[54] | 1 | #ifdef SYSTEMC |
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| 2 | /* |
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| 3 | * $Id: Read_queue_genMealy_read_queue_out_gpr.cpp 88 2008-12-10 18:31:39Z rosiere $ |
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| 4 | * |
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| 5 | * [ Description ] |
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| 6 | * |
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| 7 | */ |
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| 8 | |
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| 9 | #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Read_unit/Read_unit/Read_queue/include/Read_queue.h" |
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| 10 | |
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| 11 | namespace morpheo { |
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| 12 | namespace behavioural { |
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| 13 | namespace core { |
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| 14 | namespace multi_execute_loop { |
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| 15 | namespace execute_loop { |
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| 16 | namespace multi_read_unit { |
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| 17 | namespace read_unit { |
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| 18 | namespace read_queue { |
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| 19 | |
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| 20 | #undef FUNCTION |
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| 21 | #define FUNCTION "Read_queue::genMealy_read_queue_out_gpr" |
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| 22 | void Read_queue::genMealy_read_queue_out_gpr (void) |
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| 23 | { |
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[88] | 24 | log_begin(Read_queue,FUNCTION); |
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| 25 | log_function(Read_queue,FUNCTION,_name.c_str()); |
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[54] | 26 | |
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| 27 | internal_READ_QUEUE_OUT_DATA_RA_VAL = (// Previous value |
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| 28 | _queue_head->_data_ra_val or |
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| 29 | // Test if have already access at the registerfile |
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| 30 | (_queue_head->_read_ra_val and |
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| 31 | PORT_READ(in_GPR_READ_ACK [0]) and |
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| 32 | PORT_READ(in_GPR_READ_DATA_VAL [0])) |
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| 33 | ); |
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| 34 | |
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[88] | 35 | log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_DATA_RA_VAL : %d",internal_READ_QUEUE_OUT_DATA_RA_VAL); |
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| 36 | log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_data_ra_val : %d",_queue_head->_data_ra_val); |
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| 37 | log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_read_ra_val : %d",_queue_head->_read_ra_val); |
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| 38 | log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_ACK [0] : %d",PORT_READ(in_GPR_READ_ACK [0])); |
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| 39 | log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_DATA_VAL [0] : %d",PORT_READ(in_GPR_READ_DATA_VAL [0])); |
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[54] | 40 | |
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| 41 | internal_READ_QUEUE_OUT_DATA_RB_VAL = (_queue_head->_data_rb_val or |
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| 42 | (_queue_head->_read_rb_val and |
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| 43 | PORT_READ(in_GPR_READ_ACK [1]) and |
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| 44 | PORT_READ(in_GPR_READ_DATA_VAL [1])) |
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| 45 | ); |
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| 46 | |
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[88] | 47 | log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_DATA_RB_VAL : %d",internal_READ_QUEUE_OUT_DATA_RB_VAL); |
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| 48 | log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_data_rb_val : %d",_queue_head->_data_rb_val); |
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| 49 | log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_read_rb_val : %d",_queue_head->_read_rb_val); |
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| 50 | log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_ACK [1] : %d",PORT_READ(in_GPR_READ_ACK [1])); |
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| 51 | log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_DATA_VAL [1] : %d",PORT_READ(in_GPR_READ_DATA_VAL [1])); |
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[54] | 52 | |
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| 53 | |
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| 54 | internal_READ_QUEUE_OUT_DATA_RA = (// Test if have an previous access |
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| 55 | (_queue_head->_data_ra_val)? |
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| 56 | // if precious access, take previous data |
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| 57 | _queue_head->_data_ra: |
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| 58 | // else, take the read_data (don't test the validity of data) |
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| 59 | PORT_READ(in_GPR_READ_DATA [0])); |
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| 60 | |
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| 61 | internal_READ_QUEUE_OUT_DATA_RB = ((_queue_head->_data_rb_val)? |
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| 62 | _queue_head->_data_rb: |
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| 63 | PORT_READ(in_GPR_READ_DATA [1])); |
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| 64 | |
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| 65 | // Test all bypass |
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| 66 | for (uint32_t i=0; i<_param->_nb_gpr_write ; i++) |
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| 67 | { |
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[68] | 68 | bool cmp; |
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| 69 | |
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| 70 | if (_param->_have_port_ooo_engine_id) |
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| 71 | cmp = (PORT_READ (in_GPR_WRITE_OOO_ENGINE_ID [i]) == _queue_head->_ooo_engine_id); |
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| 72 | else |
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| 73 | cmp = true; |
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| 74 | |
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[54] | 75 | // Test if this bypass is valid |
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[68] | 76 | if ( (PORT_READ (in_GPR_WRITE_VAL [i]) == 1) and cmp) |
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[54] | 77 | { |
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[55] | 78 | Tgeneral_address_t gpr_write_num_reg = PORT_READ(in_GPR_WRITE_NUM_REG [i]); |
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| 79 | Tgeneral_data_t gpr_write_data = PORT_READ(in_GPR_WRITE_DATA [i]); |
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[54] | 80 | |
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[55] | 81 | if (_queue_head->_num_reg_ra == gpr_write_num_reg) |
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[54] | 82 | { |
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[88] | 83 | log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_DATA_RA_VAL - bypass hit (%d)",i); |
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[54] | 84 | |
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| 85 | internal_READ_QUEUE_OUT_DATA_RA_VAL = 1; |
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[68] | 86 | #ifdef SYSTEMC_VHDL_COMPATIBILITY |
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| 87 | if (_queue_head->_read_ra == 1) |
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| 88 | #endif |
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[55] | 89 | internal_READ_QUEUE_OUT_DATA_RA = gpr_write_data; |
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[54] | 90 | } |
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[55] | 91 | if (_queue_head->_num_reg_rb == gpr_write_num_reg) |
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[54] | 92 | { |
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[88] | 93 | log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_DATA_RB_VAL - bypass hit (%d)",i); |
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[54] | 94 | internal_READ_QUEUE_OUT_DATA_RB_VAL = 1; |
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[68] | 95 | #ifdef SYSTEMC_VHDL_COMPATIBILITY |
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| 96 | if (_queue_head->_read_rb == 1) |
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| 97 | #endif |
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[55] | 98 | internal_READ_QUEUE_OUT_DATA_RB = gpr_write_data; |
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[54] | 99 | } |
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| 100 | } |
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| 101 | } |
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| 102 | |
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| 103 | // Affectation out port |
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| 104 | PORT_WRITE(out_READ_QUEUE_OUT_DATA_RA_VAL,internal_READ_QUEUE_OUT_DATA_RA_VAL); |
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| 105 | PORT_WRITE(out_READ_QUEUE_OUT_DATA_RB_VAL,internal_READ_QUEUE_OUT_DATA_RB_VAL); |
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| 106 | PORT_WRITE(out_READ_QUEUE_OUT_DATA_RA ,internal_READ_QUEUE_OUT_DATA_RA ); |
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| 107 | PORT_WRITE(out_READ_QUEUE_OUT_DATA_RB ,internal_READ_QUEUE_OUT_DATA_RB ); |
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| 108 | |
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[88] | 109 | log_end(Read_queue,FUNCTION); |
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[54] | 110 | }; |
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| 111 | |
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| 112 | }; // end namespace read_queue |
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| 113 | }; // end namespace read_unit |
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| 114 | }; // end namespace multi_read_unit |
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| 115 | }; // end namespace execute_loop |
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| 116 | }; // end namespace multi_execute_loop |
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| 117 | }; // end namespace core |
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| 118 | }; // end namespace behavioural |
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| 119 | }; // end namespace morpheo |
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| 120 | #endif |
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