBUG_Address_management and (DEBUG >= DEBUG_TRACE)
     log_printf(TRACE,Address_management,FUNCTION,"  * Dump PC");
+    log_printf(TRACE,Address_management,FUNCTION,"    * Current   : %d %d 0x%.8x (%.8x)",reg_PC_CURRENT_VAL  , reg_PC_CURRENT_IS_DS_TAKE  , reg_PC_CURRENT  , reg_PC_CURRENT  <<2);
+    log_printf(TRACE,Address_management,FUNCTION,"    * Next      : %d %d 0x%.8x (%.8x)",reg_PC_NEXT_VAL     , reg_PC_NEXT_IS_DS_TAKE     , reg_PC_NEXT     , reg_PC_NEXT     <<2);
+    log_printf(TRACE,Address_management,FUNCTION,"    * Next_Next : %d %d 0x%.8x (%.8x)",reg_PC_NEXT_NEXT_VAL, reg_PC_NEXT_NEXT_IS_DS_TAKE, reg_PC_NEXT_NEXT, reg_PC_NEXT_NEXT<<2);
+    {
+      std::string instruction_enable;
+      for (uint32_t i=0; i<_param->_nb_instruction; ++i)
+        instruction_enable += toString(reg_PC_ACCESS_INSTRUCTION_ENABLE [i])+ " ";
+      log_printf(TRACE,Address_management,FUNCTION,"    * Access    : %d %d 0x%.8x (%.8x) - %.2d %.2d %.2d - %s",
+                 reg_PC_ACCESS_VAL,
+                 reg_PC_ACCESS_IS_DS_TAKE,
+                 reg_PC_ACCESS,
+                 reg_PC_ACCESS<<2,
+                 reg_PC_ACCESS_BRANCH_STATE,
+                 reg_PC_ACCESS_INST_IFETCH_PTR,
+                 reg_PC_ACCESS_BRANCH_UPDATE_PREDICTION_ID,
+                 instruction_enable.c_str()
+                 );
+    }
+    {
+      std::string instruction_enable;
+      for (uint32_t i=0; i<_param->_nb_instruction; ++i)
+        instruction_enable += toString(reg_PC_CURRENT_INSTRUCTION_ENABLE [i])+ " ";
+      log_printf(TRACE,Address_management,FUNCTION,"    * Current   : %d %d 0x%.8x (%.8x) - %.2d %.2d %.2d - %s",
+                 reg_PC_CURRENT_VAL,
+                 reg_PC_CURRENT_IS_DS_TAKE,
+                 reg_PC_CURRENT,
+                 reg_PC_CURRENT<<2,
+                 reg_PC_CURRENT_BRANCH_STATE,
+                 reg_PC_CURRENT_INST_IFETCH_PTR,
+                 reg_PC_CURRENT_BRANCH_UPDATE_PREDICTION_ID,
+                 instruction_enable.c_str()
+                 );
+    }
+    {
+      std::string instruction_enable;
+      for (uint32_t i=0; i<_param->_nb_instruction; ++i)
+        instruction_enable += toString(reg_PC_NEXT_INSTRUCTION_ENABLE [i])+ " ";
+      log_printf(TRACE,Address_management,FUNCTION,"    * Next      : %d %d 0x%.8x (%.8x) - %.2d %.2d %.2d - %s",
+                 reg_PC_NEXT_VAL,
+                 reg_PC_NEXT_IS_DS_TAKE,
+                 reg_PC_NEXT,
+                 reg_PC_NEXT<<2,
+                 reg_PC_NEXT_BRANCH_STATE,
+                 reg_PC_NEXT_INST_IFETCH_PTR,
+                 reg_PC_NEXT_BRANCH_UPDATE_PREDICTION_ID,
+                 instruction_enable.c_str());
+    }
+    log_printf(TRACE,Address_management,FUNCTION,"    * Next_Next : %d %d 0x%.8x (%.8x)",
+               reg_PC_NEXT_NEXT_VAL,
+               reg_PC_NEXT_NEXT_IS_DS_TAKE,
+               reg_PC_NEXT_NEXT,
+               reg_PC_NEXT_NEXT<<2);
 #endif

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Ifetch_queue/include/Types.h

r85	r101
22	22	{
23	23	IFETCH_QUEUE_STATE_EMPTY , // slot is empty
24		//IFETCH_QUEUE_STATE_WAIT_REQ , // slot is allocated - wait request to cache
	24	// IFETCH_QUEUE_STATE_WAIT_REQ , // slot is allocated - wait request to cache
25	25	IFETCH_QUEUE_STATE_WAIT_RSP , // slot have send a request - wait respons from cache
26	26	IFETCH_QUEUE_STATE_HAVE_RSP , // slot have a bloc of instruction - wait accept by decod

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_Front_end/Front_end/Ifetch_unit/Ifetch_queue/src/Ifetch_queue_transition.cpp

-                      r88
+                      r101
             // New slot in ifetch_queue is allocated
             _queue[reg_PTR_WRITE]->_state                       = IFETCH_QUEUE_STATE_WAIT_RSP;
+            _queue[reg_PTR_WRITE]->_state = IFETCH_QUEUE_STATE_WAIT_RSP;
 #ifdef STATISTICS
 …
+              }
             _queue[reg_PTR_WRITE]->_address                     = PORT_READ(in_ADDRESS_INSTRUCTION_ADDRESS        );
+            _queue[reg_PTR_WRITE]->_address                     = PORT_READ(in_ADDRESS_INSTRUCTION_ADDRESS);
             _queue[reg_PTR_WRITE]->_inst_ifetch_ptr             = (_param->_have_port_inst_ifetch_ptr)?PORT_READ(in_ADDRESS_INST_IFETCH_PTR            ):0;
             _queue[reg_PTR_WRITE]->_branch_state                = PORT_READ(in_ADDRESS_BRANCH_STATE               );
+            _queue[reg_PTR_WRITE]->_branch_state                = PORT_READ(in_ADDRESS_BRANCH_STATE);
             _queue[reg_PTR_WRITE]->_branch_update_prediction_id = (_param->_have_port_depth)?PORT_READ(in_ADDRESS_BRANCH_UPDATE_PREDICTION_ID):0;
 …
         for (uint32_t i=0; i<_param->_size_queue; i++)
+          {
+            log_printf(TRACE,Ifetch_queue,FUNCTION,"    * [%d] %s %.8x %d - %d %d %d", i, toString(_queue [i]->_state).c_str(), _queue [i]->_address,_queue [i]->_inst_ifetch_ptr,_queue [i]->_branch_state,_queue [i]->_branch_update_prediction_id,_queue [i]->_exception);
+            log_printf(TRACE,Ifetch_queue,FUNCTION,"    * [%d] 0x%.8x (0x%.8x) %d - %d %d %d - %s",
+                       i,
+                       _queue [i]->_address,
+                       _queue [i]->_address<<2,
+                       _queue [i]->_inst_ifetch_ptr,
+                       _queue [i]->_branch_state,
+                       _queue [i]->_branch_update_prediction_id,
+                       _queue [i]->_exception,
+                       toString(_queue [i]->_state).c_str()
+                       );
             for (uint32_t j=0; j<_param->_nb_instruction; j++)
               log_printf(TRACE,Ifetch_queue,FUNCTION,"      * %d %.8x", _queue [i]->_instruction_enable[j], _queue [i]->_instruction[j]);
+              log_printf(TRACE,Ifetch_queue,FUNCTION,"      * %d 0x%.8x", _queue [i]->_instruction_enable[j], _queue [i]->_instruction[j]);
+          }
 #endif

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

-                      r88
+                      r101
       LABEL("Iteration %d",iteration);
       // PREDICT
+      {
         in_PREDICT_ACK  ->write((rand()%100)<percent_transaction_predict);
+//       // PREDICT
+//       {
+//      in_PREDICT_ACK  ->write((rand()%100)<percent_transaction_predict);
         SC_START(0);
         Taddress_t addr  = (out_PREDICT_PC_CURRENT_IS_DS_TAKE->read())?out_PREDICT_PC_PREVIOUS->read():out_PREDICT_PC_CURRENT->read();
         uint32_t   begin = addr%_param->_nb_instruction;
         uint32_t   end   = ((begin<<1)>_param->_nb_instruction)?(_param->_nb_instruction-1):(begin<<1);
         Tcontrol_t take  = (nb_packet_in%jump)==0;
+//      SC_START(0);
+//      Taddress_t addr  = (out_PREDICT_PC_CURRENT_IS_DS_TAKE->read())?out_PREDICT_PC_PREVIOUS->read():out_PREDICT_PC_CURRENT->read();
+//      uint32_t   begin = addr%_param->_nb_instruction;
+//      uint32_t   end   = ((begin<<1)>_param->_nb_instruction)?(_param->_nb_instruction-1):(begin<<1);
+//      Tcontrol_t take  = (nb_packet_in%jump)==0;
         if (take)
           addr += 0x100;
         else
           addr += end-begin+1;
         for (uint32_t i=0; i<_param->_nb_instruction; i++)
         in_PREDICT_INSTRUCTION_ENABLE     [i] ->write((i>=begin) and (i<=end));
         in_PREDICT_PC_NEXT                    ->write(addr);
         in_PREDICT_PC_NEXT_IS_DS_TAKE         ->write(take);
         in_PREDICT_INST_IFETCH_PTR            ->write(0);
         in_PREDICT_BRANCH_STATE               ->write(0);
         in_PREDICT_BRANCH_UPDATE_PREDICTION_ID->write(0);
+      }
       // DECOD
+      {
         uint32_t nb_decod = (rand()%_param->_nb_instruction);
         for (uint32_t i=0; i<_param->_nb_instruction; i++)
           in_DECOD_ACK [i]->write(i<=nb_decod);
+      }
       // EVENT
       in_EVENT_VAL             ->write((rand()%100)<percent_transaction_event  );
       in_EVENT_ADDRESS         ->write(0x77);
       in_EVENT_ADDRESS_NEXT    ->write(0x171);
       Tcontrol_t is_ds_take = rand();
       in_EVENT_ADDRESS_NEXT_VAL->write(is_ds_take);
       in_EVENT_IS_DS_TAKE      ->write(is_ds_take);
       // ICACHE_REQ
       in_ICACHE_REQ_ACK->write((rand()%100)<percent_transaction_icache_req);
       // ICACHE_RSP
+      {
         Tcontrol_t val = false;
         if (not cache->empty())
+          {
             slot_t<cache_req_t *> cache_rsp = cache->read();
             val = (cache_rsp._delay == 0);
+//      if (take)
+//        addr += 0x100;
+//      else
+//        addr += end-begin+1;
+//      for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//      in_PREDICT_INSTRUCTION_ENABLE     [i] ->write((i>=begin) and (i<=end));
+//      in_PREDICT_PC_NEXT                    ->write(addr);
+//      in_PREDICT_PC_NEXT_IS_DS_TAKE         ->write(take);
+//      in_PREDICT_INST_IFETCH_PTR            ->write(0);
+//      in_PREDICT_BRANCH_STATE               ->write(0);
+//      in_PREDICT_BRANCH_UPDATE_PREDICTION_ID->write(0);
+//       }
+//       // DECOD
+//       {
+//      uint32_t nb_decod = (rand()%_param->_nb_instruction);
+//      for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//        in_DECOD_ACK [i]->write(i<=nb_decod);
+//       }
+//       // EVENT
+//       in_EVENT_VAL             ->write((rand()%100)<percent_transaction_event  );
+//       in_EVENT_ADDRESS         ->write(0x77);
+//       in_EVENT_ADDRESS_NEXT    ->write(0x171);
+//       Tcontrol_t is_ds_take = rand();
+//       in_EVENT_ADDRESS_NEXT_VAL->write(is_ds_take);
+//       in_EVENT_IS_DS_TAKE      ->write(is_ds_take);
+//       // ICACHE_REQ
+//       in_ICACHE_REQ_ACK->write((rand()%100)<percent_transaction_icache_req);
+//       // ICACHE_RSP
+//       {
+//      Tcontrol_t val = false;
+//      if (not cache->empty())
+//        {
+//          slot_t<cache_req_t *> cache_rsp = cache->read();
+//          val = (cache_rsp._delay == 0);
             Tpacket_t  packet  = cache_rsp._data->packet ;
             Taddress_t address = cache_rsp._data->address;
+//          Tpacket_t  packet  = cache_rsp._data->packet ;
+//          Taddress_t address = cache_rsp._data->address;
             in_ICACHE_RSP_PACKET_ID      ->write(packet);
             for (uint32_t i=0; i<_param->_nb_instruction; i++)
             in_ICACHE_RSP_INSTRUCTION [i]->write(address+i);
             in_ICACHE_RSP_ERROR          ->write(0);
+          }
         in_ICACHE_RSP_VAL->write(val);
+      }
       //-------------------------------------------------
       SC_START(0);
       //-------------------------------------------------
       if (out_ICACHE_REQ_VAL->read() and in_ICACHE_REQ_ACK->read())
+        {
           LABEL("ICACHE_REQ : Transaction accepted");
           Tpacket_t  packet  = (_param->_have_port_ifetch_queue_ptr)?out_ICACHE_REQ_PACKET_ID->read():0;
           Taddress_t address = out_ICACHE_REQ_ADDRESS->read();
           TEST(bool      ,slot_use[packet], false);
           TEST(Taddress_t,address         ,c_addr);
           slot_use[packet] = true;
           uint32_t delay;
           if ((rand()%100)<percent_hit)
             delay = 1;
           else
             delay = delay_miss_min + (rand()%(delay_miss_max-delay_miss_min+1));
           cache_req_t * cache_req = new cache_req_t(packet,address);
           cache->push(delay,cache_req);
           c_val = 0;
           nb_packet_in ++;
+        }
+      {
         bool find=false;
         Taddress_t addr=out_DECOD_ADDRESS->read();
         for (uint32_t i=0; i<_param->_nb_instruction; i++)
           if (out_DECOD_VAL[i]->read() and in_DECOD_ACK [i]->read())
+            {
               Tinstruction_t inst = out_DECOD_INSTRUCTION[i]->read();
               LABEL("DECOD [%d]  : Transaction accepted",i);
               LABEL("  address     : 0x%x",addr);
               LABEL("  instruction : 0x%x",inst);
               find = true;
               TEST(Tinstruction_t,inst,addr+i);
+            }
         if (find)
+          {
             if (_param->_have_port_inst_ifetch_ptr)
             TEST(Tinst_ifetch_ptr_t, out_DECOD_INST_IFETCH_PTR            ->read(), 0);
             TEST(Tbranch_state_t   , out_DECOD_BRANCH_STATE               ->read(), 0);
             if (_param->_have_port_depth)
             TEST(Tprediction_ptr_t , out_DECOD_BRANCH_UPDATE_PREDICTION_ID->read(), 0);
             TEST(Texception_t      , out_DECOD_EXCEPTION                  ->read(), 0);
+          }
+      }
+//          in_ICACHE_RSP_PACKET_ID      ->write(packet);
+//          for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//          in_ICACHE_RSP_INSTRUCTION [i]->write(address+i);
+//          in_ICACHE_RSP_ERROR          ->write(0);
+//        }
+//      in_ICACHE_RSP_VAL->write(val);
+//       }
+//       //-------------------------------------------------
+//       SC_START(0);
+//       //-------------------------------------------------
+//       if (out_ICACHE_REQ_VAL->read() and in_ICACHE_REQ_ACK->read())
+//      {
+//        LABEL("ICACHE_REQ : Transaction accepted");
+//        Tpacket_t  packet  = (_param->_have_port_ifetch_queue_ptr)?out_ICACHE_REQ_PACKET_ID->read():0;
+//        Taddress_t address = out_ICACHE_REQ_ADDRESS->read();
+//        TEST(bool      ,slot_use[packet], false);
+//        TEST(Taddress_t,address         ,c_addr);
+//        slot_use[packet] = true;
+//        uint32_t delay;
+//        if ((rand()%100)<percent_hit)
+//          delay = 1;
+//        else
+//          delay = delay_miss_min + (rand()%(delay_miss_max-delay_miss_min+1));
+//        cache_req_t * cache_req = new cache_req_t(packet,address);
+//        cache->push(delay,cache_req);
+//        c_val = 0;
+//        nb_packet_in ++;
+//      }
+//       {
+//      bool find=false;
+//      Taddress_t addr=out_DECOD_ADDRESS->read();
+//      for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//        if (out_DECOD_VAL[i]->read() and in_DECOD_ACK [i]->read())
+//          {
+//            Tinstruction_t inst = out_DECOD_INSTRUCTION[i]->read();
+//            LABEL("DECOD [%d]  : Transaction accepted",i);
+//            LABEL("  address     : 0x%x",addr);
+//            LABEL("  instruction : 0x%x",inst);
+//            find = true;
+//            TEST(Tinstruction_t,inst,addr+i);
+//          }
+//      if (find)
+//        {
+//          if (_param->_have_port_inst_ifetch_ptr)
+//          TEST(Tinst_ifetch_ptr_t, out_DECOD_INST_IFETCH_PTR            ->read(), 0);
+//          TEST(Tbranch_state_t   , out_DECOD_BRANCH_STATE               ->read(), 0);
+//          if (_param->_have_port_depth)
+//          TEST(Tprediction_ptr_t , out_DECOD_BRANCH_UPDATE_PREDICTION_ID->read(), 0);
+//          TEST(Texception_t      , out_DECOD_EXCEPTION                  ->read(), 0);
+//        }
+//       }
       if (in_ICACHE_RSP_VAL->read() and out_ICACHE_RSP_ACK->read())
+        {
           LABEL("ICACHE_RSP : Transaction accepted");
           slot_use[cache->read()._data->packet] = false;
           cache->pop();
+        }
       if (out_PREDICT_VAL->read() and in_PREDICT_ACK->read())
+        {
           LABEL("PREDICT    : Transaction accepted");
           if (c_val)
           TEST(Tgeneral_address_t,out_PREDICT_PC_PREVIOUS          ->read(),c_addr      );
           TEST(Tgeneral_address_t,out_PREDICT_PC_CURRENT           ->read(),n_addr      );
           TEST(Tcontrol_t        ,out_PREDICT_PC_CURRENT_IS_DS_TAKE->read(),n_is_ds_take);
           nn_val        = true;
           nn_addr       = in_PREDICT_PC_NEXT           ->read();
           nn_is_ds_take = in_PREDICT_PC_NEXT_IS_DS_TAKE->read();
+//       if (in_ICACHE_RSP_VAL->read() and out_ICACHE_RSP_ACK->read())
+//      {
+//        LABEL("ICACHE_RSP : Transaction accepted");
+//        slot_use[cache->read()._data->packet] = false;
+//        cache->pop();
+//      }
+//       if (out_PREDICT_VAL->read() and in_PREDICT_ACK->read())
+//      {
+//        LABEL("PREDICT    : Transaction accepted");
+//        if (c_val)
+//        TEST(Tgeneral_address_t,out_PREDICT_PC_PREVIOUS          ->read(),c_addr      );
+//        TEST(Tgeneral_address_t,out_PREDICT_PC_CURRENT           ->read(),n_addr      );
+//        TEST(Tcontrol_t        ,out_PREDICT_PC_CURRENT_IS_DS_TAKE->read(),n_is_ds_take);
+//        nn_val        = true;
+//        nn_addr       = in_PREDICT_PC_NEXT           ->read();
+//        nn_is_ds_take = in_PREDICT_PC_NEXT_IS_DS_TAKE->read();
           for (uint32_t i=0; i<_param->_nb_instruction; i++)
           n_enable [i]  = in_PREDICT_INSTRUCTION_ENABLE [i]->read();
+        }
       if (not c_val)
+        {
           if (n_val and nn_val)
+            {
               c_val        = 1;
               c_addr       = n_addr;
               c_is_ds_take = n_is_ds_take;
               for (uint32_t i=0; i<_param->_nb_instruction; i++)
                 c_enable [i] = n_enable [i];
+//        for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//        n_enable [i]  = in_PREDICT_INSTRUCTION_ENABLE [i]->read();
+//      }
+//       if (not c_val)
+//      {
+//        if (n_val and nn_val)
+//          {
+//            c_val        = 1;
+//            c_addr       = n_addr;
+//            c_is_ds_take = n_is_ds_take;
+//            for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//              c_enable [i] = n_enable [i];
               n_val        = 1;
               n_addr       = nn_addr;
               n_is_ds_take = nn_is_ds_take;
+//            n_val        = 1;
+//            n_addr       = nn_addr;
+//            n_is_ds_take = nn_is_ds_take;
               nn_val       = 0;
+            }
+        }
       if (in_EVENT_VAL->read() and out_EVENT_ACK->read())
+        {
           LABEL("EVENT      : Transaction accepted");
           c_val           = false;
           n_val           = true;
           n_addr          = in_EVENT_ADDRESS->read();
           n_is_ds_take    = in_EVENT_IS_DS_TAKE->read();
           nn_val          = in_EVENT_ADDRESS_NEXT_VAL->read();
           nn_addr         = in_EVENT_ADDRESS_NEXT    ->read();
           nn_is_ds_take   = 0;
           n_enable [0] = 1;
           for (uint32_t i=1; i<_param->_nb_instruction; i++)
             n_enable [i] = 0;
+        }
+//            nn_val       = 0;
+//          }
+//      }
+//       if (in_EVENT_VAL->read() and out_EVENT_ACK->read())
+//      {
+//        LABEL("EVENT      : Transaction accepted");
+//        c_val           = false;
+//        n_val           = true;
+//        n_addr          = in_EVENT_ADDRESS->read();
+//        n_is_ds_take    = in_EVENT_IS_DS_TAKE->read();
+//        nn_val          = in_EVENT_ADDRESS_NEXT_VAL->read();
+//        nn_addr         = in_EVENT_ADDRESS_NEXT    ->read();
+//           nn_is_ds_take   = 0;
+//        n_enable [0] = 1;
+//        for (uint32_t i=1; i<_param->_nb_instruction; i++)
+//          n_enable [i] = 0;
+//      }
+      {
         string str_c_enable = "";
         string str_n_enable = "";
         for (uint32_t i=0; i<_param->_nb_instruction; i++)
+          {
             str_c_enable += " " + toString(c_enable [i]);
             str_n_enable += " " + toString(n_enable [i]);
+          }
         LABEL("-----------------------------------");
         LABEL("  * nb_packet_in  : %d",nb_packet_in);
         LABEL("  * nb_packet_out : %d",nb_packet_out);
         LABEL("  * pc   : %d %d %.8x %s",c_val  ,c_is_ds_take , c_addr ,str_c_enable.c_str());
         if (nn_val)
+          {
         LABEL("  * pc+4 : %d %d %.8x %s",n_val  ,n_is_ds_take , n_addr ,str_n_enable.c_str());
+          }
         else
+          {
         LABEL("  * pc+4 : %d %d %.8x"   ,n_val  ,n_is_ds_take , n_addr );
+          }
         LABEL("  * pc+8 : %d %d %.8x"   ,nn_val ,nn_is_ds_take, nn_addr);
         LABEL("-----------------------------------");
+      }
       SC_START(1);
       cache->transition();
+//       {
+//      string str_c_enable = "";
+//      string str_n_enable = "";
+//      for (uint32_t i=0; i<_param->_nb_instruction; i++)
+//        {
+//          str_c_enable += " " + toString(c_enable [i]);
+//          str_n_enable += " " + toString(n_enable [i]);
+//        }
+//      LABEL("-----------------------------------");
+//      LABEL("  * nb_packet_in  : %d",nb_packet_in);
+//      LABEL("  * nb_packet_out : %d",nb_packet_out);
+//      LABEL("  * pc   : %d %d %.8x %s",c_val  ,c_is_ds_take , c_addr ,str_c_enable.c_str());
+//      if (nn_val)
+//        {
+//      LABEL("  * pc+4 : %d %d %.8x %s",n_val  ,n_is_ds_take , n_addr ,str_n_enable.c_str());
+//        }
+//      else
+//        {
+//      LABEL("  * pc+4 : %d %d %.8x"   ,n_val  ,n_is_ds_take , n_addr );
+//        }
+//      LABEL("  * pc+8 : %d %d %.8x"   ,nn_val ,nn_is_ds_take, nn_addr);
+//      LABEL("-----------------------------------");
+//       }
+//       SC_START(1);
+//       cache->transition();
+    }

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

-                      r88
+                      r101
   public    : SC_IN (Tcontrol_t         )   *  in_PREDICT_PC_NEXT_IS_DS_TAKE          ;
   public    : SC_IN (Tcontrol_t         )  **  in_PREDICT_INSTRUCTION_ENABLE          ; //[nb_instruction]
-  public    : SC_IN (Tinst_ifetch_ptr_t )   *  in_PREDICT_INST_IFETCH_PTR             ;
   public    : SC_IN (Tbranch_state_t    )   *  in_PREDICT_BRANCH_STATE                ;
   public    : SC_IN (Tprediction_ptr_t  )   *  in_PREDICT_BRANCH_UPDATE_PREDICTION_ID ;
+  public    : SC_IN (Tinst_ifetch_ptr_t )   *  in_PREDICT_INST_IFETCH_PTR             ;
     // ~~~~~[ Interface : "decod" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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

-                      r100
+                      r101
                     // Branch is the last slot : next paquet is the delay slot
                     pc_next            = address_src+1; // sequencial
+                    pc_next            = address_src+1; // sequential
                     pc_next_is_ds_take = 1;
                     address_msb        = _param->_nb_instruction [context]; // == (address_src_lsb+1)
 …
                 // Take the address packet base and add new packet
                 pc_next                     = pc_current-address_lsb+_param->_nb_instruction [context]; // sequencial
+                pc_next                     = pc_current-address_lsb+_param->_nb_instruction [context]; // sequential
                 pc_next_is_ds_take          = 0; // no branch, also no delay slot
                 inst_ifetch_ptr             = 0;

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

-                      r98
+                      r101
   ALLOC1_SC_SIGNAL( in_EVENT_DEPTH                        ," in_EVENT_DEPTH                        ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_VAL                          ,"out_DEPTH_VAL                          ",Tcontrol_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);
   ALLOC1_SC_SIGNAL(out_DEPTH_MAX                          ,"out_DEPTH_MAX                          ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_FULL                         ,"out_DEPTH_FULL                         ",Tcontrol_t         ,_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);
+    }
   INSTANCE1_SC_SIGNAL(_Prediction_unit,out_DEPTH_MAX                          ,_param->_nb_context);
+    }
+  INSTANCE1_SC_SIGNAL(_Prediction_unit,out_DEPTH_VAL                          ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Prediction_unit,out_DEPTH_FULL                         ,_param->_nb_context);
   msg(_("<%s> : Start Simulation ............\n"),name.c_str());
 …
   DELETE1_SC_SIGNAL( in_EVENT_DEPTH                    ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_DEPTH_VAL          ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_CURRENT      ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_MIN          ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_MAX          ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_DEPTH_FULL         ,_param->_nb_context);
 #endif

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

-                      r98
+                      r101
   ALLOC1_SC_SIGNAL( in_EVENT_DEPTH                    ," in_EVENT_DEPTH                    ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_VAL                      ,"out_DEPTH_VAL                      ",Tcontrol_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);
   ALLOC1_SC_SIGNAL(out_DEPTH_MAX                      ,"out_DEPTH_MAX                      ",Tdepth_t           ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_FULL                     ,"out_DEPTH_FULL                     ",Tcontrol_t         ,_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);
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_MAX                      ,_param->_nb_context);
+    }
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_MAX                      ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_VAL                      ,_param->_nb_context);
+  INSTANCE1_SC_SIGNAL(_Update_Prediction_Table,out_DEPTH_FULL                     ,_param->_nb_context);
   msg(_("<%s> : Start Simulation ............\n"),name.c_str());
 …
                   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); // fct melay
 …
               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]);
+                }
+            }
+        }
 …
               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]);
+                }
+            }
+        }
 …
                   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);
 …
               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]);
+                }
+            }
+        }
 …
 //                   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);
 …
                   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); // fct melay
 …
               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]);
+                }
+            }
+        }
 …
               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]);
+                }
+            }
+        }
 …
                   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);
 …
               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]);
+                }
+            }
+        }
 …
                   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); // fct melay
 …
               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]);
+                }
+            }
+        }
 …
               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]);
+                }
+            }
+        }
 …
                   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);
 …
               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]);
+                }
+            }
+        }
 …
                     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); // fct melay
 …
                 if (_param->_have_port_depth)
+                  TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
+                  {
+                TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
                 TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+                  }
+              }
+          }
 …
                 if (_param->_have_port_depth)
+                  TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
+                  {
+                TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
                 TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+                  }
+              }
+          }
 …
                     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); // fct melay
 …
                 if (_param->_have_port_depth)
+                  TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
+                  {
+                TEST(Tdepth_t,out_DEPTH_MIN [context]->read(), upt_bottom [context]);
                 TEST(Tdepth_t,out_DEPTH_MAX [context]->read(), upt_top [context]);
+                  }
+              }
+          }
 …
                   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);
 …
               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]);
+                }
+            }
+          }
 …
                   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);
 …
               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]);
+                }
+            }
+          }
 …
   // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  delete [] out_DEPTH_VAL;
   delete [] out_DEPTH_CURRENT;
   delete [] out_DEPTH_MIN;
   delete [] out_DEPTH_MAX;
+  delete [] out_DEPTH_FULL;
 #endif

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

-                      r95
+                      r101
       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_WAIT_END_EVENT          // prediction unit is ok, wait the end of event (send by Context State)
     } event_state_t;
 …
       UPDATE_PREDICTION_STATE_EVENT             , // previous branch is a miss prediction
       UPDATE_PREDICTION_STATE_END_OK            , // branch is updated,       update pointer
+      UPDATE_PREDICTION_STATE_END_KO_WAIT_END   , // branch is updated, don't update pointer
       UPDATE_PREDICTION_STATE_END_KO              // branch is updated, don't update pointer
     } upt_state_t;
 …
       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_OK     : return "end_ok"    ; break;
+      case morpheo::behavioural::core::multi_front_end::front_end::prediction_unit::update_prediction_table::UPDATE_PREDICTION_STATE_END_KO_WAIT_END: return "end_ko_wait_end"    ; 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

-                      r98
+                      r101
     // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  public    : SC_OUT(Tcontrol_t         )  ** out_DEPTH_VAL                      ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_CURRENT                  ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_MIN                      ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_MAX                      ; //[nb_context]
+  public    : SC_OUT(Tcontrol_t         )  ** out_DEPTH_FULL                     ; //[nb_context]
     // If DEPTH_CURRENT :
     // equal at     DEPTH_MIN            -> not speculative
 …
   private   : uint32_t                      * reg_UPT_TOP_EVENT                  ; //[nb_context]
   private   : uint32_t                      * reg_UPT_UPDATE                     ; //[nb_context]
+  private   : bool                          * reg_UPT_EMPTY                      ; //[nb_context]
   private   : bool                          * reg_IS_ACCURATE                    ; //[nb_context]

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

-                      r98
+                      r101
+    {
       ALLOC1_INTERFACE("depth",OUT,SOUTH, "depth", _param->_nb_context);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_CURRENT,"CURRENT",Tdepth_t,_param->_size_depth);
+      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);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_VAL    ,"VAL"    ,Tcontrol_t,1);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_CURRENT,"CURRENT",Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_MIN    ,"MIN"    ,Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_MAX    ,"MAX"    ,Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_FULL   ,"FULL"   ,Tcontrol_t,1);
+    }
 …
     ALLOC1(reg_UPT_TOP_EVENT                ,uint32_t     ,_param->_nb_context);
     ALLOC1(reg_UPT_UPDATE                   ,uint32_t     ,_param->_nb_context);
+    ALLOC1(reg_UPT_EMPTY                    ,bool         ,_param->_nb_context);
     ALLOC1(reg_EVENT_STATE                  ,event_state_t,_param->_nb_context);

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

-                      r98
+                      r101
         // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+        DELETE1_SIGNAL(out_DEPTH_VAL          ,_param->_nb_context,1);
         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);
+        DELETE1_SIGNAL(out_DEPTH_MAX          ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL(out_DEPTH_FULL         ,_param->_nb_context,1);
         // ~~~~~[ Internal ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
         DELETE1(reg_UPT_TOP_EVENT                ,_param->_nb_context);
         DELETE1(reg_UPT_UPDATE                   ,_param->_nb_context);
+        DELETE1(reg_UPT_EMPTY                    ,_param->_nb_context);
         DELETE1(reg_EVENT_STATE                  ,_param->_nb_context);

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

-                      r98
+                      r101
     for (uint32_t i=0; i<_param->_nb_context; i++)
+      {
+        // is a valid instruction ?
+        // If DEPTH_CURRENT :
+        // equal at     DEPTH_MIN            -> not speculative
+        // not include ]DEPTH_MIN:DEPTH_MAX] -> previous branch miss
+        //     include ]DEPTH_MIN:DEPTH_MAX] -> speculative
+        PORT_WRITE(out_DEPTH_VAL     [i],(reg_UPDATE_PREDICTION_TABLE [i][reg_UPT_TOP [i]]._state == UPDATE_PREDICTION_STATE_EMPTY));
         if (_param->_have_port_depth)
+          {
         PORT_WRITE(out_DEPTH_CURRENT [i], reg_UPT_TOP    [i]);
         PORT_WRITE(out_DEPTH_MIN     [i], reg_UPT_BOTTOM [i]);
+          }
         PORT_WRITE(out_DEPTH_MAX     [i], reg_UPT_TOP    [i]);
+          }
+        PORT_WRITE(out_DEPTH_FULL    [i], not reg_UPT_EMPTY [i] and (reg_UPT_TOP [i] == reg_UPT_BOTTOM [i]));
+//         bool empty = reg_UPT_EMPTY [i];
+//      PORT_WRITE(out_DEPTH_MAX     [i], ((empty)?reg_UPT_BOTTOM [i]:((reg_UPT_TOP [i]==0)?(_param->_size_upt_queue[i]-1):(reg_UPT_TOP [i]-1))));
+      }

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

-                      r98
+                      r101
             reg_UPT_TOP_EVENT        [i] = 0;
             reg_UPT_UPDATE           [i] = 0;
+            reg_UPT_EMPTY            [i] = true;
             reg_IS_ACCURATE          [i] = true;
 …
             // UPDATE_PREDICTION_TABLE
+            {
+              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);
+              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);
+//               event_state_t event_state = reg_EVENT_STATE [i];
               // Test if state is end
+//               if ((end_ok or end_ko) and
+//                   ((event_state != EVENT_STATE_UPDATE_CONTEXT) and
+//                    (event_state != EVENT_STATE_WAIT_END_EVENT)))
               if (end_ok or end_ko)
+                {
 …
                   // Update pointer
                   reg_UPT_BOTTOM [i] = (bottom+1)%_param->_size_upt_queue[i];
+                  if (reg_UPT_BOTTOM [i] == reg_UPT_TOP [i])
+                    reg_UPT_EMPTY [i] = true; // free a slot
 //                   if (bottom = reg_UPT_UPDATE [i])
 //                     reg_UPT_UPDATE [i] = reg_UPT_BOTTOM [i];
 …
                       reg_UPT_TOP    [i] = reg_UPT_TOP_EVENT [i];
                       reg_UPT_UPDATE [i] = reg_UPT_TOP_EVENT [i];
+                      if (reg_UPT_BOTTOM [i] != reg_UPT_TOP [i])
+                        reg_UPT_EMPTY [i] = false;
+                    }
+                }
 …
               // Update pointer
               reg_UPT_TOP     [context] = (upt_ptr_write+1)%_param->_size_upt_queue [context];
+              reg_UPT_EMPTY   [context] = false;
 //            reg_UPT_UPDATE  [context] = reg_UPT_TOP [context];
+            }
 …
                   reg_UPT_TOP_EVENT [context] = top;
+                  if (reg_UPT_BOTTOM [context] == reg_UPT_TOP [context])
+                    reg_UPT_EMPTY [i] = true;
 #ifdef DEBUG_TEST
                   if (reg_UPDATE_PREDICTION_TABLE [context][depth]._state != UPDATE_PREDICTION_STATE_WAIT_END)
 …
                       if (ko)
+                        {
+                          // Ko : wait end of all instruction
+//                           log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END_KO_WAIT_END (update)",context,depth);
+//                           reg_UPDATE_PREDICTION_TABLE [context][depth]._state = UPDATE_PREDICTION_STATE_END_KO_WAIT_END;
                           log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END_KO (update)",context,depth);
 …
                       // Free the branch with no accurate ?
                       if (reg_UPDATE_PREDICTION_TABLE [context][depth]._is_accurate == false)
+                      if ( (reg_UPDATE_PREDICTION_TABLE [context][depth]._is_accurate == false) and not ko)
                         reg_IS_ACCURATE [context] = true;
+                    }
 …
 //            Tdepth_t       depth       = PORT_READ(in_EVENT_DEPTH [i]);
+              // Test if end of miss
+              // Test if end of miss -> all previous branch is complete
+              //                     -> all next     branch is finish
               if (event_type  == EVENT_TYPE_MISS_SPECULATION)
+                {
 …
                   reg_EVENT_STATE [i] = EVENT_STATE_OK;
+                  reg_IS_ACCURATE [i] = true;
+//                   Tdepth_t depth = reg_UPT_TOP [i];
+#ifdef DEBUG_TEST
+//                   if (reg_UPDATE_PREDICTION_TABLE [i][depth]._state != UPDATE_PREDICTION_STATE_END_KO_WAIT_END)
+//                     throw ERRORMORPHEO(FUNCTION,_("Event : invalid upt event state."));
+//                   if (reg_UPDATE_PREDICTION_TABLE [i][depth]._state != UPDATE_PREDICTION_STATE_END_KO)
+//                     throw ERRORMORPHEO(FUNCTION,_("Event : invalid upt event state."));
+#endif
+//                   log_printf(TRACE,Update_Prediction_Table,FUNCTION,"    * UPT  [%d][%d].state <- UPDATE_PREDICTION_STATE_END_KO (update)",i,depth);
+//                   reg_UPDATE_PREDICTION_TABLE [i][depth]._state = UPDATE_PREDICTION_STATE_END_KO;
+                }
+            }
 …
         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]);
+        log_printf(TRACE,Update_Prediction_Table,FUNCTION,"      * reg_UPT_EMPTY           : %d",reg_UPT_EMPTY          [i]);
         for (uint32_t j=0; j<_param->_size_upt_queue[i]; j++)
           log_printf(TRACE,Update_Prediction_Table,FUNCTION,"        [%d] %.4d, %.8x %.8x, %.1d %.1d %.1d, %.8d %.8x %.4d - %s",

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

-                      r98
+                      r101
     // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  public    : SC_OUT(Tcontrol_t         )  ** out_DEPTH_VAL                           ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_CURRENT                       ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_MIN                           ; //[nb_context]
   public    : SC_OUT(Tdepth_t           )  ** out_DEPTH_MAX                           ; //[nb_context]
+  public    : SC_OUT(Tcontrol_t         )  ** out_DEPTH_FULL                          ; //[nb_context]
     // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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

-                      r98
+                      r101
       ALLOC1_INTERFACE("depth",OUT,SOUTH,"Interface with depth",_param->_nb_context);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_CURRENT      ,"current"      ,Tdepth_t,_param->_size_depth);
+      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);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_VAL          ,"val"          ,Tcontrol_t,1);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_CURRENT      ,"current"      ,Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_MIN          ,"min"          ,Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_MAX          ,"max"          ,Tdepth_t  ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT(out_DEPTH_FULL         ,"full"         ,Tcontrol_t,1);
+    }
 …
 #endif
+          PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_VAL",
+                              dest,"out_DEPTH_"+toString(i)+"_VAL");
+          PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_FULL",
+                              dest,"out_DEPTH_"+toString(i)+"_FULL");
           if (_param->_have_port_depth)
+            {
 …
           PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_MIN",
                               dest,"out_DEPTH_"+toString(i)+"_MIN");
+            }
           PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_MAX",
                               dest,"out_DEPTH_"+toString(i)+"_MAX");
+            }
+        }

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

-                      r98
+                      r101
         DELETE1_SIGNAL( in_EVENT_DEPTH  ,_param->_nb_context,_param->_size_depth      );
+        DELETE1_SIGNAL(out_DEPTH_VAL          ,_param->_nb_context,1);
         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);
+        DELETE1_SIGNAL(out_DEPTH_MAX          ,_param->_nb_context,_param->_size_depth);
+        DELETE1_SIGNAL(out_DEPTH_FULL         ,_param->_nb_context,1);
+      }
     // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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

-                      r98
+                      r101
   ALLOC1_SC_SIGNAL(out_DEPTH_MIN                      ,"out_DEPTH_MIN                      ",Tdepth_t             ,_param->_nb_context);
   ALLOC1_SC_SIGNAL(out_DEPTH_MAX                      ,"out_DEPTH_MAX                      ",Tdepth_t             ,_param->_nb_context);
+  ALLOC1_SC_SIGNAL(out_DEPTH_FULL                     ,"out_DEPTH_FULL                     ",Tcontrol_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_SPR_SR_IEE                     ," in_SPR_SR_IEE                     ",Tcontrol_t           ,_param->_nb_context);
   ALLOC1_SC_SIGNAL( in_SPR_SR_EPH                     ," in_SPR_SR_EPH                     ",Tcontrol_t           ,_param->_nb_context);
 …
   INSTANCE1_SC_SIGNAL(_Front_end, in_NB_INST_COMMIT_MEM             ,_param->_nb_context);
   if (_param->_have_port_depth)
+    {
   INSTANCE1_SC_SIGNAL(_Front_end,out_DEPTH_MIN                      ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Front_end,out_DEPTH_MAX                      ,_param->_nb_context);
+    }
+  INSTANCE1_SC_SIGNAL(_Front_end,out_DEPTH_FULL                     ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Front_end, in_SPR_SR_IEE                     ,_param->_nb_context);
   INSTANCE1_SC_SIGNAL(_Front_end, in_SPR_SR_EPH                     ,_param->_nb_context);
 …
       TEST(Tdepth_t  ,out_DEPTH_MIN           [i]->read(),0); // no branch speculated
       TEST(Tdepth_t  ,out_DEPTH_MAX           [i]->read(),0); // no branch speculated
+      TEST(Tdepth_t  ,out_DEPTH_FULL          [i]->read(),0); // no branch speculated
+    }
   for (uint32_t i=0; i<_param->_sum_inst_decod; ++i)
 …
   DELETE1_SC_SIGNAL(out_DEPTH_MIN                      ,_param->_nb_context);
   DELETE1_SC_SIGNAL(out_DEPTH_MAX                      ,_param->_nb_context);
+  DELETE1_SC_SIGNAL(out_DEPTH_FULL                     ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_SPR_SR_IEE                     ,_param->_nb_context);
   DELETE1_SC_SIGNAL( in_SPR_SR_EPH                     ,_param->_nb_context);

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

r98	r101
155	155	public : SC_OUT(Tdepth_t ) ** out_DEPTH_MIN ;//[nb_context]
156	156	public : SC_OUT(Tdepth_t ) ** out_DEPTH_MAX ;//[nb_context]
	157	public : SC_OUT(Tcontrol_t ) ** out_DEPTH_FULL ;//[nb_context]
157	158
158	159	// ~~~~~[ Interface : "spr" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

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

-                      r98
+                      r101
       ALLOC1_INTERFACE("depth",OUT,EAST,_("Interface depth"),_param->_nb_context);
+      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);
+      ALLOC1_SIGNAL_OUT (out_DEPTH_MIN                        ,"MIN"              ,Tdepth_t             ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT (out_DEPTH_MAX                        ,"MAX"              ,Tdepth_t             ,_param->_size_depth);
+      ALLOC1_SIGNAL_OUT (out_DEPTH_FULL                       ,"FULL"             ,Tcontrol_t           ,1);
+    }
 …
 #endif
+          COMPONENT_MAP(_component,src ,"out_DEPTH_"+toString(i)+                "_VAL",
+                                   dest, "in_DEPTH_"+toString(i)+"_PREDICTION_UNIT_VAL");
           if (_param->_have_port_depth)
+            {
 …
           COMPONENT_MAP(_component,src ,"out_DEPTH_"+toString(i)+                "_MIN"    ,
                                    dest, "in_DEPTH_"+toString(i)+"_PREDICTION_UNIT_MIN"    );
+            }
           COMPONENT_MAP(_component,src ,"out_DEPTH_"+toString(i)+                "_MAX"    ,
                                    dest, "in_DEPTH_"+toString(i)+"_PREDICTION_UNIT_MAX"    );
+            }
+          COMPONENT_MAP(_component,src ,"out_DEPTH_"+toString(i)+                "_FULL"   ,
+                                   dest, "in_DEPTH_"+toString(i)+"_PREDICTION_UNIT_FULL"   );
+        }
+    }
 …
           if (_param->_have_port_depth)
+            {
           COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+                           "_MIN",
                                    dest,"out_DEPTH_"+toString(i)+"_"+toString(j)+"_DECOD_UNIT_MIN");
           COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+                           "_MAX",
                                    dest,"out_DEPTH_"+toString(i)+"_"+toString(j)+"_DECOD_UNIT_MAX");
+            }
+          COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+                           "_FULL",
+                                   dest,"out_DEPTH_"+toString(i)+"_"+toString(j)+"_DECOD_UNIT_FULL");
+        }
 …
 #endif
+          COMPONENT_MAP(_component,src , "in_CONTEXT_"+toString(j)+                           "_DEPTH_VAL",
+                                   dest,"out_CONTEXT_"+toString(i)+"_"+toString(j)+"_DECOD_UNIT_DEPTH_VAL");
           if (_param->_have_port_depth)
           COMPONENT_MAP(_component,src , "in_CONTEXT_"+toString(j)+                           "_DEPTH",
 …
           if (_param->_have_port_depth)
+            {
           PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_MIN",
                               dest,"out_DEPTH_"+toString(i)+"_MIN");
           PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_MAX",
                               dest,"out_DEPTH_"+toString(i)+"_MAX");
+        }
+            }
+          PORT_MAP(_component,src ,"out_DEPTH_"+toString(i)+"_FULL",
+                              dest,"out_DEPTH_"+toString(i)+"_FULL");
+        }
+      //   in_DEPTH_PREDICTION_UNIT_VAL                         - component_prediction_unit
       //   in_DEPTH_PREDICTION_UNIT_CURRENT                     - component_prediction_unit
       //   in_DEPTH_PREDICTION_UNIT_MIN                         - component_prediction_unit
       //   in_DEPTH_PREDICTION_UNIT_MAX                         - component_prediction_unit
+      //   in_DEPTH_PREDICTION_UNIT_FULL                        - component_prediction_unit
       //  out_DEPTH_DECOD_UNIT_MIN                              - component_decod_unit
       //  out_DEPTH_DECOD_UNIT_MAX                              - component_decod_unit
+      //  out_DEPTH_DECOD_UNIT_FULL                             - component_decod_unit
       //  out_DEPTH_CONTEXT_STATE_MIN                           - component_context_state
       // ~~~~~[ Interface : "context"" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+      //  out_CONTEXT_DECOD_UNIT_DEPTH_VAL                      - component_decod_unit
       //  out_CONTEXT_DECOD_UNIT_DEPTH                          - component_decod_unit
+    }

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

r98	r101
104	104	DELETE1_SIGNAL(out_DEPTH_MIN ,_param->_nb_context,_param->_size_depth );
105	105	DELETE1_SIGNAL(out_DEPTH_MAX ,_param->_nb_context,_param->_size_depth+1);
	106	DELETE1_SIGNAL(out_DEPTH_FULL ,_param->_nb_context,_param->_size_depth+1);
106	107
107	108	DELETE1_SIGNAL( in_SPR_SR_IEE ,_param->_nb_context,1);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/SelfTest/src/test.cpp

-                      r98
+                      r101
   ALLOC2_SC_SIGNAL( in_DEPTH_MIN                      ," in_DEPTH_MIN                      ",Tdepth_t          ,_param->_nb_front_end,_param->_nb_context[it1]);
   ALLOC2_SC_SIGNAL( in_DEPTH_MAX                      ," in_DEPTH_MAX                      ",Tdepth_t          ,_param->_nb_front_end,_param->_nb_context[it1]);
+  ALLOC2_SC_SIGNAL( in_DEPTH_FULL                     ," in_DEPTH_FULL                     ",Tcontrol_t        ,_param->_nb_front_end,_param->_nb_context[it1]);
   ALLOC2_SC_SIGNAL( in_SPR_READ_SR_OVE                ," in_SPR_READ_SR_OVE                ",Tcontrol_t        ,_param->_nb_front_end,_param->_nb_context[it1]);
 …
   INSTANCE2_SC_SIGNAL(_Commit_unit,out_NB_INST_COMMIT_ALL             ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_Commit_unit,out_NB_INST_COMMIT_MEM             ,_param->_nb_front_end,_param->_nb_context[it1]);
+  if (_param->_have_port_depth)
+    {
+  INSTANCE2_SC_SIGNAL(_Commit_unit, in_DEPTH_MIN                      ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_Commit_unit, in_DEPTH_MAX                      ,_param->_nb_front_end,_param->_nb_context[it1]);
+    }
+  INSTANCE2_SC_SIGNAL(_Commit_unit, in_DEPTH_FULL                     ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_Commit_unit, in_SPR_READ_SR_OVE                ,_param->_nb_front_end,_param->_nb_context[it1]);
 …
   INSTANCE2_SC_SIGNAL(_Commit_unit,out_SPR_WRITE_SR_OV                ,_param->_nb_front_end,_param->_nb_context[it1]);
-  for (uint32_t i=0; i<_param->_nb_front_end; i++)
-    for (uint32_t j=0; j<_param->_nb_context[i]; j++)
-      if (_param->_have_port_depth)
-        INSTANCE_SC_SIGNAL(_Commit_unit, in_DEPTH_MIN  [i][j]);
   msg(_("<%s> : Start Simulation ............\n"),name.c_str());
 …
   DELETE2_SC_SIGNAL( in_DEPTH_MIN                      ,_param->_nb_front_end,_param->_nb_context[it1]);
   DELETE2_SC_SIGNAL( in_DEPTH_MAX                      ,_param->_nb_front_end,_param->_nb_context[it1]);
+  DELETE2_SC_SIGNAL( in_DEPTH_FULL                     ,_param->_nb_front_end,_param->_nb_context[it1]);
   DELETE2_SC_SIGNAL( in_SPR_READ_SR_OVE                ,_param->_nb_front_end,_param->_nb_context[it1]);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/include/Commit_unit.h

r100	r101
194	194	public : SC_IN (Tdepth_t ) *** in_DEPTH_MIN ;//[nb_front_end][nb_context]
195	195	public : SC_IN (Tdepth_t ) *** in_DEPTH_MAX ;//[nb_front_end][nb_context]
	196	public : SC_IN (Tcontrol_t ) *** in_DEPTH_FULL ;//[nb_front_end][nb_context]
196	197
197	198	// ~~~~~[ Interface : "spr_read" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/src/Commit_unit_allocation.cpp

-                      r100
+                      r101
       ALLOC2_INTERFACE("depth",IN,WEST,_("Interface with Prediction unit."),_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MIN                     ,"min"      ,Tdepth_t           ,_param->_size_depth  ,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MAX                     ,"max"      ,Tdepth_t           ,_param->_size_depth+1,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MIN                     ,"min"      ,Tdepth_t           ,_param->_size_depth,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MAX                     ,"max"      ,Tdepth_t           ,_param->_size_depth,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_FULL                    ,"full"     ,Tcontrol_t         ,1                  ,_param->_nb_front_end, _param->_nb_context[it1]);
+    }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/src/Commit_unit_deallocation.cpp

-                      r100
+                      r101
         DELETE2_SIGNAL(out_NB_INST_COMMIT_MEM             ,_param->_nb_front_end, _param->_nb_context[it1],_param->_size_nb_inst_commit);
+        DELETE2_SIGNAL( in_DEPTH_MIN                      ,_param->_nb_front_end, _param->_nb_context[it1],_param->_size_depth  );
+        DELETE2_SIGNAL( in_DEPTH_MAX                      ,_param->_nb_front_end, _param->_nb_context[it1],_param->_size_depth+1);
+        DELETE2_SIGNAL( in_DEPTH_MIN                      ,_param->_nb_front_end, _param->_nb_context[it1],_param->_size_depth);
+        DELETE2_SIGNAL( in_DEPTH_MAX                      ,_param->_nb_front_end, _param->_nb_context[it1],_param->_size_depth);
+        DELETE2_SIGNAL( in_DEPTH_FULL                     ,_param->_nb_front_end, _param->_nb_context[it1],1);
         DELETE2_SIGNAL( in_SPR_READ_SR_OVE                ,_param->_nb_front_end, _param->_nb_context[it1],1);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Commit_unit/src/Commit_unit_transition.cpp

-                      r100
+                      r101
         if (internal_REEXECUTE_VAL [0] and PORT_READ(in_REEXECUTE_ACK [0]))
+          {
+            log_printf(TRACE,Commit_unit,FUNCTION,"  * REEXECUTE         [0]");
             uint32_t num_bank = internal_REEXECUTE_NUM_BANK [0];
 …
           if (internal_BRANCH_COMPLETE_VAL [i] and PORT_READ(in_BRANCH_COMPLETE_ACK [i]))
+            {
+              log_printf(TRACE,Commit_unit,FUNCTION,"  * BRANCH_COMPLETE   [%d]",i);
+              log_printf(TRACE,Commit_unit,FUNCTION,"    * miss_prediction : %d",PORT_READ(in_BRANCH_COMPLETE_MISS_PREDICTION [i]));
               uint32_t num_bank = internal_BRANCH_COMPLETE_NUM_BANK [i];
 …
 #endif
               entry->state = (PORT_READ(in_BRANCH_COMPLETE_MISS_PREDICTION [i]))?ROB_END_OK_SPECULATIVE:ROB_END_BRANCH_MISS_SPECULATIVE;
+              entry->state = (PORT_READ(in_BRANCH_COMPLETE_MISS_PREDICTION [i]))?ROB_END_BRANCH_MISS_SPECULATIVE:ROB_END_OK_SPECULATIVE;
 //               entry->state = ROB_END_OK_SPECULATIVE;
+            }
 …
               Tdepth_t     depth        = entry->depth;
+              Tdepth_t     depth_min    = (_param->_have_port_depth)?PORT_READ(in_DEPTH_MIN [front_end_id][context_id]):0;
+              Tdepth_t     depth_max    = PORT_READ(in_DEPTH_MAX[front_end_id][context_id]);
+              Tdepth_t     depth_min    = (_param->_have_port_depth)?PORT_READ(in_DEPTH_MIN[front_end_id][context_id]):0;
+              Tdepth_t     depth_max    = (_param->_have_port_depth)?PORT_READ(in_DEPTH_MAX[front_end_id][context_id]):0;
+              Tcontrol_t   depth_full   = PORT_READ(in_DEPTH_FULL [front_end_id][context_id]);
               // is a valid instruction ?
               // If DEPTH_CURRENT :
               // equal at     DEPTH_MIN            -> not speculative
               // not include ]DEPTH_MIN:DEPTH_MAX[ -> previous branch miss
               //     include ]DEPTH_MIN:DEPTH_MAX[ -> speculative
+              // not include ]DEPTH_MIN:DEPTH_MAX] -> previous branch miss
+              //     include ]DEPTH_MIN:DEPTH_MAX] -> speculative
               // All case
 …
               Tcontrol_t   is_valid      = ((depth == depth_min) or
+                                            ((depth_min < depth_max)?
+                                             (depth<depth_max):
+                                             ((depth > depth_min) or (depth < depth_max))));
+                                            depth_full or
+                                            ((depth_min <= depth_max)?
+                                             ((depth >= depth_min) and (depth <=depth_max)):
+                                             ((depth >= depth_min) or  (depth <=depth_max))));
+              log_printf(TRACE,Commit_unit,FUNCTION,"  * HEAD              [%d]",i);
+              log_printf(TRACE,Commit_unit,FUNCTION,"    * is_valid        : %d",is_valid);
+              log_printf(TRACE,Commit_unit,FUNCTION,"    * depth           : %d",depth    );
+              log_printf(TRACE,Commit_unit,FUNCTION,"    * depth_min       : %d",depth_min);
+              log_printf(TRACE,Commit_unit,FUNCTION,"    * depth_max       : %d",depth_max);
               //------------------------------------------------------
               // test if instruction is miss speculative
 …
                        toString((*it)->state).c_str() ,
                        (*it)->ptr                     );
             log_printf(TRACE,Commit_unit,FUNCTION,"             %.1d %.5d %.6d, %.1d %.5d %.6d, %.1d %.5d %.6d, %.1d %.1d %.6d %.6d, %.1d %.1d %.6d %.6d ",
+            log_printf(TRACE,Commit_unit,FUNCTION,"             %.1d %.2d %.6d, %.1d %.2d %.6d, %.1d %.1d %.6d, %.1d %.2d %.6d %.6d, %.1d %.1d %.6d %.6d ",
                        (*it)->read_ra                 ,
                        (*it)->num_reg_ra_log          ,
 …
             log_printf(TRACE,Commit_unit,FUNCTION,"             %.2d %.2d %.1d %.1d %.8x",
+                       (*it)->exception_use ,
                        (*it)->exception     ,
-                       (*it)->exception_use ,
                        (*it)->flags         ,
                        (*it)->no_sequence   ,

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Reexecute_unit/src/Reexecute_unit_transition.cpp

r98	r101
86	86	{
87	87	entry->data = PORT_READ(in_SPR_RDATA [i]);
88		entry->write_rd = not PORT_READ(in_SPR_INVALID [i]);
	88	// entry->write_rd = not PORT_READ(in_SPR_INVALID [i]); // in all case write value
89	89	}
90	90

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Rename_unit/Register_translation_unit/Register_translation_unit_Glue/src/Register_translation_unit_Glue_genMealy_insert.cpp

-                      r98
+                      r101
         Tcontrol_t         WRITE_RD           = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_WRITE_RD           [i]);
         Tgeneral_address_t NUM_REG_RD_LOG     = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_LOG     [i]);
+        Tgeneral_address_t NUM_REG_RD_PHY_OLD = (NUM_REG_RD_LOG!=0)?PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_OLD [i]):0;
+        Tgeneral_address_t NUM_REG_RD_PHY_NEW = (NUM_REG_RD_LOG!=0)?PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_NEW [i]):0;
+//      Tgeneral_address_t NUM_REG_RD_PHY_OLD = (NUM_REG_RD_LOG!=0)?PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_OLD [i]):0;
+//      Tgeneral_address_t NUM_REG_RD_PHY_NEW = (NUM_REG_RD_LOG!=0)?PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_NEW [i]):0;
+        Tgeneral_address_t NUM_REG_RD_PHY_OLD = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_OLD [i]);
+        Tgeneral_address_t NUM_REG_RD_PHY_NEW = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RD_PHY_NEW [i]);
         Tcontrol_t         WRITE_RE           = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_WRITE_RE           [i]);
         Tspecial_address_t NUM_REG_RE_LOG     = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RE_LOG     [i]);
 …
         Tspecial_address_t NUM_REG_RE_PHY_NEW = PORT_READ(in_INSERT_DEPENDENCY_CHECKING_NUM_REG_RE_PHY_NEW [i]);
+        PORT_WRITE(out_INSERT_FREE_LIST_GPR_VAL            [i], WRITE_RD and (NUM_REG_RD_LOG!=0));
+//      PORT_WRITE(out_INSERT_FREE_LIST_GPR_VAL            [i], WRITE_RD and (NUM_REG_RD_LOG!=0));
+        PORT_WRITE(out_INSERT_FREE_LIST_GPR_VAL            [i], WRITE_RD          );
         PORT_WRITE(out_INSERT_FREE_LIST_SPR_VAL            [i], WRITE_RE          );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/SelfTest/src/test.cpp

-                      r98
+                      r101
   ALLOC2_SC_SIGNAL( in_DEPTH_MIN                        ," in_DEPTH_MIN                        ",Tdepth_t          ,_param->_nb_front_end,_param->_nb_context[it1]);
   ALLOC2_SC_SIGNAL( in_DEPTH_MAX                        ," in_DEPTH_MAX                        ",Tdepth_t          ,_param->_nb_front_end,_param->_nb_context[it1]);
+  ALLOC2_SC_SIGNAL( in_DEPTH_FULL                       ," in_DEPTH_FULL                       ",Tcontrol_t        ,_param->_nb_front_end,_param->_nb_context[it1]);
   ALLOC2_SC_SIGNAL(out_SPR_SR_IEE                       ,"out_SPR_SR_IEE                       ",Tcontrol_t        ,_param->_nb_front_end,_param->_nb_context[it1]);
 …
   INSTANCE2_SC_SIGNAL(_OOO_Engine,out_NB_INST_COMMIT_MEM               ,_param->_nb_front_end,_param->_nb_context[it1]);
+  for (uint32_t i=0; i<_param->_nb_front_end; i++)
+    for (uint32_t j=0; j<_param->_nb_context[i]; j++)
+      if (_param->_have_port_depth)
+        INSTANCE_SC_SIGNAL(_OOO_Engine, in_DEPTH_MIN  [i][j]);
+  if (_param->_have_port_depth)
+    {
+  INSTANCE2_SC_SIGNAL(_OOO_Engine, in_DEPTH_MIN                        ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_OOO_Engine, in_DEPTH_MAX                        ,_param->_nb_front_end,_param->_nb_context[it1]);
+    }
+  INSTANCE2_SC_SIGNAL(_OOO_Engine, in_DEPTH_FULL                       ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_OOO_Engine,out_SPR_SR_IEE                       ,_param->_nb_front_end,_param->_nb_context[it1]);
   INSTANCE2_SC_SIGNAL(_OOO_Engine,out_SPR_SR_EPH                       ,_param->_nb_front_end,_param->_nb_context[it1]);
 …
   DELETE2_SC_SIGNAL( in_DEPTH_MIN                        ,_param->_nb_front_end,_param->_nb_context[it1]);
   DELETE2_SC_SIGNAL( in_DEPTH_MAX                        ,_param->_nb_front_end,_param->_nb_context[it1]);
+  DELETE2_SC_SIGNAL( in_DEPTH_FULL                       ,_param->_nb_front_end,_param->_nb_context[it1]);
   DELETE2_SC_SIGNAL(out_SPR_SR_IEE                       ,_param->_nb_front_end,_param->_nb_context[it1]);
   DELETE2_SC_SIGNAL(out_SPR_SR_EPH                       ,_param->_nb_front_end,_param->_nb_context[it1]);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Special_Register_unit/include/SPR.h

-                      r98
+                      r101
   //----------------------------------------------------------
-  // [0][19] CID
-  //----------------------------------------------------------
-  class CID : public GENERIC
+  {
-  public : CID (uint32_t num_front_end=0, uint32_t num_context=0,const Parameters * param=NULL) : GENERIC (num_front_end,num_context,param) {};
-  };
-  //----------------------------------------------------------
   // [0][20] FPCSR
   //----------------------------------------------------------
 …
       fpee = x >>  0;
     };
+  };
+  //----------------------------------------------------------
+  // [0][21] CID
+  //----------------------------------------------------------
+  class CID : public GENERIC
+  {
+  public : CID (uint32_t num_front_end=0, uint32_t num_context=0,const Parameters * param=NULL) : GENERIC (num_front_end,num_context,param) {};
+  };
+  //----------------------------------------------------------
+  // [0][22] TID
+  //----------------------------------------------------------
+  class TID : public GENERIC
+  {
+  public : TID (uint32_t num_front_end=0, uint32_t num_context=0,const Parameters * param=NULL) : GENERIC (num_front_end,num_context,param) {};
+  };
+  //----------------------------------------------------------
+  // [0][23] TSR
+  //----------------------------------------------------------
+  class TSR : public GENERIC
+  {
+  public : TSR (uint32_t num_front_end=0, uint32_t num_context=0,const Parameters * param=NULL) : GENERIC (num_front_end,num_context,param) {};
   };

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/Special_Register_unit/src/Special_Register_unit_allocation.cpp

-                      r98
+                      r101
                         _spr [i][j][k][SPR_SR          ] = new SR          (i,j,_param);
                         _spr [i][j][k][SPR_PPC         ] = new PPC         (i,j,_param);
+                        _spr [i][j][k][SPR_FPCSR       ] = new FPCSR       (i,j,_param);
                         _spr [i][j][k][SPR_CID         ] = new CID         (i,j,_param);
+                        _spr [i][j][k][SPR_FPCSR       ] = new FPCSR       (i,j,_param);
+                        _spr [i][j][k][SPR_TID         ] = new TID         (i,j,_param);
+                        _spr [i][j][k][SPR_TSR         ] = new TSR         (i,j,_param);
                         _spr [i][j][k][SPR_EPCR        ] = new EPCR        (i,j,_param);
                         _spr [i][j][k][SPR_EEAR        ] = new EEAR        (i,j,_param);
 …
                     case GROUP_TICK_TIMER          :
                     case GROUP_FLOATING_POINT      :
                     case GROUP_MAC                 :
                     case GROUP_RESERVED_1          :

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/include/OOO_Engine.h

r98	r101
197	197	public : SC_IN (Tdepth_t ) *** in_DEPTH_MIN ;//[nb_front_end][nb_context]
198	198	public : SC_IN (Tdepth_t ) *** in_DEPTH_MAX ;//[nb_front_end][nb_context]
	199	public : SC_IN (Tcontrol_t ) *** in_DEPTH_FULL ;//[nb_front_end][nb_context]
199	200
200	201	// ~~~~~[ Interface : "spr" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/src/OOO_Engine_allocation.cpp

-                      r98
+                      r101
       _ALLOC2_SIGNAL_IN ( in_DEPTH_MIN                        ,"MIN"                        ,Tdepth_t         ,_param->_size_depth                  ,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MAX                        ,"MAX"                        ,Tdepth_t         ,_param->_size_depth+1                ,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_MAX                        ,"MAX"                        ,Tdepth_t         ,_param->_size_depth                  ,_param->_nb_front_end, _param->_nb_context[it1]);
+      _ALLOC2_SIGNAL_IN ( in_DEPTH_FULL                       ,"FULL"                       ,Tcontrol_t       ,1                                    ,_param->_nb_front_end, _param->_nb_context[it1]);
+    }
 …
             if (_param->_have_port_depth)
+              {
             PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_"+toString(j)+"_MIN",
                                 dest, "in_DEPTH_"+toString(i)+"_"+toString(j)+"_MIN");
             PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_"+toString(j)+"_MAX",
                                 dest, "in_DEPTH_"+toString(i)+"_"+toString(j)+"_MAX");
+              }
+            PORT_MAP(_component,src , "in_DEPTH_"+toString(i)+"_"+toString(j)+"_FULL",
+                                dest, "in_DEPTH_"+toString(i)+"_"+toString(j)+"_FULL");
+          }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/Multi_OOO_Engine/OOO_Engine/src/OOO_Engine_deallocation.cpp

-                      r98
+                      r101
         DELETE2_SIGNAL(out_NB_INST_COMMIT_MEM               ,_param->_nb_front_end,_param->_nb_context[it1],_param->_size_nb_inst_commit         );
         DELETE2_SIGNAL( in_DEPTH_MIN                        ,_param->_nb_front_end,_param->_nb_context[it1],_param->_size_depth                  );
+        DELETE2_SIGNAL( in_DEPTH_MAX                        ,_param->_nb_front_end,_param->_nb_context[it1],_param->_size_depth+1                );
+        DELETE2_SIGNAL( in_DEPTH_MAX                        ,_param->_nb_front_end,_param->_nb_context[it1],_param->_size_depth                  );
+        DELETE2_SIGNAL( in_DEPTH_FULL                       ,_param->_nb_front_end,_param->_nb_context[it1],1                                    );
         DELETE2_SIGNAL(out_SPR_SR_IEE                       ,_param->_nb_front_end,_param->_nb_context[it1],1                                    );
         DELETE2_SIGNAL(out_SPR_SR_EPH                       ,_param->_nb_front_end,_param->_nb_context[it1],1                                    );

trunk/IPs/systemC/processor/Morpheo/Behavioural/Core/src/Core_allocation.cpp

-                      r98
+                      r101
         // ~~~~~[ Interface : "depth" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+        // out_DEPTH_MIN - ooo_engine. in_DEPTH_MIN
+        // out_DEPTH_MAX - ooo_engine. in_DEPTH_MAX
+        // out_DEPTH_MIN  - ooo_engine. in_DEPTH_MIN
+        // out_DEPTH_MAX  - ooo_engine. in_DEPTH_MAX
+        // out_DEPTH_FULL - ooo_engine. in_DEPTH_FULL
         // ~~~~~[ Interface : "spr" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
 …
                 if (_param->_have_port_depth)
+                  {
                 COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+"_"+toString(k)+"_MIN",
                                          dest,"out_DEPTH_"                +toString(k)+"_MIN");
                 COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+"_"+toString(k)+"_MAX",
                                          dest,"out_DEPTH_"                +toString(k)+"_MAX");
+                  }
+                COMPONENT_MAP(_component,src , "in_DEPTH_"+toString(j)+"_"+toString(k)+"_FULL",
+                                         dest,"out_DEPTH_"                +toString(k)+"_FULL");
+              }
+          }

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

-                      r97
+                      r101
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_BNF      ] |= (instruction_size_data(INSTRUCTION_L_BNF      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_BNF      )._type][instruction_information(INSTRUCTION_L_BNF      )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CMOV     ] |= (instruction_size_data(INSTRUCTION_L_CMOV     ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_CMOV     )._type][instruction_information(INSTRUCTION_L_CMOV     )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CSYNC    ] |= (instruction_size_data(INSTRUCTION_L_CSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_CSYNC    )._type][instruction_information(INSTRUCTION_L_CSYNC    )._operation]._latence > 0);
+//          _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CSYNC    ] |= (instruction_size_data(INSTRUCTION_L_CSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_CSYNC    )._type][instruction_information(INSTRUCTION_L_CSYNC    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CUST1    ] |= (instruction_size_data(INSTRUCTION_L_CUST1    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_CUST1    )._type][instruction_information(INSTRUCTION_L_CUST1    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CUST2    ] |= (instruction_size_data(INSTRUCTION_L_CUST2    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_CUST2    )._type][instruction_information(INSTRUCTION_L_CUST2    )._operation]._latence > 0);
 …
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MOVHI    ] |= (instruction_size_data(INSTRUCTION_L_MOVHI    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MOVHI    )._type][instruction_information(INSTRUCTION_L_MOVHI    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MSB      ] |= (instruction_size_data(INSTRUCTION_L_MSB      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MSB      )._type][instruction_information(INSTRUCTION_L_MSB      )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MSYNC    ] |= (instruction_size_data(INSTRUCTION_L_MSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MSYNC    )._type][instruction_information(INSTRUCTION_L_MSYNC    )._operation]._latence > 0);
+//          _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MSYNC    ] |= (instruction_size_data(INSTRUCTION_L_MSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MSYNC    )._type][instruction_information(INSTRUCTION_L_MSYNC    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MTSPR    ] |= (instruction_size_data(INSTRUCTION_L_MTSPR    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MTSPR    )._type][instruction_information(INSTRUCTION_L_MTSPR    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MUL      ] |= (instruction_size_data(INSTRUCTION_L_MUL      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_MUL      )._type][instruction_information(INSTRUCTION_L_MUL      )._operation]._latence > 0);
 …
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_OR       ] |= (instruction_size_data(INSTRUCTION_L_OR       ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_OR       )._type][instruction_information(INSTRUCTION_L_OR       )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_ORI      ] |= (instruction_size_data(INSTRUCTION_L_ORI      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_ORI      )._type][instruction_information(INSTRUCTION_L_ORI      )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_PSYNC    ] |= (instruction_size_data(INSTRUCTION_L_PSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_PSYNC    )._type][instruction_information(INSTRUCTION_L_PSYNC    )._operation]._latence > 0);
+//          _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_PSYNC    ] |= (instruction_size_data(INSTRUCTION_L_PSYNC    ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_PSYNC    )._type][instruction_information(INSTRUCTION_L_PSYNC    )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_RFE      ] |= (instruction_size_data(INSTRUCTION_L_RFE      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_RFE      )._type][instruction_information(INSTRUCTION_L_RFE      )._operation]._latence > 0);
             _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_ROR      ] |= (instruction_size_data(INSTRUCTION_L_ROR      ) <= size_general_data) and (_timing[j][instruction_information(INSTRUCTION_L_ROR      )._type][instruction_information(INSTRUCTION_L_ROR      )._operation]._latence > 0);
 …
         _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_SH       ] |= (instruction_size_data(INSTRUCTION_L_SH       ) <= size_general_data);
         _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_SW       ] |= (instruction_size_data(INSTRUCTION_L_SW       ) <= size_general_data);
+//      _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_CSYNC    ]  = true;
+        _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_MSYNC    ]  = true;
+        _front_end_instruction_implemeted [num_front_end][num_context][INSTRUCTION_L_PSYNC    ]  = true;
+      }
+    // Reedit timing
+    {
+      multi_execute_loop::execute_loop::execute_timing_t timing_tmp [_nb_functionnal_unit][_nb_type][_nb_operation];
+      for (uint32_t i=0; i<_nb_functionnal_unit; ++i)
+        for (uint32_t j=0; j<_nb_type; ++j)
+          for (uint32_t k=0; k<_nb_operation; ++k)
+            {
+              timing_tmp [i][j][k]._latence = _timing [i][j][k]._latence;
+              timing_tmp [i][j][k]._delay   = _timing [i][j][k]._delay  ;
+              // Reset
+              _timing [i][j][k]._latence = _timing [i][j][k]._delay = 0;
+            }
+      for (uint32_t i=0; i<_nb_thread; ++i)
+        {
+          uint32_t num_front_end = _link_context_with_thread [i].first;
+          uint32_t num_context   = _link_context_with_thread [i].second;
+          for (uint32_t j=0; j<_nb_functionnal_unit; ++j)
+            {
+              // Test if link
+              if (not _link_thread_and_functionnal_unit[i][j])
+                continue;
+              for (uint32_t k=0; k<NB_INSTRUCTION; ++k)
+                if (_front_end_instruction_implemeted [num_front_end][num_context][k])
+                  {
+                    uint32_t x = instruction_information(k)._type;
+                    uint32_t y = instruction_information(k)._operation;
+                    _timing[j][x][y]._latence = timing_tmp[j][x][y]._latence;
+                    _timing[j][x][y]._delay   = timing_tmp[j][x][y]._delay  ;
+                  }
+            }
+        }
+    }
     ALLOC1(_front_end_nb_inst_branch_complete             ,uint32_t         ,_nb_front_end);
     ALLOC2(_front_end_size_decod_queue                    ,uint32_t         ,_nb_front_end,_nb_decod_unit[it1]);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/config_min.cfg

r100	r101
3	3	1 1 *2 #_size_data
4	4	0 1 +1 #_nb_port_slot
	5	0 0 +1 #_have_port_write
	6	0 0 +1 #_have_port_read

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/config_size_queue_log2.cfg

r100	r101
3	3	32 32 *2 #_size_data
4	4	0 0 *2 #_nb_port_slot
	5	1 1 +1 #_have_port_write
	6	1 1 +1 #_have_port_read

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/config_size_queue_no_log2.cfg

r100	r101
3	3	32 32 *2 #_size_data
4	4	0 0 *2 #_nb_port_slot
	5	1 1 +1 #_have_port_write
	6	1 1 +1 #_have_port_read

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/config_slot_out_size_queue_log2.cfg

r100	r101
3	3	32 32 *2 #_size_data
4	4	1 8 *2 #_nb_port_slot
	5	1 1 +1 #_have_port_write
	6	1 1 +1 #_have_port_read

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/config_slot_out_size_queue_no_log2.cfg

r100	r101
3	3	32 32 *2 #_size_data
4	4	1 8 *2 #_nb_port_slot
	5	1 1 +1 #_have_port_write
	6	1 1 +1 #_have_port_read

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/SelfTest/src/main.cpp

-                      r100
+                      r101
 #include "Behavioural/Generic/Queue/SelfTest/include/test.h"
 #define NB_PARAMS 3
+#define NB_PARAMS 5
 void usage (int argc, char * argv[])
 …
   cerr << "<Usage> " << argv[0] << " name_instance list_params" << endl
        << "list_params is :" << endl
+       << " - size_queue   (uint32_t)" << endl
+       << " - size_data    (uint32_t)" << endl
+       << " - nb_port_slot (uint32_t)" << endl
+       << " - size_queue      (uint32_t)" << endl
+       << " - size_data       (uint32_t)" << endl
+       << " - nb_port_slot    (uint32_t)" << endl
+       << " - have_port_write (bool    )" << endl
+       << " - have_port_read  (bool    )" << endl
        << "" << endl;
 …
   uint32_t       x = 1;
+  const string   name         =      argv[x++];
+  const uint32_t size_queue   = atoi(argv[x++]);
+  const uint32_t size_data    = atoi(argv[x++]);
+  const uint32_t nb_port_slot = atoi(argv[x++]);
+  const string   name            =      argv[x++];
+  const uint32_t size_queue      = fromString<uint32_t>(argv[x++]);
+  const uint32_t size_data       = fromString<uint32_t>(argv[x++]);
+  const uint32_t nb_port_slot    = fromString<uint32_t>(argv[x++]);
+  const bool     have_port_write = fromString<bool>(argv[x++]);
+  const bool     have_port_read  = fromString<bool>(argv[x++]);
   try
+    {
 …
         (size_queue,
          size_data ,
+         nb_port_slot
+         nb_port_slot,
+         have_port_write,
+         have_port_read
         );

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

-                      r100
+                      r101
   ALLOC1_SC_SIGNAL(out_SLOT_VAL   ,"out_SLOT_VAL"   ,Tcontrol_t,_param->_nb_port_slot);
   ALLOC1_SC_SIGNAL(out_SLOT_DATA  ,"out_SLOT_DATA"  ,Tdata_t   ,_param->_nb_port_slot);
+  ALLOC0_SC_SIGNAL(out_PTR_WRITE  ,"out_PTR_WRITE"  ,Tptr_t    );
+  ALLOC0_SC_SIGNAL(out_PTR_READ   ,"out_PTR_READ"   ,Tptr_t    );
   /********************************************************
 …
   INSTANCE1_SC_SIGNAL(_Queue,out_SLOT_VAL   ,_param->_nb_port_slot);
   INSTANCE1_SC_SIGNAL(_Queue,out_SLOT_DATA  ,_param->_nb_port_slot);
+  if (_param->_have_port_ptr_write)
+  INSTANCE0_SC_SIGNAL(_Queue,out_PTR_WRITE  );
+  if (_param->_have_port_ptr_read )
+  INSTANCE0_SC_SIGNAL(_Queue,out_PTR_READ   );
   cout << "<" << name << "> Start Simulation ............" << endl;
 …
   DELETE1_SC_SIGNAL(out_SLOT_VAL   ,_param->_nb_port_slot);
   DELETE1_SC_SIGNAL(out_SLOT_DATA  ,_param->_nb_port_slot);
+  DELETE0_SC_SIGNAL(out_PTR_WRITE  );
+  DELETE0_SC_SIGNAL(out_PTR_READ   );
 #endif

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/include/Parameters.h

-                      r100
+                      r101
+  {
     //-----[ fields ]------------------------------------------------------------
+  public : const uint32_t _size_queue  ;
+  public : const uint32_t _size_data   ;
+  public : const uint32_t _nb_port_slot;
+  public : const uint32_t _size_queue         ;
+  public : const uint32_t _size_data          ;
+  public : const uint32_t _nb_port_slot       ;
+  public : const bool     _have_port_ptr_write;
+  public : const bool     _have_port_ptr_read ;
+  public : const uint32_t _size_ptr           ;
+  public : const bool     _have_port_ptr      ;
     //-----[ methods ]-----------------------------------------------------------
+  public : Parameters  (uint32_t size_queue,
+                        uint32_t size_data ,
+                        uint32_t nb_port_slot);
+  public : Parameters  (uint32_t size_queue         ,
+                        uint32_t size_data          ,
+                        uint32_t nb_port_slot       ,
+                        bool     have_port_ptr_write,
+                        bool     have_port_ptr_read );
 //   public : Parameters  (Parameters & param) ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/include/Queue.h

-                      r100
+                      r101
   public    : SC_OUT(Tdata_t   )           ** out_SLOT_DATA;
+    // ~~~~~[ Interface "ptr" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+  public    : SC_OUT(Tptr_t    )            * out_PTR_WRITE;
+  public    : SC_OUT(Tptr_t    )            * out_PTR_READ ;
     // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
   protected : morpheo::behavioural::generic::queue_control::Queue_Control * _queue_control;
 …
   protected : Tcontrol_t                      internal_INSERT_ACK;
   protected : Tcontrol_t                      internal_RETIRE_VAL;
 #endif

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/src/Parameters.cpp

-                      r100
+                      r101
 #include "Behavioural/Generic/Queue/include/Parameters.h"
+#include "Common/include/Log2.h"
 namespace morpheo {
 namespace behavioural {
 …
 #undef  FUNCTION
 #define FUNCTION "Queue::Parameters"
+  Parameters::Parameters (uint32_t size_queue,
+                          uint32_t size_data ,
+                          uint32_t nb_port_slot):
+    _size_queue   (size_queue),
+    _size_data    (size_data ),
+    _nb_port_slot (nb_port_slot)
+  Parameters::Parameters (uint32_t size_queue         ,
+                          uint32_t size_data          ,
+                          uint32_t nb_port_slot       ,
+                          bool     have_port_ptr_write,
+                          bool     have_port_ptr_read ):
+    _size_queue          (size_queue),
+    _size_data           (size_data ),
+    _nb_port_slot        (nb_port_slot),
+    _have_port_ptr_write (have_port_ptr_write and (log2(size_queue)>0)),
+    _have_port_ptr_read  (have_port_ptr_read  and (log2(size_queue)>0)),
+    _size_ptr            (log2(size_queue)),
+    _have_port_ptr       (have_port_ptr_write or have_port_ptr_read)
+  {
     log_printf(FUNC,Queue,FUNCTION,"Begin");

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/src/Queue_allocation.cpp

-                      r100
+                      r101
       ALLOC1_SIGNAL_OUT(out_SLOT_DATA ,"data",Tdata_t,_param->_size_data);
+    }
+    // ~~~~~[ Interface "ptr" ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+    if (_param->_have_port_ptr)
+    {
+      ALLOC0_INTERFACE("ptr", OUT, EAST, _("Internal pointer."));
+      if (_param->_have_port_ptr_write)
+      ALLOC0_SIGNAL_OUT(out_PTR_WRITE ,"write",Tptr_t,_param->_size_ptr);
+      if (_param->_have_port_ptr_read )
+      ALLOC0_SIGNAL_OUT(out_PTR_READ  ,"read" ,Tptr_t,_param->_size_ptr);
+    }
     if (usage_is_set(_usage,USE_SYSTEMC))

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/src/Queue_deallocation.cpp

-                      r100
+                      r101
         DELETE1_SIGNAL(out_SLOT_VAL    ,_param->_nb_port_slot,1);
         DELETE1_SIGNAL(out_SLOT_DATA   ,_param->_nb_port_slot,_param->_size_data);
+        if (_param->_have_port_ptr_write)
+        DELETE0_SIGNAL(out_PTR_WRITE   ,_param->_size_ptr);
+        if (_param->_have_port_ptr_read )
+        DELETE0_SIGNAL(out_PTR_READ    ,_param->_size_ptr);
         // ~~~~~[ Component ]~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/src/Queue_genMoore.cpp

-                      r100
+                      r101
     log_printf(FUNC,Queue,FUNCTION,"Begin");
+    //---------------------------------------------
     // Output
+    //---------------------------------------------
     internal_INSERT_ACK = not _queue_control->full();
     internal_RETIRE_VAL = not _queue_control->empty();
 …
     PORT_WRITE(out_RETIRE_DATA,_queue_data[(*_queue_control)[0]]);
+    //---------------------------------------------
     // Slot
+    //---------------------------------------------
     // Note : Slot 0 is the same slot as retire interface.
     uint32_t nb_elt = _queue_control->nb_elt();
 …
         PORT_WRITE(out_SLOT_DATA [i],_queue_data[(*_queue_control)[i]]);
+      }
+    //---------------------------------------------
+    // Pointer
+    //---------------------------------------------
+    if (_param->_have_port_ptr_write)
+    PORT_WRITE(out_PTR_WRITE, _queue_control->ptr_push());
+    if (_param->_have_port_ptr_read )
+    PORT_WRITE(out_PTR_READ , _queue_control->ptr_pop ());
     log_printf(FUNC,Queue,FUNCTION,"End");

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue/src/Queue_vhdl_body.cpp

-                      r100
+                      r101
           else
             vhdl->set_body   (0,"out_SLOT_"+toString(i)+"_DATA       <= reg_DATA(conv_integer(0));");
+      }
+    if (_param->_have_port_ptr)
+      {
+    vhdl->set_body   (0,"");
+    vhdl->set_comment(0,"---------------------------------------------------------------------------");
+    vhdl->set_comment(0," Slot");
+    vhdl->set_comment(0,"---------------------------------------------------------------------------");
+    vhdl->set_body   (0,"");
+    if (_param->_have_port_ptr_write)
+    vhdl->set_body   (0,"out_PTR_WRITE         <= signal_PTR_WRITE;");
+    if (_param->_have_port_ptr_read)
+    vhdl->set_body   (0,"out_PTR_READ          <= signal_PTR_READ;");
+      }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/Queue_Control/include/Queue_Control.h

-                      r81
+                      r101
   public  : void     clear    (void);
+  public  : uint32_t ptr_pop  (uint32_t index=0);
+  public  : uint32_t ptr_push (void);
   public  : uint32_t push     (void);
   public  : uint32_t push_ovf (void);
   public  : void     pop      (uint32_t);
+  public  : void     pop      (uint32_t index);
   public  : void     pop      (void);
   public  : void     pop_ovf  (uint32_t);
+  public  : void     pop_ovf  (uint32_t index);
   public  : void     pop_ovf  (void);

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/RegisterFile/RegisterFile_Monolithic/include/Parameters.h

-                      r88
+                      r101
   class Parameters : public morpheo::behavioural::Parameters
+  {
+  public : const uint32_t _nb_port_read ;
+  public : const uint32_t _nb_port_write;
+  public : const uint32_t _nb_port_read_write;
+  public : const uint32_t _nb_word      ;
+  public : const uint32_t _size_word    ;
+  public : const uint32_t _size_address ;
+  public : const bool     _have_port_address;
+  public : const uint32_t    _nb_port_read ;
+  public : const uint32_t    _nb_port_write;
+  public : const uint32_t    _nb_port_read_write;
+  public : const uint32_t    _nb_word      ;
+  public : const uint32_t    _size_word    ;
+  public : const uint32_t    _size_address ;
+  public : const bool        _have_port_address;
+  public : const bool        _have_init_value;
+  public : const std::string _init_value;
+  public : Parameters (uint32_t nb_port_read ,
+                       uint32_t nb_port_write,
+                       uint32_t nb_port_read_write,
+                       uint32_t nb_word      ,
+                       uint32_t size_word    );
+  public : Parameters (uint32_t    nb_port_read ,
+                       uint32_t    nb_port_write,
+                       uint32_t    nb_port_read_write,
+                       uint32_t    nb_word      ,
+                       uint32_t    size_word    ,
+                       std::string init_value="");
 //   public : Parameters (Parameters & param) ;
   public : ~Parameters () ;

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/RegisterFile/RegisterFile_Monolithic/src/Parameters.cpp

-                      r88
+                      r101
 namespace registerfile_monolithic    {
+  Parameters::Parameters (uint32_t nb_port_read ,
+                          uint32_t nb_port_write,
+                          uint32_t nb_port_read_write ,
+                          uint32_t nb_word      ,
+                          uint32_t size_word
+  Parameters::Parameters (uint32_t    nb_port_read ,
+                          uint32_t    nb_port_write,
+                          uint32_t    nb_port_read_write ,
+                          uint32_t    nb_word      ,
+                          uint32_t    size_word    ,
+                          std::string init_value
                           ) :
     _nb_port_read      (nb_port_read ),
 …
     _size_word         (size_word    ),
     _size_address      (static_cast<uint32_t>(log2(_nb_word))),
+    _have_port_address (_size_address != 0)
+    _have_port_address (_size_address != 0),
+    _have_init_value   (init_value != ""),
+    _init_value        (init_value)
+  {
     test();

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/RegisterFile/RegisterFile_Monolithic/src/Parameters_msg_error.cpp

r81	r101
33	33	test.error("you need a write port");
34	34
	35	// Need test init_value
	36
35	37	return test;
36	38	};

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/RegisterFile/RegisterFile_Monolithic/src/RegisterFile_Monolithic_transition.cpp

-                      r88
+                      r101
     log_printf(FUNC,RegisterFile,"transition","Begin");
     for (uint32_t i=0; i<_param->_nb_port_write; i++)
+    if (_param->_have_init_value and (PORT_READ(in_NRESET) == 0))
+      {
+        // Have a write?
+        if ( PORT_READ(in_WRITE_VAL[i]) == true)
+          {
+        for (uint32_t i=0; i<_param->_nb_word; ++i)
+          reg_DATA[i] = fromString<Tdata_t>(_param->_init_value);
+      }
+    else
+      {
+        for (uint32_t i=0; i<_param->_nb_port_write; i++)
+          {
+            // Have a write?
+            if ( PORT_READ(in_WRITE_VAL[i]) == true)
+              {
 #ifdef STATISTICS
+            if (usage_is_set(_usage,USE_STATISTICS))
+              (*_stat_nb_write) ++;
+#endif
+            Taddress_t address;
+            if (_param->_have_port_address)
+              address = PORT_READ(in_WRITE_ADDRESS[i]);
+            else
+              address = 0;
+            Tdata_t    data    = PORT_READ(in_WRITE_DATA   [i]);
+            log_printf(TRACE,RegisterFile,"transition","[%d] <- %.8x",static_cast<uint32_t>(address),static_cast<uint32_t>(data));
+            // Write in registerFile
+            reg_DATA[address] = data;
+          }
+      }
+    for (uint32_t i=0; i<_param->_nb_port_read_write; i++)
+      {
+        // Have a read_write?
+        if (PORT_READ(in_READ_WRITE_VAL[i]) == true)
+          {
+            if (PORT_READ(in_READ_WRITE_RW [i]) == RW_WRITE)
+              {
+#ifdef STATISTICS
+                if (usage_is_set(_usage,USE_STATISTICS))
+                if (usage_is_set(_usage,USE_STATISTICS))
                   (*_stat_nb_write) ++;
 #endif
+                Taddress_t address;
+                if (_param->_have_port_address)
+                  address = PORT_READ(in_READ_WRITE_ADDRESS[i]);
+                else
+                  address = 0;
+                Tdata_t    data    = PORT_READ(in_READ_WRITE_WDATA  [i]);
+                log_printf(TRACE,RegisterFile,"transition","[%d] <- %.8x",static_cast<uint32_t>(address),static_cast<uint32_t>(data));
+                // Write in registerFile
+                reg_DATA[address] = data;
+              }
+                Taddress_t address = (_param->_have_port_address)?PORT_READ(in_WRITE_ADDRESS[i]):0;
+                Tdata_t    data    = PORT_READ(in_WRITE_DATA   [i]);
+                log_printf(TRACE,RegisterFile,"transition","[%d] <- %.8x",static_cast<uint32_t>(address),static_cast<uint32_t>(data));
+                // Write in registerFile
+                reg_DATA[address] = data;
+              }
+          }
+        for (uint32_t i=0; i<_param->_nb_port_read_write; i++)
+          {
+            // Have a read_write?
+            if (PORT_READ(in_READ_WRITE_VAL[i]) == true)
+              {
+                if (PORT_READ(in_READ_WRITE_RW [i]) == RW_WRITE)
+                  {
 #ifdef STATISTICS
+            else
+              {
+                if (usage_is_set(_usage,USE_STATISTICS))
+                  (*_stat_nb_read) ++;
+              }
+                    if (usage_is_set(_usage,USE_STATISTICS))
+                      (*_stat_nb_write) ++;
 #endif
+          }
+                    Taddress_t address = (_param->_have_port_address)?PORT_READ(in_READ_WRITE_ADDRESS[i]):0;
+                    Tdata_t    data    = PORT_READ(in_READ_WRITE_WDATA  [i]);
+                    log_printf(TRACE,RegisterFile,"transition","[%d] <- %.8x",static_cast<uint32_t>(address),static_cast<uint32_t>(data));
+                    // Write in registerFile
+                    reg_DATA[address] = data;
+                  }
+#ifdef STATISTICS
+                else
+                  {
+                    if (usage_is_set(_usage,USE_STATISTICS))
+                      (*_stat_nb_read) ++;
+                  }
+#endif
+              }
+          }
+      }

trunk/IPs/systemC/processor/Morpheo/Behavioural/Generic/RegisterFile/RegisterFile_Monolithic/src/RegisterFile_Monolithic_vhdl_body.cpp

-                      r94
+                      r101
     vhdl->set_body   (0,"begin  -- process RegisterFile_write");
     vhdl->set_body   (1,"if in_CLOCK'event and in_CLOCK = '1' then");
+    if (_param->_have_init_value)
+      {
+        vhdl->set_body   (2,"if in_NRESET = '0' then");
+        std::string init_value = ((_param->_size_word>1)?"\"":"'")+_param->_init_value+((_param->_size_word>1)?"\"":"'");
+        for (uint32_t i=0; i<_param->_nb_word; ++i)
+          vhdl->set_body   (3,"reg_DATA("+toString(i)+") <= "+init_value+";");
+        vhdl->set_body   (2,"else");
+      }
     for (uint32_t i = 0; i < _param->_nb_port_write; i++)
 …
     vhdl->set_body   (1,"end if;");
+    if (_param->_have_init_value)
+      vhdl->set_body   (1,"end if;");
     vhdl->set_body   (0,"end process RegisterFile_write;");
   };

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

-                      r100
+                      r101
   I Use reserved SPR :
+  [0][19] - SPR_CID
+  [0][21] - SPR_CID : Context Id
+  [0][22] - SPR_TID : Thread  Id
+  [0][23] - SPR_TSR : Thread  Status Register (Priority)
 */
 …
 #  define OPERATION_SPECIAL_L_MACRC                0x12       // 001_0010 l.macrc
 #  define OPERATION_SPECIAL_L_MSB                  0x14       // 001_0100 l.msb
 #  define OPERATION_SPECIAL_L_MSYNC                0x21       // 010_0001 l.msync
 #  define OPERATION_SPECIAL_L_PSYNC                0x22       // 010_0010 l.psync
 #  define OPERATION_SPECIAL_L_CSYNC                0x24       // 010_0100 l.csync
+//#define OPERATION_SPECIAL_L_MSYNC                0x21       // 010_0001 l.msync
+//#define OPERATION_SPECIAL_L_PSYNC                0x22       // 010_0010 l.psync
+//#define OPERATION_SPECIAL_L_CSYNC                0x24       // 010_0100 l.csync
 #  define OPERATION_SPECIAL_L_SYS                  0x41       // 100_0001 l.sys
 #  define OPERATION_SPECIAL_L_TRAP                 0x42       // 100_0010 l.trap
 …
 #  define SPR_SR                                   17         // Supervision register
 #  define SPR_PPC                                  18         // PC mapped to SPR space (previous PC)
-#  define SPR_CID                                  19         // Context Id
 #  define SPR_FPCSR                                20         // FP Control Status register
+#  define SPR_CID                                  21         // Context Id
+#  define SPR_TID                                  22         // Thread  Id
+#  define SPR_TSR                                  23         // Thread  Priority
 #  define SPR_EPCR                                 32         // Exception PC register
 #  define SPR_EEAR                                 48         // Exception EA register

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

-                      r100
+                      r101
 #define MORPHEO_MAJOR_VERSION 0
 #define MORPHEO_MINOR_VERSION 2
 #define MORPHEO_REVISION      "100"
+#define MORPHEO_REVISION      "101"
 #define MORPHEO_CODENAME      "Castor"
 #define MORPHEO_DATE_DAY      "08"
+#define MORPHEO_DATE_DAY      "15"
 #define MORPHEO_DATE_MONTH    "01"
 #define MORPHEO_DATE_YEAR     "2009"

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

-                      r100
+                      r101
       case INSTRUCTION_L_BNF       : return instruction_t (TYPE_BRANCH ,OPERATION_BRANCH_L_TEST_NF      ,ORBIS32,1);
       case INSTRUCTION_L_CMOV      : return instruction_t (TYPE_MOVE   ,OPERATION_MOVE_L_CMOV           ,ORBIS32,2);
+      case INSTRUCTION_L_CSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_CSYNC       ,ORBIS32,2);
+//    case INSTRUCTION_L_CSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_CSYNC       ,ORBIS32,2);
+      case INSTRUCTION_L_CSYNC     : return instruction_t (TYPE_MEMORY ,OPERATION_MEMORY_SYNCHRONIZATION,ORBIS32,2);
       case INSTRUCTION_L_CUST1     : return instruction_t (TYPE_CUSTOM ,OPERATION_CUSTOM_L_1            ,ORBIS32,2);
       case INSTRUCTION_L_CUST2     : return instruction_t (TYPE_CUSTOM ,OPERATION_CUSTOM_L_2            ,ORBIS32,2);
 …
       case INSTRUCTION_L_MOVHI     : return instruction_t (TYPE_MOVE   ,OPERATION_MOVE_L_MOVHI          ,ORBIS32,1);
       case INSTRUCTION_L_MSB       : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_MSB         ,ORBIS32,2);
+      case INSTRUCTION_L_MSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_MSYNC       ,ORBIS32,2);
+//    case INSTRUCTION_L_MSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_MSYNC       ,ORBIS32,2);
+      case INSTRUCTION_L_MSYNC     : return instruction_t (TYPE_MEMORY ,OPERATION_MEMORY_SYNCHRONIZATION,ORBIS32,2);
       case INSTRUCTION_L_MTSPR     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_MTSPR       ,ORBIS32,1);
       case INSTRUCTION_L_MUL       : return instruction_t (TYPE_MUL    ,OPERATION_MUL_L_MUL             ,ORBIS32,1);
 …
       case INSTRUCTION_L_OR        : return instruction_t (TYPE_ALU    ,OPERATION_ALU_L_OR              ,ORBIS32,1);
       case INSTRUCTION_L_ORI       : return instruction_t (TYPE_ALU    ,OPERATION_ALU_L_OR              ,ORBIS32,1);
+      case INSTRUCTION_L_PSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_PSYNC       ,ORBIS32,2);
+//    case INSTRUCTION_L_PSYNC     : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_PSYNC       ,ORBIS32,2);
+      case INSTRUCTION_L_PSYNC     : return instruction_t (TYPE_MEMORY ,OPERATION_MEMORY_SYNCHRONIZATION,ORBIS32,2);
       case INSTRUCTION_L_RFE       : return instruction_t (TYPE_SPECIAL,OPERATION_SPECIAL_L_RFE         ,ORBIS32,1);
       case INSTRUCTION_L_ROR       : return instruction_t (TYPE_SHIFT  ,OPERATION_SHIFT_L_ROR           ,ORBIS32,2);

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

-                      r100
+                      r101
   <parameter name="btb_associativity"                     min="1"   max="8"    step="* 2" default="1"   level="..." description="..." />
   <parameter name="btb_size_counter"                      min="2"   max="8"    step="* 2" default="2"   level="..." description="..." />
   <parameter name="btb_victim_scheme"                     min="1"   max="8"    step="+ 1" default="1"   level="..." description="..." />
   <parameter name="dir_predictor_scheme"                  min="1"   max="8"    step="* 2" default="1"   level="..." description="..." />
+  <parameter name="btb_victim_scheme"                     min="0"   max="5"    step="+ 1" default="1"   level="..." description="0 : Random, 1 : Round Robin, 2 : Not Last Used, 3 : Pseudo LRU, 4 : Least Recently Used, 5 : FIFO" />
+  <parameter name="dir_predictor_scheme"                  min="0"   max="8"    step="+ 1" default="1"   level="..." description="0 : Never take, 1 : Always Take, 2 : Static, 3 : Last Take, 4 : Counter, 5 : Local predictor, 6 : Global predictor, 7 : Meta predictor, 8 : Custom predictor" />
   <parameter name="dir_have_bht"                          min="1"   max="8"    step="* 2" default="1"   level="..." description="..." />
   <parameter name="dir_bht_size_shifter"                  min="1"   max="8"    step="* 2" default="1"   level="..." description="..." />

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

-                      r100
+                      r101
   <parameter name="statistics_period"          value="0" />
   <parameter name="simulation_nb_cycle"        value="10000" />
+  <parameter name="simulation_nb_cycle"        value="100" />
   <parameter name="simulation_nb_instruction"  value="0"   />
 …
   <parameter name="directory_log"              value="." />
   <parameter name="debug_level"                value="0" />
+  <parameter name="debug_level"                value="3" />
   <parameter name="debug_cycle_start"          value="0" />
   <parameter name="debug_cycle_stop"           value="400" />
+  <parameter name="debug_cycle_stop"           value="300" />
   <parameter name="debug_have_log_file"        value="0" />

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