ifu added
This commit is contained in:
parent
33a4c11f1c
commit
7ae7c4687f
|
@ -0,0 +1,393 @@
|
||||||
|
[
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_premux_data",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_iccm_rd_data",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_wr_size",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_mem_sz",
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_iccm_req"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_rw_addr",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_mem_addr",
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_iccm_req",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_sel_premux_data",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_wr_data",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_iccm_req",
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_mem_wdata",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ifu_dec_dec_aln_ifu_pmu_instr_aligned",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_wr_data",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_wrdata"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_rd_en",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_rd_valid"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_wr_en",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_wr_valid"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_addr",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_dicawics"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_ready",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_tag_array",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_dicawics"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_ifu_iccm_rd_ecc_single_err",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_ifu_ic_error_start",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ic_eccerr",
|
||||||
|
"~ifu|ifu>io_ic_tag_perr",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_rden",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_iccm_req",
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_mem_write",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_debug_way",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_ic_diag_pkt_icache_dicawics"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_rw_addr",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ic_rd_en",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_force_halt",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_mrac_ff",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_wren",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_mem_write",
|
||||||
|
"~ifu|ifu>io_ifu_dma_dma_mem_ctl_dma_iccm_req",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_ifc_dec_tlu_flush_noredir_wb",
|
||||||
|
"~ifu|ifu>io_exu_flush_path_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_ifu_dec_dec_ifc_ifu_pmu_fetch_stall",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_flush_err_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_i0_commit_cmt",
|
||||||
|
"~ifu|ifu>io_ic_rd_data",
|
||||||
|
"~ifu|ifu>io_ifu_r_bits_id",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_r_valid",
|
||||||
|
"~ifu|ifu>io_ifu_bus_clk_en",
|
||||||
|
"~ifu|ifu>io_dec_i0_decode_d",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu|ifu>io_iccm_dma_sb_error",
|
||||||
|
"sources":[
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_mem_ctrl_dec_tlu_core_ecc_disable",
|
||||||
|
"~ifu|ifu>io_iccm_rd_data_ecc",
|
||||||
|
"~ifu|ifu>io_exu_flush_final",
|
||||||
|
"~ifu|ifu>io_ic_rd_hit",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu|ifu>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu|ifu>io_ifu_dec_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu|ifu>io_exu_ifu_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.EmitCircuitAnnotation",
|
||||||
|
"emitter":"firrtl.VerilogEmitter"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.BlackBoxResourceAnno",
|
||||||
|
"target":"ifu.gated_latch",
|
||||||
|
"resourceId":"/vsrc/gated_latch.sv"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu|ifu_bp_ctl>btb_bank0_rd_data_way1_p1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu|ifu_bp_ctl>btb_bank0_rd_data_way0_p1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu|ifu_bp_ctl>btb_bank0_rd_data_way1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu|ifu_bp_ctl>btb_bank0_rd_data_way0_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu|ifu_mem_ctl>ifc_region_acc_okay"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.options.TargetDirAnnotation",
|
||||||
|
"directory":"."
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.options.OutputAnnotationFileAnnotation",
|
||||||
|
"file":"ifu"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.BlackBoxTargetDirAnno",
|
||||||
|
"targetDir":"."
|
||||||
|
}
|
||||||
|
]
|
|
@ -0,0 +1,181 @@
|
||||||
|
[
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_inst_mask_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_hit_taken_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_hist0_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_btb_target_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_hit_taken_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_pc4_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_valid_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_ret_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_way_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_mp_index",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_mp_btag",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_mp_pkt_bits_misp",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_poffset_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_hit_taken_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_bpred_disable",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.CombinationalPath",
|
||||||
|
"sink":"~ifu_bp_ctl|ifu_bp_ctl>io_ifu_bp_hist1_f",
|
||||||
|
"sources":[
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_addr_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_ifc_fetch_req_f",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_flush_leak_one_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_tlu_flush_lower_wb",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_way",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_start_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_dec_bp_dec_tlu_br0_r_pkt_bits_br_error",
|
||||||
|
"~ifu_bp_ctl|ifu_bp_ctl>io_exu_bp_exu_i0_br_index_r"
|
||||||
|
]
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.EmitCircuitAnnotation",
|
||||||
|
"emitter":"firrtl.VerilogEmitter"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.BlackBoxResourceAnno",
|
||||||
|
"target":"ifu_bp_ctl.gated_latch",
|
||||||
|
"resourceId":"/vsrc/gated_latch.sv"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu_bp_ctl|ifu_bp_ctl>btb_bank0_rd_data_way1_p1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu_bp_ctl|ifu_bp_ctl>btb_bank0_rd_data_way0_p1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu_bp_ctl|ifu_bp_ctl>btb_bank0_rd_data_way1_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.DontTouchAnnotation",
|
||||||
|
"target":"~ifu_bp_ctl|ifu_bp_ctl>btb_bank0_rd_data_way0_f"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.options.TargetDirAnnotation",
|
||||||
|
"directory":"."
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.options.OutputAnnotationFileAnnotation",
|
||||||
|
"file":"ifu_bp_ctl"
|
||||||
|
},
|
||||||
|
{
|
||||||
|
"class":"firrtl.transforms.BlackBoxTargetDirAnno",
|
||||||
|
"targetDir":"."
|
||||||
|
}
|
||||||
|
]
|
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
|
@ -1,499 +1,499 @@
|
||||||
|
//
|
||||||
import chisel3._
|
//import chisel3._
|
||||||
import chisel3.util._
|
//import chisel3.util._
|
||||||
import include._
|
//import include._
|
||||||
import dbg._
|
//import dbg._
|
||||||
import scala.collection._
|
//import scala.collection._
|
||||||
import lib._
|
//import lib._
|
||||||
|
//
|
||||||
class dma_ctrl extends Module with lib with RequireAsyncReset {
|
//class dma_ctrl extends Module with lib with RequireAsyncReset {
|
||||||
val io = IO(new Bundle {
|
// val io = IO(new Bundle {
|
||||||
val free_clk = Input(Clock())
|
// val free_clk = Input(Clock())
|
||||||
val dma_bus_clk_en = Input(Bool()) // slave bus clock enable
|
// val dma_bus_clk_en = Input(Bool()) // slave bus clock enable
|
||||||
val clk_override = Input(Bool())
|
// val clk_override = Input(Bool())
|
||||||
val scan_mode = Input(Bool())
|
// val scan_mode = Input(Bool())
|
||||||
val dbg_cmd_size = Input(UInt(2.W)) // size of the abstract mem access debug command
|
// val dbg_cmd_size = Input(UInt(2.W)) // size of the abstract mem access debug command
|
||||||
val dma_dbg_rddata = Output(UInt(32.W))
|
// val dma_dbg_rddata = Output(UInt(32.W))
|
||||||
val dma_dbg_cmd_done = Output(Bool())
|
// val dma_dbg_cmd_done = Output(Bool())
|
||||||
val dma_dbg_cmd_fail = Output(Bool())
|
// val dma_dbg_cmd_fail = Output(Bool())
|
||||||
val dbg_dma = new dec_dbg()
|
// val dbg_dma = new dec_dbg()
|
||||||
val dbg_dma_io = new dbg_dma()
|
// val dbg_dma_io = new dbg_dma()
|
||||||
val dec_dma = Flipped(new dec_dma())
|
// val dec_dma = Flipped(new dec_dma())
|
||||||
val iccm_dma_rvalid = Input(Bool()) // iccm data valid for DMA read
|
// val iccm_dma_rvalid = Input(Bool()) // iccm data valid for DMA read
|
||||||
val iccm_dma_ecc_error = Input(Bool()) // ECC error on DMA read
|
// val iccm_dma_ecc_error = Input(Bool()) // ECC error on DMA read
|
||||||
val iccm_dma_rtag = Input(UInt(3.W)) // Tag of the DMA req
|
// val iccm_dma_rtag = Input(UInt(3.W)) // Tag of the DMA req
|
||||||
val iccm_dma_rdata = Input(UInt(64.W)) // iccm data for DMA read
|
// val iccm_dma_rdata = Input(UInt(64.W)) // iccm data for DMA read
|
||||||
val iccm_ready = Input(Bool()) // iccm ready to accept DMA request
|
// val iccm_ready = Input(Bool()) // iccm ready to accept DMA request
|
||||||
// AXI Write Channels
|
// // AXI Write Channels
|
||||||
val dma_axi = Flipped(new axi_channels(DMA_BUS_TAG))
|
// val dma_axi = Flipped(new axi_channels(DMA_BUS_TAG))
|
||||||
val lsu_dma = Flipped(new lsu_dma)
|
// val lsu_dma = Flipped(new lsu_dma)
|
||||||
val ifu_dma = Flipped(new ifu_dma)
|
// val ifu_dma = Flipped(new ifu_dma)
|
||||||
})
|
// })
|
||||||
|
//
|
||||||
|
//
|
||||||
val DEPTH_PTR = log2Ceil(DMA_BUF_DEPTH)
|
// val DEPTH_PTR = log2Ceil(DMA_BUF_DEPTH)
|
||||||
|
//
|
||||||
val fifo_error = Wire(Vec(DMA_BUF_DEPTH, UInt(2.W)))
|
// val fifo_error = Wire(Vec(DMA_BUF_DEPTH, UInt(2.W)))
|
||||||
|
//
|
||||||
val fifo_error_bus = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_error_bus = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_done = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_done = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_addr = Wire(Vec(DMA_BUF_DEPTH, UInt(32.W)))
|
// val fifo_addr = Wire(Vec(DMA_BUF_DEPTH, UInt(32.W)))
|
||||||
|
//
|
||||||
val fifo_sz = Wire(Vec(DMA_BUF_DEPTH,UInt(3.W)))
|
// val fifo_sz = Wire(Vec(DMA_BUF_DEPTH,UInt(3.W)))
|
||||||
|
//
|
||||||
val fifo_byteen = Wire(Vec(DMA_BUF_DEPTH,UInt(8.W)))
|
// val fifo_byteen = Wire(Vec(DMA_BUF_DEPTH,UInt(8.W)))
|
||||||
|
//
|
||||||
val fifo_data = Wire(Vec(DMA_BUF_DEPTH,UInt(64.W)))
|
// val fifo_data = Wire(Vec(DMA_BUF_DEPTH,UInt(64.W)))
|
||||||
|
//
|
||||||
val fifo_tag = Wire(Vec(DMA_BUF_DEPTH,UInt(DMA_BUS_TAG.W)))
|
// val fifo_tag = Wire(Vec(DMA_BUF_DEPTH,UInt(DMA_BUS_TAG.W)))
|
||||||
|
//
|
||||||
val fifo_mid = Wire(Vec(DMA_BUF_DEPTH,UInt((DMA_BUS_ID:Int).W)))
|
// val fifo_mid = Wire(Vec(DMA_BUF_DEPTH,UInt((DMA_BUS_ID:Int).W)))
|
||||||
|
//
|
||||||
val fifo_prty = Wire(Vec(DMA_BUF_DEPTH,UInt(DMA_BUS_PRTY.W)))
|
// val fifo_prty = Wire(Vec(DMA_BUF_DEPTH,UInt(DMA_BUS_PRTY.W)))
|
||||||
|
//
|
||||||
val fifo_error_en = WireInit(UInt(DMA_BUF_DEPTH.W),0.U)
|
// val fifo_error_en = WireInit(UInt(DMA_BUF_DEPTH.W),0.U)
|
||||||
|
//
|
||||||
val fifo_error_in = Wire(Vec(DMA_BUF_DEPTH, UInt(2.W)))
|
// val fifo_error_in = Wire(Vec(DMA_BUF_DEPTH, UInt(2.W)))
|
||||||
|
//
|
||||||
val fifo_data_in = Wire(Vec(DMA_BUF_DEPTH,UInt(64.W)))
|
// val fifo_data_in = Wire(Vec(DMA_BUF_DEPTH,UInt(64.W)))
|
||||||
|
//
|
||||||
val RspPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val RspPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val WrPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val WrPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val RdPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val RdPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val NxtRspPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val NxtRspPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val NxtWrPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val NxtWrPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val NxtRdPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
// val NxtRdPtr = WireInit(UInt((log2Ceil(DMA_BUF_DEPTH)).W), 0.U)
|
||||||
|
//
|
||||||
val dma_dbg_cmd_error = WireInit(UInt(1.W),0.U)
|
// val dma_dbg_cmd_error = WireInit(UInt(1.W),0.U)
|
||||||
|
//
|
||||||
val dma_dbg_cmd_done_q = WireInit(UInt(1.W), 0.U)
|
// val dma_dbg_cmd_done_q = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_empty = WireInit(UInt(1.W), 0.U)
|
// val fifo_empty = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val dma_address_error = WireInit(UInt(1.W), 0.U)
|
// val dma_address_error = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val dma_alignment_error = WireInit(UInt(1.W), 0.U)
|
// val dma_alignment_error = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val num_fifo_vld = WireInit(UInt(4.W),0.U)
|
// val num_fifo_vld = WireInit(UInt(4.W),0.U)
|
||||||
|
//
|
||||||
val dma_mem_req = WireInit(UInt(1.W), 0.U)
|
// val dma_mem_req = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val dma_mem_addr_int = WireInit(UInt(32.W), 0.U)
|
// val dma_mem_addr_int = WireInit(UInt(32.W), 0.U)
|
||||||
|
//
|
||||||
val dma_mem_sz_int = WireInit(UInt(3.W), 0.U)
|
// val dma_mem_sz_int = WireInit(UInt(3.W), 0.U)
|
||||||
|
//
|
||||||
val dma_mem_byteen = WireInit(UInt(8.W), 0.U)
|
// val dma_mem_byteen = WireInit(UInt(8.W), 0.U)
|
||||||
|
//
|
||||||
val dma_nack_count = WireInit(UInt(3.W), 0.U)
|
// val dma_nack_count = WireInit(UInt(3.W), 0.U)
|
||||||
|
//
|
||||||
val dma_nack_count_csr = WireInit(UInt(3.W), 0.U)
|
// val dma_nack_count_csr = WireInit(UInt(3.W), 0.U)
|
||||||
|
//
|
||||||
val bus_rsp_valid = WireInit(UInt(1.W), 0.U)
|
// val bus_rsp_valid = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_rsp_sent = WireInit(UInt(1.W), 0.U)
|
// val bus_rsp_sent = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_valid = WireInit(UInt(1.W), 0.U)
|
// val bus_cmd_valid = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_sent = WireInit(UInt(1.W), 0.U)
|
// val bus_cmd_sent = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_write = WireInit(UInt(1.W), 0.U)
|
// val bus_cmd_write = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_posted_write = WireInit(UInt(1.W), 0.U)
|
// val bus_cmd_posted_write = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_byteen = WireInit(UInt(8.W), 0.U)
|
// val bus_cmd_byteen = WireInit(UInt(8.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_sz = WireInit(UInt(3.W), 0.U)
|
// val bus_cmd_sz = WireInit(UInt(3.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_addr = WireInit(UInt(32.W), 0.U)
|
// val bus_cmd_addr = WireInit(UInt(32.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_wdata = WireInit(UInt(64.W), 0.U)
|
// val bus_cmd_wdata = WireInit(UInt(64.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_tag = WireInit(UInt(DMA_BUS_TAG.W), 0.U)
|
// val bus_cmd_tag = WireInit(UInt(DMA_BUS_TAG.W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_mid = WireInit(UInt((DMA_BUS_ID:Int).W), 0.U)
|
// val bus_cmd_mid = WireInit(UInt((DMA_BUS_ID:Int).W), 0.U)
|
||||||
|
//
|
||||||
val bus_cmd_prty = WireInit(UInt(DMA_BUS_PRTY.W), 0.U)
|
// val bus_cmd_prty = WireInit(UInt(DMA_BUS_PRTY.W), 0.U)
|
||||||
|
//
|
||||||
val bus_posted_write_done = WireInit(UInt(1.W), 0.U)
|
// val bus_posted_write_done = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_full_spec_bus = WireInit(UInt(1.W), 0.U)
|
// val fifo_full_spec_bus = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val dbg_dma_bubble_bus = WireInit(UInt(1.W), 0.U)
|
// val dbg_dma_bubble_bus = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val axi_mstr_priority = WireInit(UInt(1.W), 0.U)
|
// val axi_mstr_priority = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val axi_mstr_sel = WireInit(UInt(1.W), 0.U)
|
// val axi_mstr_sel = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val axi_rsp_sent = WireInit(UInt(1.W), 0.U)
|
// val axi_rsp_sent = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_cmd_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_cmd_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_data_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_data_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_pend_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_pend_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_error_bus_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_error_bus_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_done_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_done_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_done_bus_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_done_bus_en = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_reset = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_reset = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_valid = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_valid = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_rpend = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_rpend = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_done_bus = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_done_bus = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_write = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_write = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_posted_write = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_posted_write = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val fifo_dbg = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
// val fifo_dbg = WireInit(UInt(DMA_BUF_DEPTH.W), 0.U)
|
||||||
|
//
|
||||||
val wrbuf_vld = WireInit(UInt(1.W), 0.U)
|
// val wrbuf_vld = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val wrbuf_data_vld = WireInit(UInt(1.W), 0.U)
|
// val wrbuf_data_vld = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val rdbuf_vld = WireInit(UInt(1.W), 0.U)
|
// val rdbuf_vld = WireInit(UInt(1.W), 0.U)
|
||||||
|
//
|
||||||
val dma_free_clk = Wire(Clock())
|
// val dma_free_clk = Wire(Clock())
|
||||||
|
//
|
||||||
val dma_bus_clk = Wire(Clock())
|
// val dma_bus_clk = Wire(Clock())
|
||||||
|
//
|
||||||
val dma_buffer_c1_clk = Wire(Clock())
|
// val dma_buffer_c1_clk = Wire(Clock())
|
||||||
|
//
|
||||||
val fifo_byteen_in = WireInit(UInt(8.W), 0.U)
|
// val fifo_byteen_in = WireInit(UInt(8.W), 0.U)
|
||||||
|
//
|
||||||
//------------------------LOGIC STARTS HERE---------------------------------
|
// //------------------------LOGIC STARTS HERE---------------------------------
|
||||||
|
//
|
||||||
|
//
|
||||||
// DCCM Address check
|
// // DCCM Address check
|
||||||
|
//
|
||||||
val (dma_mem_addr_in_dccm,dma_mem_addr_in_dccm_region_nc) = rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(DCCM_SADR).U,DCCM_SIZE)
|
// val (dma_mem_addr_in_dccm,dma_mem_addr_in_dccm_region_nc) = rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(DCCM_SADR).U,DCCM_SIZE)
|
||||||
|
//
|
||||||
// PIC memory address check
|
// // PIC memory address check
|
||||||
|
//
|
||||||
val (dma_mem_addr_in_pic,dma_mem_addr_in_pic_region_nc) = rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(PIC_BASE_ADDR).U,PIC_SIZE)
|
// val (dma_mem_addr_in_pic,dma_mem_addr_in_pic_region_nc) = rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(PIC_BASE_ADDR).U,PIC_SIZE)
|
||||||
|
//
|
||||||
// ICCM Address check
|
// // ICCM Address check
|
||||||
|
//
|
||||||
val (dma_mem_addr_in_iccm,dma_mem_addr_in_iccm_region_nc) = if(ICCM_ENABLE) rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(ICCM_SADR).U,ICCM_SIZE) else (0.U,0.U)
|
// val (dma_mem_addr_in_iccm,dma_mem_addr_in_iccm_region_nc) = if(ICCM_ENABLE) rvrangecheck_ch(dma_mem_addr_int(31,0),aslong(ICCM_SADR).U,ICCM_SIZE) else (0.U,0.U)
|
||||||
|
//
|
||||||
// FIFO inputs
|
// // FIFO inputs
|
||||||
|
//
|
||||||
val fifo_addr_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, io.dbg_dma.dbg_ib.dbg_cmd_addr(31,0), bus_cmd_addr(31,0))
|
// val fifo_addr_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, io.dbg_dma.dbg_ib.dbg_cmd_addr(31,0), bus_cmd_addr(31,0))
|
||||||
|
//
|
||||||
fifo_byteen_in := Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, "h0f".U << (4.U * io.dbg_dma.dbg_ib.dbg_cmd_addr(2)), bus_cmd_byteen(7,0))
|
// fifo_byteen_in := Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, "h0f".U << (4.U * io.dbg_dma.dbg_ib.dbg_cmd_addr(2)), bus_cmd_byteen(7,0))
|
||||||
|
//
|
||||||
val fifo_sz_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, Cat(0.U, io.dbg_cmd_size(1,0)), bus_cmd_sz(2,0))
|
// val fifo_sz_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, Cat(0.U, io.dbg_cmd_size(1,0)), bus_cmd_sz(2,0))
|
||||||
|
//
|
||||||
val fifo_write_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, io.dbg_dma.dbg_ib.dbg_cmd_write, bus_cmd_write)
|
// val fifo_write_in = Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid.asBool, io.dbg_dma.dbg_ib.dbg_cmd_write, bus_cmd_write)
|
||||||
|
//
|
||||||
val fifo_posted_write_in = !io.dbg_dma.dbg_ib.dbg_cmd_valid & bus_cmd_posted_write
|
// val fifo_posted_write_in = !io.dbg_dma.dbg_ib.dbg_cmd_valid & bus_cmd_posted_write
|
||||||
|
//
|
||||||
val fifo_dbg_in = io.dbg_dma.dbg_ib.dbg_cmd_valid
|
// val fifo_dbg_in = io.dbg_dma.dbg_ib.dbg_cmd_valid
|
||||||
|
//
|
||||||
|
//
|
||||||
fifo_cmd_en := (0 until DMA_BUF_DEPTH).map(i => (((bus_cmd_sent.asBool & io.dma_bus_clk_en) | (io.dbg_dma.dbg_ib.dbg_cmd_valid & io.dbg_dma.dbg_ib.dbg_cmd_type(1).asBool)) & (i.U === WrPtr)).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_cmd_en := (0 until DMA_BUF_DEPTH).map(i => (((bus_cmd_sent.asBool & io.dma_bus_clk_en) | (io.dbg_dma.dbg_ib.dbg_cmd_valid & io.dbg_dma.dbg_ib.dbg_cmd_type(1).asBool)) & (i.U === WrPtr)).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_data_en := (0 until DMA_BUF_DEPTH).map(i => (((bus_cmd_sent & fifo_write_in & io.dma_bus_clk_en) | (io.dbg_dma.dbg_ib.dbg_cmd_valid & io.dbg_dma.dbg_ib.dbg_cmd_type(1) & io.dbg_dma.dbg_ib.dbg_cmd_write)) & (i.U === WrPtr)) | ((dma_address_error | dma_alignment_error) & (i.U === RdPtr)) | (io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | (io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag))).reverse.reduce(Cat(_,_))
|
// fifo_data_en := (0 until DMA_BUF_DEPTH).map(i => (((bus_cmd_sent & fifo_write_in & io.dma_bus_clk_en) | (io.dbg_dma.dbg_ib.dbg_cmd_valid & io.dbg_dma.dbg_ib.dbg_cmd_type(1) & io.dbg_dma.dbg_ib.dbg_cmd_write)) & (i.U === WrPtr)) | ((dma_address_error | dma_alignment_error) & (i.U === RdPtr)) | (io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | (io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag))).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_pend_en := (0 until DMA_BUF_DEPTH).map(i => ((io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & !io.lsu_dma.dma_lsc_ctl.dma_mem_write & (i.U === RdPtr)).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_pend_en := (0 until DMA_BUF_DEPTH).map(i => ((io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & !io.lsu_dma.dma_lsc_ctl.dma_mem_write & (i.U === RdPtr)).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_error_en := (0 until DMA_BUF_DEPTH).map(i => (((dma_address_error.asBool | dma_alignment_error.asBool | dma_dbg_cmd_error) & (i.U === RdPtr)) | ((io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & io.lsu_dma.dma_dccm_ctl.dccm_dma_ecc_error) & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | ((io.iccm_dma_rvalid & io.iccm_dma_ecc_error) & (i.U === io.iccm_dma_rtag))).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_error_en := (0 until DMA_BUF_DEPTH).map(i => (((dma_address_error.asBool | dma_alignment_error.asBool | dma_dbg_cmd_error) & (i.U === RdPtr)) | ((io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & io.lsu_dma.dma_dccm_ctl.dccm_dma_ecc_error) & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | ((io.iccm_dma_rvalid & io.iccm_dma_ecc_error) & (i.U === io.iccm_dma_rtag))).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_error_bus_en := (0 until DMA_BUF_DEPTH).map(i => ((((fifo_error_in(i)(1,0).orR) & fifo_error_en(i)) | (fifo_error(i).orR)) & io.dma_bus_clk_en).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_error_bus_en := (0 until DMA_BUF_DEPTH).map(i => ((((fifo_error_in(i)(1,0).orR) & fifo_error_en(i)) | (fifo_error(i).orR)) & io.dma_bus_clk_en).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_done_en := (0 until DMA_BUF_DEPTH).map(i => (((fifo_error(i).orR | fifo_error_en(i) | ((io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & io.lsu_dma.dma_lsc_ctl.dma_mem_write)) & (i.U === RdPtr)) | (io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | (io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag))).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_done_en := (0 until DMA_BUF_DEPTH).map(i => (((fifo_error(i).orR | fifo_error_en(i) | ((io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & io.lsu_dma.dma_lsc_ctl.dma_mem_write)) & (i.U === RdPtr)) | (io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag)) | (io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag))).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_done_bus_en := (0 until DMA_BUF_DEPTH).map(i => ((fifo_done_en(i) | fifo_done(i)) & io.dma_bus_clk_en).asUInt).reverse.reduce(Cat(_,_))
|
// fifo_done_bus_en := (0 until DMA_BUF_DEPTH).map(i => ((fifo_done_en(i) | fifo_done(i)) & io.dma_bus_clk_en).asUInt).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_reset := (0 until DMA_BUF_DEPTH).map(i => ((((bus_rsp_sent | bus_posted_write_done) & io.dma_bus_clk_en) | io.dma_dbg_cmd_done) & (i.U === RspPtr))).reverse.reduce(Cat(_,_))
|
// fifo_reset := (0 until DMA_BUF_DEPTH).map(i => ((((bus_rsp_sent | bus_posted_write_done) & io.dma_bus_clk_en) | io.dma_dbg_cmd_done) & (i.U === RspPtr))).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_error_in(i) := (Mux(io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag), Cat(0.U, io.lsu_dma.dma_dccm_ctl.dccm_dma_ecc_error), Mux(io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag), (Cat(0.U, io.iccm_dma_ecc_error)), (Cat((dma_address_error | dma_alignment_error | dma_dbg_cmd_error), dma_alignment_error))))))
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_error_in(i) := (Mux(io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag), Cat(0.U, io.lsu_dma.dma_dccm_ctl.dccm_dma_ecc_error), Mux(io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag), (Cat(0.U, io.iccm_dma_ecc_error)), (Cat((dma_address_error | dma_alignment_error | dma_dbg_cmd_error), dma_alignment_error))))))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_data_in(i) := (Mux(fifo_error_en(i) & (fifo_error_in(i).orR), Cat(Fill(32, 0.U), fifo_addr(i)), Mux(io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag), io.lsu_dma.dma_dccm_ctl.dccm_dma_rdata, Mux(io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag), io.iccm_dma_rdata, Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid, Fill(2, io.dbg_dma.dbg_dctl.dbg_cmd_wrdata), bus_cmd_wdata(63,0)))))))
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_data_in(i) := (Mux(fifo_error_en(i) & (fifo_error_in(i).orR), Cat(Fill(32, 0.U), fifo_addr(i)), Mux(io.lsu_dma.dma_dccm_ctl.dccm_dma_rvalid & (i.U === io.lsu_dma.dma_dccm_ctl.dccm_dma_rtag), io.lsu_dma.dma_dccm_ctl.dccm_dma_rdata, Mux(io.iccm_dma_rvalid & (i.U === io.iccm_dma_rtag), io.iccm_dma_rdata, Mux(io.dbg_dma.dbg_ib.dbg_cmd_valid, Fill(2, io.dbg_dma.dbg_dctl.dbg_cmd_wrdata), bus_cmd_wdata(63,0)))))))
|
||||||
|
//
|
||||||
fifo_valid := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_cmd_en(i), 1.U, fifo_valid(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
// fifo_valid := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_cmd_en(i), 1.U, fifo_valid(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_error(i) := withClock(dma_free_clk) {RegNext(Mux(fifo_error_en(i).asBool(),fifo_error_in(i) , fifo_error(i)) & Fill(fifo_error_in(i).getWidth , !fifo_reset(i)), 0.U)})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_error(i) := withClock(dma_free_clk) {RegNext(Mux(fifo_error_en(i).asBool(),fifo_error_in(i) , fifo_error(i)) & Fill(fifo_error_in(i).getWidth , !fifo_reset(i)), 0.U)})
|
||||||
|
//
|
||||||
fifo_error_bus := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_error_bus_en(i), 1.U, fifo_error_bus(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
// fifo_error_bus := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_error_bus_en(i), 1.U, fifo_error_bus(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_rpend := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_pend_en(i), 1.U, fifo_rpend(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
// fifo_rpend := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_pend_en(i), 1.U, fifo_rpend(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_done := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_done_en(i), 1.U, fifo_done(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
// fifo_done := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_done_en(i), 1.U, fifo_done(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_done_bus := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_done_bus_en(i), 1.U, fifo_done_bus(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
// fifo_done_bus := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_free_clk) {RegNext(Mux(fifo_done_bus_en(i), 1.U, fifo_done_bus(i)) & !fifo_reset(i), 0.U)}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_addr(i) := rvdffe(fifo_addr_in, fifo_cmd_en(i), clock, io.scan_mode))
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_addr(i) := rvdffe(fifo_addr_in, fifo_cmd_en(i), clock, io.scan_mode))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_sz(i) := withClock(dma_buffer_c1_clk) {RegEnable(fifo_sz_in(2,0), 0.U, fifo_cmd_en(i))})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_sz(i) := withClock(dma_buffer_c1_clk) {RegEnable(fifo_sz_in(2,0), 0.U, fifo_cmd_en(i))})
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_byteen(i) := withClock(dma_buffer_c1_clk) {RegEnable(fifo_byteen_in(7,0), 0.U, fifo_cmd_en(i).asBool())})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_byteen(i) := withClock(dma_buffer_c1_clk) {RegEnable(fifo_byteen_in(7,0), 0.U, fifo_cmd_en(i).asBool())})
|
||||||
|
//
|
||||||
fifo_write := (0 until DMA_BUF_DEPTH).map(i => (withClock(dma_buffer_c1_clk) {RegEnable(fifo_write_in, 0.U, fifo_cmd_en(i))})).reverse.reduce(Cat(_,_))
|
// fifo_write := (0 until DMA_BUF_DEPTH).map(i => (withClock(dma_buffer_c1_clk) {RegEnable(fifo_write_in, 0.U, fifo_cmd_en(i))})).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_posted_write := (0 until DMA_BUF_DEPTH).map(i => (withClock(dma_buffer_c1_clk) {RegEnable(fifo_posted_write_in, 0.U, fifo_cmd_en(i))})).reverse.reduce(Cat(_,_))
|
// fifo_posted_write := (0 until DMA_BUF_DEPTH).map(i => (withClock(dma_buffer_c1_clk) {RegEnable(fifo_posted_write_in, 0.U, fifo_cmd_en(i))})).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
fifo_dbg := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_buffer_c1_clk) {RegEnable(fifo_dbg_in, 0.U, fifo_cmd_en(i))}).reverse.reduce(Cat(_,_))
|
// fifo_dbg := (0 until DMA_BUF_DEPTH).map(i => withClock(dma_buffer_c1_clk) {RegEnable(fifo_dbg_in, 0.U, fifo_cmd_en(i))}).reverse.reduce(Cat(_,_))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_data(i) := rvdffe(fifo_data_in(i), fifo_data_en(i), clock, io.scan_mode))
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_data(i) := rvdffe(fifo_data_in(i), fifo_data_en(i), clock, io.scan_mode))
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_tag(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_tag, 0.U, fifo_cmd_en(i))})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_tag(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_tag, 0.U, fifo_cmd_en(i))})
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_mid(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_mid, 0.U, fifo_cmd_en(i))})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_mid(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_mid, 0.U, fifo_cmd_en(i))})
|
||||||
|
//
|
||||||
(0 until DMA_BUF_DEPTH).map(i => fifo_prty(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_prty, 0.U, fifo_cmd_en(i))})
|
// (0 until DMA_BUF_DEPTH).map(i => fifo_prty(i) := withClock(dma_buffer_c1_clk) {RegEnable(bus_cmd_prty, 0.U, fifo_cmd_en(i))})
|
||||||
|
//
|
||||||
// Pointer logic
|
// // Pointer logic
|
||||||
|
//
|
||||||
NxtWrPtr := Mux((WrPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, WrPtr + 1.U)
|
// NxtWrPtr := Mux((WrPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, WrPtr + 1.U)
|
||||||
|
//
|
||||||
NxtRdPtr := Mux((RdPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, RdPtr + 1.U)
|
// NxtRdPtr := Mux((RdPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, RdPtr + 1.U)
|
||||||
|
//
|
||||||
NxtRspPtr := Mux((RspPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, RspPtr + 1.U)
|
// NxtRspPtr := Mux((RspPtr === (DMA_BUF_DEPTH - 1).U).asBool, 0.U, RspPtr + 1.U)
|
||||||
|
//
|
||||||
val WrPtrEn = fifo_cmd_en.orR
|
// val WrPtrEn = fifo_cmd_en.orR
|
||||||
|
//
|
||||||
val RdPtrEn = (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req | (dma_address_error.asBool | dma_alignment_error.asBool | dma_dbg_cmd_error))
|
// val RdPtrEn = (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req | (dma_address_error.asBool | dma_alignment_error.asBool | dma_dbg_cmd_error))
|
||||||
|
//
|
||||||
val RspPtrEn = (io.dma_dbg_cmd_done | (bus_rsp_sent | bus_posted_write_done) & io.dma_bus_clk_en)
|
// val RspPtrEn = (io.dma_dbg_cmd_done | (bus_rsp_sent | bus_posted_write_done) & io.dma_bus_clk_en)
|
||||||
|
//
|
||||||
WrPtr := withClock(dma_free_clk) {
|
// WrPtr := withClock(dma_free_clk) {
|
||||||
RegEnable(NxtWrPtr, 0.U, WrPtrEn)
|
// RegEnable(NxtWrPtr, 0.U, WrPtrEn)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
RdPtr := withClock(dma_free_clk) {
|
// RdPtr := withClock(dma_free_clk) {
|
||||||
RegEnable(NxtRdPtr, 0.U, RdPtrEn.asBool)
|
// RegEnable(NxtRdPtr, 0.U, RdPtrEn.asBool)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
RspPtr := withClock(dma_free_clk) {
|
// RspPtr := withClock(dma_free_clk) {
|
||||||
RegEnable(NxtRspPtr, 0.U, RspPtrEn.asBool)
|
// RegEnable(NxtRspPtr, 0.U, RspPtrEn.asBool)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
// Miscellaneous signal
|
// // Miscellaneous signal
|
||||||
|
//
|
||||||
val fifo_full = fifo_full_spec_bus;
|
// val fifo_full = fifo_full_spec_bus;
|
||||||
|
//
|
||||||
val num_fifo_vld_tmp = WireInit(UInt(4.W),0.U)
|
// val num_fifo_vld_tmp = WireInit(UInt(4.W),0.U)
|
||||||
val num_fifo_vld_tmp2 = WireInit(UInt(4.W),0.U)
|
// val num_fifo_vld_tmp2 = WireInit(UInt(4.W),0.U)
|
||||||
|
//
|
||||||
num_fifo_vld_tmp := (Cat(Fill(3, 0.U), bus_cmd_sent)) - (Cat(Fill(3, 0.U), bus_rsp_sent))
|
// num_fifo_vld_tmp := (Cat(Fill(3, 0.U), bus_cmd_sent)) - (Cat(Fill(3, 0.U), bus_rsp_sent))
|
||||||
|
//
|
||||||
num_fifo_vld_tmp2 := (0 until DMA_BUF_DEPTH).map(i => Cat(Fill(3,0.U), fifo_valid(i))).reduce(_+_)
|
// num_fifo_vld_tmp2 := (0 until DMA_BUF_DEPTH).map(i => Cat(Fill(3,0.U), fifo_valid(i))).reduce(_+_)
|
||||||
|
//
|
||||||
num_fifo_vld := num_fifo_vld_tmp + num_fifo_vld_tmp2
|
// num_fifo_vld := num_fifo_vld_tmp + num_fifo_vld_tmp2
|
||||||
|
//
|
||||||
val fifo_full_spec = (num_fifo_vld >= DMA_BUF_DEPTH.asUInt())
|
// val fifo_full_spec = (num_fifo_vld >= DMA_BUF_DEPTH.asUInt())
|
||||||
|
//
|
||||||
val dma_fifo_ready = ~(fifo_full | dbg_dma_bubble_bus)
|
// val dma_fifo_ready = ~(fifo_full | dbg_dma_bubble_bus)
|
||||||
|
//
|
||||||
// Error logic
|
// // Error logic
|
||||||
|
//
|
||||||
dma_address_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & !fifo_dbg(RdPtr) & (~(dma_mem_addr_in_dccm | dma_mem_addr_in_iccm)).asUInt // request not for ICCM or DCCM
|
// dma_address_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & !fifo_dbg(RdPtr) & (~(dma_mem_addr_in_dccm | dma_mem_addr_in_iccm)).asUInt // request not for ICCM or DCCM
|
||||||
dma_alignment_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & !dma_address_error &
|
// dma_alignment_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & !dma_address_error &
|
||||||
(((dma_mem_sz_int(2,0) === 1.U) & dma_mem_addr_int(0)) | // HW size but unaligned
|
// (((dma_mem_sz_int(2,0) === 1.U) & dma_mem_addr_int(0)) | // HW size but unaligned
|
||||||
((dma_mem_sz_int(2,0) === 2.U) & (dma_mem_addr_int(1, 0).orR)) | // W size but unaligned
|
// ((dma_mem_sz_int(2,0) === 2.U) & (dma_mem_addr_int(1, 0).orR)) | // W size but unaligned
|
||||||
((dma_mem_sz_int(2,0) === 3.U) & (dma_mem_addr_int(2, 0).orR)) | // DW size but unaligned
|
// ((dma_mem_sz_int(2,0) === 3.U) & (dma_mem_addr_int(2, 0).orR)) | // DW size but unaligned
|
||||||
(dma_mem_addr_in_iccm & ~((dma_mem_sz_int(1, 0) === 2.U) | (dma_mem_sz_int(1, 0) === 3.U)).asUInt ) | // ICCM access not word size
|
// (dma_mem_addr_in_iccm & ~((dma_mem_sz_int(1, 0) === 2.U) | (dma_mem_sz_int(1, 0) === 3.U)).asUInt ) | // ICCM access not word size
|
||||||
(dma_mem_addr_in_dccm & io.lsu_dma.dma_lsc_ctl.dma_mem_write & ~((dma_mem_sz_int(1, 0) === 2.U) | (dma_mem_sz_int(1, 0) === 3.U)).asUInt) | // DCCM write not word size
|
// (dma_mem_addr_in_dccm & io.lsu_dma.dma_lsc_ctl.dma_mem_write & ~((dma_mem_sz_int(1, 0) === 2.U) | (dma_mem_sz_int(1, 0) === 3.U)).asUInt) | // DCCM write not word size
|
||||||
(io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_sz_int(2, 0) === 2.U) & (Mux1H(Seq((dma_mem_addr_int(2,0) === 0.U) -> (dma_mem_byteen(3,0)),
|
// (io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_sz_int(2, 0) === 2.U) & (Mux1H(Seq((dma_mem_addr_int(2,0) === 0.U) -> (dma_mem_byteen(3,0)),
|
||||||
(dma_mem_addr_int(2,0) === 1.U) -> (dma_mem_byteen(4,1)),
|
// (dma_mem_addr_int(2,0) === 1.U) -> (dma_mem_byteen(4,1)),
|
||||||
(dma_mem_addr_int(2,0) === 2.U) -> (dma_mem_byteen(5,2)),
|
// (dma_mem_addr_int(2,0) === 2.U) -> (dma_mem_byteen(5,2)),
|
||||||
(dma_mem_addr_int(2,0) === 3.U) -> (dma_mem_byteen(6,3)),
|
// (dma_mem_addr_int(2,0) === 3.U) -> (dma_mem_byteen(6,3)),
|
||||||
(dma_mem_addr_int(2,0) === 4.U) -> (dma_mem_byteen(7,4)),
|
// (dma_mem_addr_int(2,0) === 4.U) -> (dma_mem_byteen(7,4)),
|
||||||
(dma_mem_addr_int(2,0) === 5.U) -> (dma_mem_byteen(7,5)),
|
// (dma_mem_addr_int(2,0) === 5.U) -> (dma_mem_byteen(7,5)),
|
||||||
(dma_mem_addr_int(2,0) === 6.U) -> (dma_mem_byteen(7,6)),
|
// (dma_mem_addr_int(2,0) === 6.U) -> (dma_mem_byteen(7,6)),
|
||||||
(dma_mem_addr_int(2,0) === 7.U) -> (dma_mem_byteen(7)))) =/= "hf".U)) | // Write byte enables not aligned for word store
|
// (dma_mem_addr_int(2,0) === 7.U) -> (dma_mem_byteen(7)))) =/= "hf".U)) | // Write byte enables not aligned for word store
|
||||||
(io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_sz_int(2, 0) === 3.U) & !((dma_mem_byteen(7,0) === "h0f".U) | (dma_mem_byteen(7,0) === "hf0".U) | (dma_mem_byteen(7,0) === "hff".U)))) // Write byte enables not aligned for dword store
|
// (io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_sz_int(2, 0) === 3.U) & !((dma_mem_byteen(7,0) === "h0f".U) | (dma_mem_byteen(7,0) === "hf0".U) | (dma_mem_byteen(7,0) === "hff".U)))) // Write byte enables not aligned for dword store
|
||||||
|
//
|
||||||
|
//
|
||||||
//Dbg outputs
|
// //Dbg outputs
|
||||||
|
//
|
||||||
io.dbg_dma_io.dma_dbg_ready := fifo_empty & dbg_dma_bubble_bus
|
// io.dbg_dma_io.dma_dbg_ready := fifo_empty & dbg_dma_bubble_bus
|
||||||
io.dma_dbg_cmd_done := (fifo_valid(RspPtr) & fifo_dbg(RspPtr) & fifo_done(RspPtr))
|
// io.dma_dbg_cmd_done := (fifo_valid(RspPtr) & fifo_dbg(RspPtr) & fifo_done(RspPtr))
|
||||||
io.dma_dbg_rddata := Mux(fifo_addr(RspPtr)(2), fifo_data(RspPtr)(63, 32), fifo_data(RspPtr)(31,0))
|
// io.dma_dbg_rddata := Mux(fifo_addr(RspPtr)(2), fifo_data(RspPtr)(63, 32), fifo_data(RspPtr)(31,0))
|
||||||
io.dma_dbg_cmd_fail := fifo_error(RspPtr).orR
|
// io.dma_dbg_cmd_fail := fifo_error(RspPtr).orR
|
||||||
|
//
|
||||||
dma_dbg_cmd_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & fifo_dbg(RdPtr) & ((~(dma_mem_addr_in_dccm | dma_mem_addr_in_iccm | dma_mem_addr_in_pic)).asBool() | (dma_mem_sz_int(1, 0) =/= 2.U)) // Only word accesses allowed
|
// dma_dbg_cmd_error := fifo_valid(RdPtr) & !fifo_done(RdPtr) & fifo_dbg(RdPtr) & ((~(dma_mem_addr_in_dccm | dma_mem_addr_in_iccm | dma_mem_addr_in_pic)).asBool() | (dma_mem_sz_int(1, 0) =/= 2.U)) // Only word accesses allowed
|
||||||
|
//
|
||||||
// Block the decode if fifo full
|
// // Block the decode if fifo full
|
||||||
|
//
|
||||||
io.dec_dma.tlu_dma.dma_dccm_stall_any := dma_mem_req & (dma_mem_addr_in_dccm | dma_mem_addr_in_pic) & (dma_nack_count >= dma_nack_count_csr)
|
// io.dec_dma.tlu_dma.dma_dccm_stall_any := dma_mem_req & (dma_mem_addr_in_dccm | dma_mem_addr_in_pic) & (dma_nack_count >= dma_nack_count_csr)
|
||||||
io.ifu_dma.dma_ifc.dma_iccm_stall_any := dma_mem_req & dma_mem_addr_in_iccm & (dma_nack_count >= dma_nack_count_csr);
|
// io.ifu_dma.dma_ifc.dma_iccm_stall_any := dma_mem_req & dma_mem_addr_in_iccm & (dma_nack_count >= dma_nack_count_csr);
|
||||||
io.dec_dma.tlu_dma.dma_iccm_stall_any := io.ifu_dma.dma_ifc.dma_iccm_stall_any
|
// io.dec_dma.tlu_dma.dma_iccm_stall_any := io.ifu_dma.dma_ifc.dma_iccm_stall_any
|
||||||
io.dec_dma.dctl_dma.dma_dccm_stall_any := io.dec_dma.tlu_dma.dma_dccm_stall_any
|
// io.dec_dma.dctl_dma.dma_dccm_stall_any := io.dec_dma.tlu_dma.dma_dccm_stall_any
|
||||||
// Used to indicate ready to debug
|
// // Used to indicate ready to debug
|
||||||
|
//
|
||||||
fifo_empty := ~(fifo_valid.orR)
|
// fifo_empty := ~(fifo_valid.orR)
|
||||||
|
//
|
||||||
// Nack counter, stall the lsu pipe if 7 nacks
|
// // Nack counter, stall the lsu pipe if 7 nacks
|
||||||
|
//
|
||||||
dma_nack_count_csr := io.dec_dma.tlu_dma.dec_tlu_dma_qos_prty
|
// dma_nack_count_csr := io.dec_dma.tlu_dma.dec_tlu_dma_qos_prty
|
||||||
val dma_nack_count_d = Mux(dma_nack_count >= dma_nack_count_csr, (Fill(3, !(io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req)) & dma_nack_count(2,0)), Mux((dma_mem_req.asBool & !(io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req)), dma_nack_count(2,0) + 1.U, 0.U))
|
// val dma_nack_count_d = Mux(dma_nack_count >= dma_nack_count_csr, (Fill(3, !(io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req)) & dma_nack_count(2,0)), Mux((dma_mem_req.asBool & !(io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req)), dma_nack_count(2,0) + 1.U, 0.U))
|
||||||
|
//
|
||||||
dma_nack_count := withClock(dma_free_clk) {
|
// dma_nack_count := withClock(dma_free_clk) {
|
||||||
RegEnable(dma_nack_count_d(2,0), 0.U, dma_mem_req.asBool)
|
// RegEnable(dma_nack_count_d(2,0), 0.U, dma_mem_req.asBool)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
// Core outputs
|
// // Core outputs
|
||||||
|
//
|
||||||
dma_mem_req := fifo_valid(RdPtr) & !fifo_rpend(RdPtr) & !fifo_done(RdPtr) & !(dma_address_error | dma_alignment_error | dma_dbg_cmd_error)
|
// dma_mem_req := fifo_valid(RdPtr) & !fifo_rpend(RdPtr) & !fifo_done(RdPtr) & !(dma_address_error | dma_alignment_error | dma_dbg_cmd_error)
|
||||||
io.lsu_dma.dma_lsc_ctl.dma_dccm_req := dma_mem_req & (dma_mem_addr_in_dccm | dma_mem_addr_in_pic) & io.lsu_dma.dccm_ready
|
// io.lsu_dma.dma_lsc_ctl.dma_dccm_req := dma_mem_req & (dma_mem_addr_in_dccm | dma_mem_addr_in_pic) & io.lsu_dma.dccm_ready
|
||||||
io.ifu_dma.dma_mem_ctl.dma_iccm_req := dma_mem_req & dma_mem_addr_in_iccm & io.iccm_ready;
|
// io.ifu_dma.dma_mem_ctl.dma_iccm_req := dma_mem_req & dma_mem_addr_in_iccm & io.iccm_ready;
|
||||||
io.lsu_dma.dma_mem_tag := RdPtr
|
// io.lsu_dma.dma_mem_tag := RdPtr
|
||||||
dma_mem_addr_int := fifo_addr(RdPtr)
|
// dma_mem_addr_int := fifo_addr(RdPtr)
|
||||||
dma_mem_sz_int := fifo_sz(RdPtr)
|
// dma_mem_sz_int := fifo_sz(RdPtr)
|
||||||
io.lsu_dma.dma_lsc_ctl.dma_mem_addr := Mux(io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_byteen(7,0) === "hf0".U), Cat(dma_mem_addr_int(31, 3), 1.U, dma_mem_addr_int(1, 0)), dma_mem_addr_int(31,0))
|
// io.lsu_dma.dma_lsc_ctl.dma_mem_addr := Mux(io.lsu_dma.dma_lsc_ctl.dma_mem_write & (dma_mem_byteen(7,0) === "hf0".U), Cat(dma_mem_addr_int(31, 3), 1.U, dma_mem_addr_int(1, 0)), dma_mem_addr_int(31,0))
|
||||||
io.lsu_dma.dma_lsc_ctl.dma_mem_sz := Mux(io.lsu_dma.dma_lsc_ctl.dma_mem_write & ((dma_mem_byteen(7,0) === "h0f".U) | (dma_mem_byteen(7,0) === "hf0".U)), 2.U, dma_mem_sz_int(2,0))
|
// io.lsu_dma.dma_lsc_ctl.dma_mem_sz := Mux(io.lsu_dma.dma_lsc_ctl.dma_mem_write & ((dma_mem_byteen(7,0) === "h0f".U) | (dma_mem_byteen(7,0) === "hf0".U)), 2.U, dma_mem_sz_int(2,0))
|
||||||
dma_mem_byteen := fifo_byteen(RdPtr)
|
// dma_mem_byteen := fifo_byteen(RdPtr)
|
||||||
io.lsu_dma.dma_lsc_ctl.dma_mem_write := fifo_write(RdPtr)
|
// io.lsu_dma.dma_lsc_ctl.dma_mem_write := fifo_write(RdPtr)
|
||||||
io.lsu_dma.dma_lsc_ctl.dma_mem_wdata := fifo_data(RdPtr)
|
// io.lsu_dma.dma_lsc_ctl.dma_mem_wdata := fifo_data(RdPtr)
|
||||||
|
//
|
||||||
// PMU outputs
|
// // PMU outputs
|
||||||
|
//
|
||||||
io.dec_dma.tlu_dma.dma_pmu_dccm_read := io.lsu_dma.dma_lsc_ctl.dma_dccm_req & !io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
// io.dec_dma.tlu_dma.dma_pmu_dccm_read := io.lsu_dma.dma_lsc_ctl.dma_dccm_req & !io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
||||||
io.dec_dma.tlu_dma.dma_pmu_dccm_write := io.lsu_dma.dma_lsc_ctl.dma_dccm_req & io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
// io.dec_dma.tlu_dma.dma_pmu_dccm_write := io.lsu_dma.dma_lsc_ctl.dma_dccm_req & io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
||||||
io.dec_dma.tlu_dma.dma_pmu_any_read := (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & !io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
// io.dec_dma.tlu_dma.dma_pmu_any_read := (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & !io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
||||||
io.dec_dma.tlu_dma.dma_pmu_any_write := (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
// io.dec_dma.tlu_dma.dma_pmu_any_write := (io.lsu_dma.dma_lsc_ctl.dma_dccm_req | io.ifu_dma.dma_mem_ctl.dma_iccm_req) & io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
||||||
|
//
|
||||||
// Inputs
|
// // Inputs
|
||||||
|
//
|
||||||
fifo_full_spec_bus := withClock(dma_bus_clk) {
|
// fifo_full_spec_bus := withClock(dma_bus_clk) {
|
||||||
RegNext(fifo_full_spec, 0.U)
|
// RegNext(fifo_full_spec, 0.U)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
dbg_dma_bubble_bus := withClock(dma_bus_clk) {
|
// dbg_dma_bubble_bus := withClock(dma_bus_clk) {
|
||||||
RegNext(io.dbg_dma_io.dbg_dma_bubble, 0.U)
|
// RegNext(io.dbg_dma_io.dbg_dma_bubble, 0.U)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
dma_dbg_cmd_done_q := withClock(io.free_clk) {
|
// dma_dbg_cmd_done_q := withClock(io.free_clk) {
|
||||||
RegNext(io.dma_dbg_cmd_done, 0.U)
|
// RegNext(io.dma_dbg_cmd_done, 0.U)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
// Clock Gating logic
|
// // Clock Gating logic
|
||||||
|
//
|
||||||
val dma_buffer_c1_clken = (bus_cmd_valid & io.dma_bus_clk_en) | io.dbg_dma.dbg_ib.dbg_cmd_valid | io.clk_override
|
// val dma_buffer_c1_clken = (bus_cmd_valid & io.dma_bus_clk_en) | io.dbg_dma.dbg_ib.dbg_cmd_valid | io.clk_override
|
||||||
val dma_free_clken = (bus_cmd_valid | bus_rsp_valid | io.dbg_dma.dbg_ib.dbg_cmd_valid | io.dma_dbg_cmd_done | dma_dbg_cmd_done_q | (fifo_valid.orR) | io.clk_override)
|
// val dma_free_clken = (bus_cmd_valid | bus_rsp_valid | io.dbg_dma.dbg_ib.dbg_cmd_valid | io.dma_dbg_cmd_done | dma_dbg_cmd_done_q | (fifo_valid.orR) | io.clk_override)
|
||||||
|
//
|
||||||
dma_buffer_c1_clk := rvclkhdr(clock,dma_buffer_c1_clken.asBool,io.scan_mode)
|
// dma_buffer_c1_clk := rvclkhdr(clock,dma_buffer_c1_clken.asBool,io.scan_mode)
|
||||||
dma_free_clk := rvclkhdr(clock,dma_free_clken.asBool(),io.scan_mode)
|
// dma_free_clk := rvclkhdr(clock,dma_free_clken.asBool(),io.scan_mode)
|
||||||
dma_bus_clk := rvclkhdr(clock,io.dma_bus_clk_en,io.scan_mode)
|
// dma_bus_clk := rvclkhdr(clock,io.dma_bus_clk_en,io.scan_mode)
|
||||||
|
//
|
||||||
|
//
|
||||||
// Write channel buffer
|
// // Write channel buffer
|
||||||
|
//
|
||||||
val wrbuf_en = io.dma_axi.aw.valid & io.dma_axi.aw.ready
|
// val wrbuf_en = io.dma_axi.aw.valid & io.dma_axi.aw.ready
|
||||||
val wrbuf_data_en = io.dma_axi.w.valid & io.dma_axi.w.ready
|
// val wrbuf_data_en = io.dma_axi.w.valid & io.dma_axi.w.ready
|
||||||
val wrbuf_cmd_sent = bus_cmd_sent & bus_cmd_write
|
// val wrbuf_cmd_sent = bus_cmd_sent & bus_cmd_write
|
||||||
val wrbuf_rst = wrbuf_cmd_sent.asBool & !wrbuf_en
|
// val wrbuf_rst = wrbuf_cmd_sent.asBool & !wrbuf_en
|
||||||
val wrbuf_data_rst = wrbuf_cmd_sent.asBool & !wrbuf_data_en
|
// val wrbuf_data_rst = wrbuf_cmd_sent.asBool & !wrbuf_data_en
|
||||||
|
//
|
||||||
wrbuf_vld := withClock(dma_bus_clk) {RegNext(Mux(wrbuf_en, 1.U, wrbuf_vld) & !wrbuf_rst, 0.U)}
|
// wrbuf_vld := withClock(dma_bus_clk) {RegNext(Mux(wrbuf_en, 1.U, wrbuf_vld) & !wrbuf_rst, 0.U)}
|
||||||
|
//
|
||||||
wrbuf_data_vld := withClock(dma_bus_clk) {RegNext(Mux(wrbuf_data_en, 1.U, wrbuf_data_vld) & !wrbuf_data_rst, 0.U)}
|
// wrbuf_data_vld := withClock(dma_bus_clk) {RegNext(Mux(wrbuf_data_en, 1.U, wrbuf_data_vld) & !wrbuf_data_rst, 0.U)}
|
||||||
|
//
|
||||||
val wrbuf_tag = withClock(dma_bus_clk) {
|
// val wrbuf_tag = withClock(dma_bus_clk) {
|
||||||
RegEnable(io.dma_axi.aw.bits.id, 0.U, wrbuf_en)
|
// RegEnable(io.dma_axi.aw.bits.id, 0.U, wrbuf_en)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
val wrbuf_sz = withClock(dma_bus_clk) {
|
// val wrbuf_sz = withClock(dma_bus_clk) {
|
||||||
RegEnable(io.dma_axi.aw.bits.size, 0.U, wrbuf_en)
|
// RegEnable(io.dma_axi.aw.bits.size, 0.U, wrbuf_en)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
val wrbuf_addr = rvdffe(io.dma_axi.aw.bits.addr, wrbuf_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
// val wrbuf_addr = rvdffe(io.dma_axi.aw.bits.addr, wrbuf_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
||||||
|
//
|
||||||
val wrbuf_data = rvdffe(io.dma_axi.w.bits.data, wrbuf_data_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
// val wrbuf_data = rvdffe(io.dma_axi.w.bits.data, wrbuf_data_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
||||||
|
//
|
||||||
val wrbuf_byteen = withClock(dma_bus_clk) {
|
// val wrbuf_byteen = withClock(dma_bus_clk) {
|
||||||
RegEnable(io.dma_axi.w.bits.strb, 0.U, wrbuf_data_en)
|
// RegEnable(io.dma_axi.w.bits.strb, 0.U, wrbuf_data_en)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
// Read channel buffer
|
// // Read channel buffer
|
||||||
|
//
|
||||||
val rdbuf_en = io.dma_axi.ar.valid & io.dma_axi.ar.ready
|
// val rdbuf_en = io.dma_axi.ar.valid & io.dma_axi.ar.ready
|
||||||
val rdbuf_cmd_sent = bus_cmd_sent & !bus_cmd_write
|
// val rdbuf_cmd_sent = bus_cmd_sent & !bus_cmd_write
|
||||||
val rdbuf_rst = rdbuf_cmd_sent.asBool & !rdbuf_en
|
// val rdbuf_rst = rdbuf_cmd_sent.asBool & !rdbuf_en
|
||||||
|
//
|
||||||
rdbuf_vld := withClock(dma_bus_clk) {RegNext(Mux(rdbuf_en, 1.U, rdbuf_vld) & !rdbuf_rst, 0.U)}
|
// rdbuf_vld := withClock(dma_bus_clk) {RegNext(Mux(rdbuf_en, 1.U, rdbuf_vld) & !rdbuf_rst, 0.U)}
|
||||||
|
//
|
||||||
val rdbuf_tag = withClock(dma_bus_clk) {
|
// val rdbuf_tag = withClock(dma_bus_clk) {
|
||||||
RegEnable(io.dma_axi.ar.bits.id, 0.U, rdbuf_en)
|
// RegEnable(io.dma_axi.ar.bits.id, 0.U, rdbuf_en)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
val rdbuf_sz = withClock(dma_bus_clk) {
|
// val rdbuf_sz = withClock(dma_bus_clk) {
|
||||||
RegEnable(io.dma_axi.ar.bits.size, 0.U, rdbuf_en)
|
// RegEnable(io.dma_axi.ar.bits.size, 0.U, rdbuf_en)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
val rdbuf_addr = rvdffe(io.dma_axi.ar.bits.addr, rdbuf_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
// val rdbuf_addr = rvdffe(io.dma_axi.ar.bits.addr, rdbuf_en & io.dma_bus_clk_en, clock, io.scan_mode)
|
||||||
|
//
|
||||||
io.dma_axi.aw.ready := ~(wrbuf_vld & !wrbuf_cmd_sent)
|
// io.dma_axi.aw.ready := ~(wrbuf_vld & !wrbuf_cmd_sent)
|
||||||
io.dma_axi.w.ready := ~(wrbuf_data_vld & !wrbuf_cmd_sent)
|
// io.dma_axi.w.ready := ~(wrbuf_data_vld & !wrbuf_cmd_sent)
|
||||||
io.dma_axi.ar.ready := ~(rdbuf_vld & !rdbuf_cmd_sent)
|
// io.dma_axi.ar.ready := ~(rdbuf_vld & !rdbuf_cmd_sent)
|
||||||
|
//
|
||||||
//Generate a single request from read/write channel
|
// //Generate a single request from read/write channel
|
||||||
|
//
|
||||||
bus_cmd_valid := (wrbuf_vld & wrbuf_data_vld) | rdbuf_vld
|
// bus_cmd_valid := (wrbuf_vld & wrbuf_data_vld) | rdbuf_vld
|
||||||
bus_cmd_sent := bus_cmd_valid & dma_fifo_ready.asUInt
|
// bus_cmd_sent := bus_cmd_valid & dma_fifo_ready.asUInt
|
||||||
bus_cmd_write := axi_mstr_sel
|
// bus_cmd_write := axi_mstr_sel
|
||||||
bus_cmd_posted_write := 0.U;
|
// bus_cmd_posted_write := 0.U;
|
||||||
bus_cmd_addr := Mux(axi_mstr_sel.asBool, wrbuf_addr, rdbuf_addr)
|
// bus_cmd_addr := Mux(axi_mstr_sel.asBool, wrbuf_addr, rdbuf_addr)
|
||||||
bus_cmd_sz := Mux(axi_mstr_sel.asBool, wrbuf_sz, rdbuf_sz)
|
// bus_cmd_sz := Mux(axi_mstr_sel.asBool, wrbuf_sz, rdbuf_sz)
|
||||||
bus_cmd_wdata := wrbuf_data
|
// bus_cmd_wdata := wrbuf_data
|
||||||
bus_cmd_byteen := wrbuf_byteen
|
// bus_cmd_byteen := wrbuf_byteen
|
||||||
bus_cmd_tag := Mux(axi_mstr_sel.asBool, wrbuf_tag, rdbuf_tag)
|
// bus_cmd_tag := Mux(axi_mstr_sel.asBool, wrbuf_tag, rdbuf_tag)
|
||||||
bus_cmd_mid := 0.U
|
// bus_cmd_mid := 0.U
|
||||||
bus_cmd_prty := 0.U
|
// bus_cmd_prty := 0.U
|
||||||
|
//
|
||||||
// Sel=1 -> write has higher priority
|
// // Sel=1 -> write has higher priority
|
||||||
|
//
|
||||||
axi_mstr_sel := Mux((wrbuf_vld & wrbuf_data_vld & rdbuf_vld) === 1.U, axi_mstr_priority, wrbuf_vld & wrbuf_data_vld)
|
// axi_mstr_sel := Mux((wrbuf_vld & wrbuf_data_vld & rdbuf_vld) === 1.U, axi_mstr_priority, wrbuf_vld & wrbuf_data_vld)
|
||||||
val axi_mstr_prty_in = ~axi_mstr_priority
|
// val axi_mstr_prty_in = ~axi_mstr_priority
|
||||||
val axi_mstr_prty_en = bus_cmd_sent
|
// val axi_mstr_prty_en = bus_cmd_sent
|
||||||
|
//
|
||||||
axi_mstr_priority := withClock(dma_bus_clk) {
|
// axi_mstr_priority := withClock(dma_bus_clk) {
|
||||||
RegEnable(axi_mstr_prty_in, 0.U, axi_mstr_prty_en.asBool)
|
// RegEnable(axi_mstr_prty_in, 0.U, axi_mstr_prty_en.asBool)
|
||||||
}
|
// }
|
||||||
|
//
|
||||||
val axi_rsp_valid = fifo_valid(RspPtr) & !fifo_dbg(RspPtr) & fifo_done_bus(RspPtr)
|
// val axi_rsp_valid = fifo_valid(RspPtr) & !fifo_dbg(RspPtr) & fifo_done_bus(RspPtr)
|
||||||
val axi_rsp_rdata = fifo_data(RspPtr)
|
// val axi_rsp_rdata = fifo_data(RspPtr)
|
||||||
val axi_rsp_write = fifo_write(RspPtr)
|
// val axi_rsp_write = fifo_write(RspPtr)
|
||||||
val axi_rsp_error = Mux(fifo_error(RspPtr)(0), 2.U, Mux(fifo_error(RspPtr)(1), 3.U, 0.U));
|
// val axi_rsp_error = Mux(fifo_error(RspPtr)(0), 2.U, Mux(fifo_error(RspPtr)(1), 3.U, 0.U));
|
||||||
|
//
|
||||||
val axi_rsp_tag = fifo_tag(RspPtr)
|
// val axi_rsp_tag = fifo_tag(RspPtr)
|
||||||
|
//
|
||||||
// AXI response channel signals
|
// // AXI response channel signals
|
||||||
|
//
|
||||||
io.dma_axi.b.valid := axi_rsp_valid & axi_rsp_write
|
// io.dma_axi.b.valid := axi_rsp_valid & axi_rsp_write
|
||||||
io.dma_axi.b.bits.resp := axi_rsp_error(1,0)
|
// io.dma_axi.b.bits.resp := axi_rsp_error(1,0)
|
||||||
io.dma_axi.b.bits.id := axi_rsp_tag
|
// io.dma_axi.b.bits.id := axi_rsp_tag
|
||||||
|
//
|
||||||
io.dma_axi.r.valid := axi_rsp_valid & !axi_rsp_write
|
// io.dma_axi.r.valid := axi_rsp_valid & !axi_rsp_write
|
||||||
io.dma_axi.r.bits.resp := axi_rsp_error
|
// io.dma_axi.r.bits.resp := axi_rsp_error
|
||||||
io.dma_axi.r.bits.data := axi_rsp_rdata(63,0)
|
// io.dma_axi.r.bits.data := axi_rsp_rdata(63,0)
|
||||||
io.dma_axi.r.bits.last := 1.U
|
// io.dma_axi.r.bits.last := 1.U
|
||||||
io.dma_axi.r.bits.id := axi_rsp_tag
|
// io.dma_axi.r.bits.id := axi_rsp_tag
|
||||||
|
//
|
||||||
bus_posted_write_done := 0.U
|
// bus_posted_write_done := 0.U
|
||||||
bus_rsp_valid := (io.dma_axi.b.valid | io.dma_axi.r.valid)
|
// bus_rsp_valid := (io.dma_axi.b.valid | io.dma_axi.r.valid)
|
||||||
bus_rsp_sent := ((io.dma_axi.b.valid & io.dma_axi.b.ready) | (io.dma_axi.r.valid & io.dma_axi.r.ready))
|
// bus_rsp_sent := ((io.dma_axi.b.valid & io.dma_axi.b.ready) | (io.dma_axi.r.valid & io.dma_axi.r.ready))
|
||||||
io.lsu_dma.dma_dccm_ctl.dma_mem_addr := io.lsu_dma.dma_lsc_ctl.dma_mem_addr
|
// io.lsu_dma.dma_dccm_ctl.dma_mem_addr := io.lsu_dma.dma_lsc_ctl.dma_mem_addr
|
||||||
io.lsu_dma.dma_dccm_ctl.dma_mem_wdata := io.lsu_dma.dma_lsc_ctl.dma_mem_wdata
|
// io.lsu_dma.dma_dccm_ctl.dma_mem_wdata := io.lsu_dma.dma_lsc_ctl.dma_mem_wdata
|
||||||
io.ifu_dma.dma_mem_ctl.dma_mem_sz := io.lsu_dma.dma_lsc_ctl.dma_mem_sz
|
// io.ifu_dma.dma_mem_ctl.dma_mem_sz := io.lsu_dma.dma_lsc_ctl.dma_mem_sz
|
||||||
io.ifu_dma.dma_mem_ctl.dma_mem_addr := io.lsu_dma.dma_lsc_ctl.dma_mem_addr
|
// io.ifu_dma.dma_mem_ctl.dma_mem_addr := io.lsu_dma.dma_lsc_ctl.dma_mem_addr
|
||||||
io.ifu_dma.dma_mem_ctl.dma_mem_wdata := io.lsu_dma.dma_lsc_ctl.dma_mem_wdata
|
// io.ifu_dma.dma_mem_ctl.dma_mem_wdata := io.lsu_dma.dma_lsc_ctl.dma_mem_wdata
|
||||||
io.ifu_dma.dma_mem_ctl.dma_mem_write := io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
// io.ifu_dma.dma_mem_ctl.dma_mem_write := io.lsu_dma.dma_lsc_ctl.dma_mem_write
|
||||||
io.ifu_dma.dma_mem_ctl.dma_mem_tag := io.lsu_dma.dma_mem_tag
|
// io.ifu_dma.dma_mem_ctl.dma_mem_tag := io.lsu_dma.dma_mem_tag
|
||||||
}
|
//}
|
||||||
|
//
|
||||||
|
//
|
||||||
|
|
|
@ -1,121 +1,148 @@
|
||||||
//package ifu
|
package ifu
|
||||||
//import chisel3._
|
import chisel3._
|
||||||
//import chisel3.internal.naming.chiselName
|
import chisel3.internal.naming.chiselName
|
||||||
//import chisel3.util._
|
import chisel3.util._
|
||||||
//import exu._
|
import exu._
|
||||||
//import lib._
|
import lib._
|
||||||
//import include._
|
import include._
|
||||||
//
|
|
||||||
//@chiselName
|
@chiselName
|
||||||
//class ifu extends Module with lib with RequireAsyncReset {
|
class ifu extends Module with lib with RequireAsyncReset {
|
||||||
// val io = IO(new Bundle{
|
val io = IO(new Bundle{
|
||||||
// val exu_flush_final = Input(Bool())
|
val ifu_i0_fa_index = Output(UInt(log2Ceil(BTB_SIZE).W))
|
||||||
// val exu_flush_path_final = Input(UInt(31.W))
|
val dec_i0_decode_d = Input(Bool()) // Dec
|
||||||
// val free_clk = Input(Clock())
|
val dec_fa_error_index = Input(UInt(log2Ceil(BTB_SIZE).W))// Fully associative btb error index
|
||||||
// val active_clk = Input(Clock())
|
|
||||||
// val ifu_dec = new ifu_dec() // IFU and DEC interconnects
|
|
||||||
// val exu_ifu = new exu_ifu() // IFU and EXU interconnects
|
val exu_flush_final = Input(Bool())
|
||||||
// val iccm = new iccm_mem() // ICCM memory signals
|
val exu_flush_path_final = Input(UInt(31.W))
|
||||||
// val ic = new ic_mem() // I$ memory signals
|
val free_l2clk = Input(Clock())
|
||||||
// val ifu = new axi_channels(IFU_BUS_TAG) // AXI Write Channel
|
val active_clk = Input(Clock())
|
||||||
// val ifu_bus_clk_en = Input(Bool())
|
val ifu_dec = new ifu_dec() // IFU and DEC interconnects
|
||||||
// val ifu_dma = new ifu_dma() // DMA signals
|
val exu_ifu = new exu_ifu() // IFU and EXU interconnects
|
||||||
// // ICCM DMA signals
|
val iccm = new iccm_mem() // ICCM memory signals
|
||||||
// val iccm_dma_ecc_error = Output(Bool())
|
val ic = new ic_mem() // I$ memory signals
|
||||||
// val iccm_dma_rvalid = Output(Bool())
|
val ifu = new axi_channels(IFU_BUS_TAG) // AXI Write Channel
|
||||||
// val iccm_dma_rdata = Output(UInt(64.W))
|
val ifu_bus_clk_en = Input(Bool())
|
||||||
// val iccm_dma_rtag = Output(UInt(3.W))
|
val ifu_dma = new ifu_dma() // DMA signals
|
||||||
// val iccm_ready = Output(Bool())
|
// ICCM DMA signals
|
||||||
// // Performance counter
|
val iccm_dma_ecc_error = Output(Bool())
|
||||||
// val iccm_dma_sb_error = Output(Bool())
|
val iccm_dma_rvalid = Output(Bool())
|
||||||
// val dec_tlu_flush_lower_wb = Input(Bool())
|
val iccm_dma_rdata = Output(UInt(64.W))
|
||||||
// val scan_mode = Input(Bool())
|
val iccm_dma_rtag = Output(UInt(3.W))
|
||||||
// })
|
val iccm_ready = Output(Bool())
|
||||||
// val mem_ctl = Module(new ifu_mem_ctl)
|
// Performance counter
|
||||||
// val bp_ctl = Module(new ifu_bp_ctl)
|
val iccm_dma_sb_error = Output(Bool())
|
||||||
// val aln_ctl = Module(new ifu_aln_ctl)
|
val dec_tlu_flush_lower_wb = Input(Bool())
|
||||||
// val ifc_ctl = Module(new ifu_ifc_ctl)
|
val scan_mode = Input(Bool())
|
||||||
//
|
})
|
||||||
// // IFC wiring Inputs
|
val mem_ctl = Module(new ifu_mem_ctl)
|
||||||
|
val bp_ctl = Module(new ifu_bp_ctl)
|
||||||
|
val aln_ctl = Module(new ifu_aln_ctl)
|
||||||
|
val ifc_ctl = Module(new ifu_ifc_ctl)
|
||||||
|
|
||||||
|
// IFC wiring Inputs
|
||||||
//ifc_ctl.io.active_clk := io.active_clk
|
//ifc_ctl.io.active_clk := io.active_clk
|
||||||
// ifc_ctl.io.free_clk := io.free_clk
|
ifc_ctl.io.free_l2clk := io.free_l2clk
|
||||||
// ifc_ctl.io.scan_mode := io.scan_mode
|
ifc_ctl.io.scan_mode := io.scan_mode
|
||||||
// ifc_ctl.io.ic_hit_f := mem_ctl.io.ic_hit_f
|
ifc_ctl.io.ic_hit_f := mem_ctl.io.ic_hit_f
|
||||||
// ifc_ctl.io.ifu_fb_consume1 := aln_ctl.io.ifu_fb_consume1
|
ifc_ctl.io.ifu_fb_consume1 := aln_ctl.io.ifu_fb_consume1
|
||||||
// ifc_ctl.io.ifu_fb_consume2 := aln_ctl.io.ifu_fb_consume2
|
ifc_ctl.io.ifu_fb_consume2 := aln_ctl.io.ifu_fb_consume2
|
||||||
// ifc_ctl.io.dec_ifc <> io.ifu_dec.dec_ifc
|
ifc_ctl.io.dec_ifc <> io.ifu_dec.dec_ifc
|
||||||
// ifc_ctl.io.exu_flush_final := io.exu_flush_final
|
ifc_ctl.io.exu_flush_final := io.exu_flush_final
|
||||||
// ifc_ctl.io.ifu_bp_hit_taken_f := bp_ctl.io.ifu_bp_hit_taken_f
|
ifc_ctl.io.ifu_bp_hit_taken_f := bp_ctl.io.ifu_bp_hit_taken_f
|
||||||
// ifc_ctl.io.ifu_bp_btb_target_f := bp_ctl.io.ifu_bp_btb_target_f
|
ifc_ctl.io.ifu_bp_btb_target_f := bp_ctl.io.ifu_bp_btb_target_f
|
||||||
// ifc_ctl.io.ic_dma_active := mem_ctl.io.ic_dma_active
|
ifc_ctl.io.ic_dma_active := mem_ctl.io.ic_dma_active
|
||||||
// ifc_ctl.io.ic_write_stall := mem_ctl.io.ic_write_stall
|
ifc_ctl.io.ic_write_stall := mem_ctl.io.ic_write_stall
|
||||||
// ifc_ctl.io.dma_ifc <> io.ifu_dma.dma_ifc
|
ifc_ctl.io.dma_ifc <> io.ifu_dma.dma_ifc
|
||||||
// ifc_ctl.io.ifu_ic_mb_empty := mem_ctl.io.ifu_ic_mb_empty
|
ifc_ctl.io.ifu_ic_mb_empty := mem_ctl.io.ifu_ic_mb_empty
|
||||||
// ifc_ctl.io.exu_flush_path_final := io.exu_flush_path_final
|
ifc_ctl.io.exu_flush_path_final := io.exu_flush_path_final
|
||||||
//
|
|
||||||
// // ALN wiring Inputs
|
// ALN wiring Inputs
|
||||||
// aln_ctl.io.scan_mode := io.scan_mode
|
aln_ctl.io.scan_mode := io.scan_mode
|
||||||
// aln_ctl.io.active_clk := io.active_clk
|
aln_ctl.io.active_clk := io.active_clk
|
||||||
// aln_ctl.io.ifu_async_error_start := mem_ctl.io.ifu_async_error_start
|
aln_ctl.io.ifu_async_error_start := mem_ctl.io.ifu_async_error_start
|
||||||
// aln_ctl.io.iccm_rd_ecc_double_err := mem_ctl.io.iccm_rd_ecc_double_err
|
aln_ctl.io.iccm_rd_ecc_double_err := mem_ctl.io.iccm_rd_ecc_double_err
|
||||||
// aln_ctl.io.ic_access_fault_f := mem_ctl.io.ic_access_fault_f
|
aln_ctl.io.ic_access_fault_f := mem_ctl.io.ic_access_fault_f
|
||||||
// aln_ctl.io.ic_access_fault_type_f := mem_ctl.io.ic_access_fault_type_f
|
aln_ctl.io.ic_access_fault_type_f := mem_ctl.io.ic_access_fault_type_f
|
||||||
// aln_ctl.io.ifu_bp_fghr_f := bp_ctl.io.ifu_bp_fghr_f
|
aln_ctl.io.ifu_bp_fghr_f := bp_ctl.io.ifu_bp_fghr_f
|
||||||
// aln_ctl.io.ifu_bp_btb_target_f := bp_ctl.io.ifu_bp_btb_target_f
|
aln_ctl.io.ifu_bp_btb_target_f := bp_ctl.io.ifu_bp_btb_target_f
|
||||||
// aln_ctl.io.ifu_bp_poffset_f := bp_ctl.io.ifu_bp_poffset_f
|
aln_ctl.io.ifu_bp_poffset_f := bp_ctl.io.ifu_bp_poffset_f
|
||||||
// aln_ctl.io.ifu_bp_hist0_f := bp_ctl.io.ifu_bp_hist0_f
|
aln_ctl.io.ifu_bp_hist0_f := bp_ctl.io.ifu_bp_hist0_f
|
||||||
// aln_ctl.io.ifu_bp_hist1_f := bp_ctl.io.ifu_bp_hist1_f
|
aln_ctl.io.ifu_bp_hist1_f := bp_ctl.io.ifu_bp_hist1_f
|
||||||
// aln_ctl.io.ifu_bp_pc4_f := bp_ctl.io.ifu_bp_pc4_f
|
aln_ctl.io.ifu_bp_pc4_f := bp_ctl.io.ifu_bp_pc4_f
|
||||||
// aln_ctl.io.ifu_bp_way_f := bp_ctl.io.ifu_bp_way_f
|
aln_ctl.io.ifu_bp_way_f := bp_ctl.io.ifu_bp_way_f
|
||||||
// aln_ctl.io.ifu_bp_valid_f := bp_ctl.io.ifu_bp_valid_f
|
aln_ctl.io.ifu_bp_valid_f := bp_ctl.io.ifu_bp_valid_f
|
||||||
// aln_ctl.io.ifu_bp_ret_f := bp_ctl.io.ifu_bp_ret_f
|
aln_ctl.io.ifu_bp_ret_f := bp_ctl.io.ifu_bp_ret_f
|
||||||
// aln_ctl.io.exu_flush_final := io.exu_flush_final
|
aln_ctl.io.exu_flush_final := io.exu_flush_final
|
||||||
// aln_ctl.io.dec_aln <> io.ifu_dec.dec_aln
|
aln_ctl.io.dec_aln <> io.ifu_dec.dec_aln
|
||||||
// aln_ctl.io.ifu_fetch_data_f := mem_ctl.io.ic_data_f
|
// io.ifu_dec.dec_aln.aln_dec.ifu_i0_cinst := aln_ctl.io.ifu_i0_cinst
|
||||||
// aln_ctl.io.ifu_fetch_val := mem_ctl.io.ifu_fetch_val
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_icaf := aln_ctl.io.ifu_i0_icaf
|
||||||
// aln_ctl.io.ifu_fetch_pc := ifc_ctl.io.ifc_fetch_addr_f
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_icaf_type := aln_ctl.io.ifu_i0_icaf_type
|
||||||
//
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_icaf_second := aln_ctl.io.ifu_i0_icaf_second
|
||||||
// // BP wiring Inputs
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_dbecc := aln_ctl.io.ifu_i0_dbecc
|
||||||
// bp_ctl.io.scan_mode := io.scan_mode
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_bp_index := aln_ctl.io.ifu_i0_bp_index
|
||||||
// bp_ctl.io.active_clk := io.active_clk
|
io.ifu_i0_fa_index := aln_ctl.io.ifu_i0_fa_index
|
||||||
// bp_ctl.io.ic_hit_f := mem_ctl.io.ic_hit_f
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_bp_fghr := aln_ctl.io.ifu_i0_bp_fghr
|
||||||
// bp_ctl.io.ifc_fetch_addr_f := ifc_ctl.io.ifc_fetch_addr_f
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_bp_btag := aln_ctl.io.ifu_i0_bp_btag
|
||||||
// bp_ctl.io.ifc_fetch_req_f := ifc_ctl.io.ifc_fetch_req_f
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_valid := aln_ctl.io.ifu_i0_valid
|
||||||
// bp_ctl.io.dec_bp <> io.ifu_dec.dec_bp
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_instr := aln_ctl.io.ifu_i0_instr
|
||||||
// bp_ctl.io.exu_bp <> io.exu_ifu.exu_bp
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_pc := aln_ctl.io.ifu_i0_pc
|
||||||
// bp_ctl.io.exu_flush_final := io.exu_flush_final
|
// io.ifu_dec.dec_aln.aln_ib.ifu_i0_pc4 := aln_ctl.io.ifu_i0_pc4
|
||||||
// bp_ctl.io.dec_tlu_flush_lower_wb := io.dec_tlu_flush_lower_wb
|
// io.ifu_dec.dec_aln.ifu_pmu_instr_aligned := aln_ctl.io.ifu_pmu_instr_aligned
|
||||||
//
|
// aln_ctl.io.i0_brp <> io.ifu_dec.dec_aln.aln_ib.i0_brp
|
||||||
// // mem-ctl Inputs
|
aln_ctl.io.dec_i0_decode_d := io.dec_i0_decode_d
|
||||||
// mem_ctl.io.free_clk := io.free_clk
|
aln_ctl.io.ifu_bp_fa_index_f := bp_ctl.io.ifu_bp_fa_index_f
|
||||||
// mem_ctl.io.active_clk := io.active_clk
|
|
||||||
// mem_ctl.io.exu_flush_final := io.exu_flush_final
|
aln_ctl.io.ifu_fetch_data_f := mem_ctl.io.ic_data_f
|
||||||
// mem_ctl.io.dec_mem_ctrl <> io.ifu_dec.dec_mem_ctrl
|
aln_ctl.io.ifu_fetch_val := mem_ctl.io.ifu_fetch_val
|
||||||
// mem_ctl.io.ifc_fetch_addr_bf := ifc_ctl.io.ifc_fetch_addr_bf
|
aln_ctl.io.ifu_fetch_pc := ifc_ctl.io.ifc_fetch_addr_f
|
||||||
// mem_ctl.io.ifc_fetch_uncacheable_bf := ifc_ctl.io.ifc_fetch_uncacheable_bf
|
|
||||||
// mem_ctl.io.ifc_fetch_req_bf := ifc_ctl.io.ifc_fetch_req_bf
|
// BP wiring Inputs
|
||||||
// mem_ctl.io.ifc_fetch_req_bf_raw := ifc_ctl.io.ifc_fetch_req_bf_raw
|
bp_ctl.io.scan_mode := io.scan_mode
|
||||||
// mem_ctl.io.ifc_iccm_access_bf := ifc_ctl.io.ifc_iccm_access_bf
|
bp_ctl.io.active_clk := io.active_clk
|
||||||
// mem_ctl.io.ifc_region_acc_fault_bf := ifc_ctl.io.ifc_region_acc_fault_bf
|
bp_ctl.io.ic_hit_f := mem_ctl.io.ic_hit_f
|
||||||
// mem_ctl.io.ifc_dma_access_ok := ifc_ctl.io.ifc_dma_access_ok
|
bp_ctl.io.ifc_fetch_addr_f := ifc_ctl.io.ifc_fetch_addr_f
|
||||||
// mem_ctl.io.ifu_bp_hit_taken_f := bp_ctl.io.ifu_bp_hit_taken_f
|
bp_ctl.io.ifc_fetch_req_f := ifc_ctl.io.ifc_fetch_req_f
|
||||||
// mem_ctl.io.ifu_bp_inst_mask_f := bp_ctl.io.ifu_bp_inst_mask_f
|
bp_ctl.io.dec_bp <> io.ifu_dec.dec_bp
|
||||||
// mem_ctl.io.ifu_axi <> io.ifu
|
bp_ctl.io.exu_bp <> io.exu_ifu.exu_bp
|
||||||
// mem_ctl.io.ifu_bus_clk_en := io.ifu_bus_clk_en
|
bp_ctl.io.exu_flush_final := io.exu_flush_final
|
||||||
// mem_ctl.io.dma_mem_ctl <> io.ifu_dma.dma_mem_ctl
|
bp_ctl.io.dec_tlu_flush_lower_wb := io.dec_tlu_flush_lower_wb
|
||||||
// mem_ctl.io.ic <> io.ic
|
bp_ctl.io.dec_fa_error_index := io.dec_fa_error_index
|
||||||
// mem_ctl.io.iccm <> io.iccm
|
|
||||||
// mem_ctl.io.ifu_fetch_val := mem_ctl.io.ic_fetch_val_f
|
// mem-ctl Inputs
|
||||||
// mem_ctl.io.dec_tlu_flush_lower_wb := io.dec_tlu_flush_lower_wb
|
mem_ctl.io.free_l2clk := io.free_l2clk
|
||||||
// mem_ctl.io.scan_mode := io.scan_mode
|
mem_ctl.io.active_clk := io.active_clk
|
||||||
//
|
mem_ctl.io.exu_flush_final := io.exu_flush_final
|
||||||
// // DMA to the ICCM
|
mem_ctl.io.dec_mem_ctrl <> io.ifu_dec.dec_mem_ctrl
|
||||||
// io.iccm_dma_ecc_error := mem_ctl.io.iccm_dma_ecc_error
|
mem_ctl.io.ifc_fetch_addr_bf := ifc_ctl.io.ifc_fetch_addr_bf
|
||||||
// io.iccm_dma_rvalid := mem_ctl.io.iccm_dma_rvalid
|
mem_ctl.io.ifc_fetch_uncacheable_bf := ifc_ctl.io.ifc_fetch_uncacheable_bf
|
||||||
// io.iccm_dma_rdata := mem_ctl.io.iccm_dma_rdata
|
mem_ctl.io.ifc_fetch_req_bf := ifc_ctl.io.ifc_fetch_req_bf
|
||||||
// io.iccm_dma_rtag := mem_ctl.io.iccm_dma_rtag
|
mem_ctl.io.ifc_fetch_req_bf_raw := ifc_ctl.io.ifc_fetch_req_bf_raw
|
||||||
// io.iccm_ready := mem_ctl.io.iccm_ready
|
mem_ctl.io.ifc_iccm_access_bf := ifc_ctl.io.ifc_iccm_access_bf
|
||||||
// io.iccm_dma_sb_error := mem_ctl.io.iccm_dma_sb_error
|
mem_ctl.io.ifc_region_acc_fault_bf := ifc_ctl.io.ifc_region_acc_fault_bf
|
||||||
//}
|
mem_ctl.io.ifc_dma_access_ok := ifc_ctl.io.ifc_dma_access_ok
|
||||||
//
|
mem_ctl.io.ifu_bp_hit_taken_f := bp_ctl.io.ifu_bp_hit_taken_f
|
||||||
//
|
mem_ctl.io.ifu_bp_inst_mask_f := bp_ctl.io.ifu_bp_inst_mask_f
|
||||||
|
mem_ctl.io.ifu_axi <> io.ifu
|
||||||
|
mem_ctl.io.ifu_bus_clk_en := io.ifu_bus_clk_en
|
||||||
|
mem_ctl.io.dma_mem_ctl <> io.ifu_dma.dma_mem_ctl
|
||||||
|
mem_ctl.io.ic <> io.ic
|
||||||
|
mem_ctl.io.iccm <> io.iccm
|
||||||
|
mem_ctl.io.ifu_fetch_val := mem_ctl.io.ic_fetch_val_f
|
||||||
|
mem_ctl.io.dec_tlu_flush_lower_wb := io.dec_tlu_flush_lower_wb
|
||||||
|
mem_ctl.io.scan_mode := io.scan_mode
|
||||||
|
|
||||||
|
// DMA to the ICCM
|
||||||
|
io.iccm_dma_ecc_error := mem_ctl.io.iccm_dma_ecc_error
|
||||||
|
io.iccm_dma_rvalid := mem_ctl.io.iccm_dma_rvalid
|
||||||
|
io.iccm_dma_rdata := mem_ctl.io.iccm_dma_rdata
|
||||||
|
io.iccm_dma_rtag := mem_ctl.io.iccm_dma_rtag
|
||||||
|
io.iccm_ready := mem_ctl.io.iccm_ready
|
||||||
|
io.iccm_dma_sb_error := mem_ctl.io.iccm_dma_sb_error
|
||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
|
object ifu_top extends App {
|
||||||
|
println((new chisel3.stage.ChiselStage).emitVerilog(new ifu()))
|
||||||
|
}
|
|
@ -9,9 +9,27 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val scan_mode = Input(Bool())
|
val scan_mode = Input(Bool())
|
||||||
val active_clk = Input(Clock())
|
val active_clk = Input(Clock())
|
||||||
val ifu_async_error_start = Input(Bool()) // Error coming from mem-ctl
|
val ifu_async_error_start = Input(Bool()) // Error coming from mem-ctl
|
||||||
val iccm_rd_ecc_double_err = Input(Bool()) // ICCM double error coming from mem-ctl
|
val iccm_rd_ecc_double_err = Input(UInt(2.W)) // ICCM double error coming from mem-ctl
|
||||||
val ic_access_fault_f = Input(Bool()) // Access fault in I$
|
val ic_access_fault_f = Input(UInt(2.W)) // Access fault in I$
|
||||||
val ic_access_fault_type_f = Input(UInt(2.W)) // Type of access fault occured
|
val ic_access_fault_type_f = Input(UInt(2.W)) // Type of access fault occured
|
||||||
|
val dec_i0_decode_d = Input(Bool())
|
||||||
|
val dec_aln = new dec_aln()
|
||||||
|
// val ifu_i0_valid = Output(Bool())
|
||||||
|
// val ifu_i0_icaf = Output(Bool())
|
||||||
|
// val ifu_i0_icaf_type = Output(UInt(2.W))
|
||||||
|
// val ifu_i0_icaf_second = Output(Bool())
|
||||||
|
// val ifu_i0_dbecc = Output(Bool())
|
||||||
|
// val ifu_i0_instr = Output(UInt(32.W))
|
||||||
|
// val ifu_i0_pc = Output(UInt(31.W))
|
||||||
|
// val ifu_i0_pc4 = Output(Bool())
|
||||||
|
val ifu_bp_fa_index_f = Vec(2, Input(UInt(log2Ceil(BTB_SIZE).W)))
|
||||||
|
// val i0_brp = Output(Valid(new br_pkt_t()))
|
||||||
|
// val ifu_i0_bp_index = Output(UInt((BTB_ADDR_HI-BTB_ADDR_LO+1).W))
|
||||||
|
// val ifu_i0_bp_fghr = Output(UInt(BHT_GHR_SIZE.W))
|
||||||
|
// val ifu_i0_bp_btag = Output(UInt(BTB_BTAG_SIZE.W))
|
||||||
|
val ifu_i0_fa_index = Output(UInt(log2Ceil(BTB_SIZE).W))
|
||||||
|
// val ifu_pmu_instr_aligned = Output(Bool())
|
||||||
|
// val ifu_i0_cinst = Output(UInt(16.W))
|
||||||
val ifu_bp_fghr_f = Input(UInt(BHT_GHR_SIZE.W)) // Data coming from the branch predictor to put in the FP
|
val ifu_bp_fghr_f = Input(UInt(BHT_GHR_SIZE.W)) // Data coming from the branch predictor to put in the FP
|
||||||
val ifu_bp_btb_target_f = Input(UInt(31.W)) // Target for the instruction enqueue in the FP
|
val ifu_bp_btb_target_f = Input(UInt(31.W)) // Target for the instruction enqueue in the FP
|
||||||
val ifu_bp_poffset_f = Input(UInt(12.W)) // Offset to the current PC for branch
|
val ifu_bp_poffset_f = Input(UInt(12.W)) // Offset to the current PC for branch
|
||||||
|
@ -22,8 +40,6 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val ifu_bp_valid_f = Input(UInt(2.W)) // Valid Branch prediction
|
val ifu_bp_valid_f = Input(UInt(2.W)) // Valid Branch prediction
|
||||||
val ifu_bp_ret_f = Input(UInt(2.W)) // BP ret
|
val ifu_bp_ret_f = Input(UInt(2.W)) // BP ret
|
||||||
val exu_flush_final = Input(Bool()) // Miss prediction
|
val exu_flush_final = Input(Bool()) // Miss prediction
|
||||||
val dec_i0_decode_d = Input(Bool())
|
|
||||||
val dec_aln = new dec_aln() // Data going to the dec from the ALN
|
|
||||||
val ifu_fetch_data_f = Input(UInt(32.W)) // PC of the current instruction in the FP
|
val ifu_fetch_data_f = Input(UInt(32.W)) // PC of the current instruction in the FP
|
||||||
val ifu_fetch_val = Input(UInt(2.W)) // PC boundary i.e 'x' of 2 or 4
|
val ifu_fetch_val = Input(UInt(2.W)) // PC boundary i.e 'x' of 2 or 4
|
||||||
val ifu_fetch_pc = Input(UInt(31.W)) // Current PC
|
val ifu_fetch_pc = Input(UInt(31.W)) // Current PC
|
||||||
|
@ -32,10 +48,11 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val ifu_fb_consume2 = Output(Bool()) // FP used 2
|
val ifu_fb_consume2 = Output(Bool()) // FP used 2
|
||||||
|
|
||||||
})
|
})
|
||||||
val MHI = 46+BHT_GHR_SIZE // 54
|
val MHI = 1 + (BTB_ENABLE * (43+BHT_GHR_SIZE))
|
||||||
val MSIZE = 47+BHT_GHR_SIZE // 55
|
val MSIZE = 2 + (BTB_ENABLE * (43+BHT_GHR_SIZE))
|
||||||
val BRDATA_SIZE = 12
|
val BRDATA_SIZE = if(BTB_ENABLE) 16+log2Ceil(BTB_SIZE) * 2 * BTB_FULLYA else 2
|
||||||
val error_stall_in = WireInit(Bool(),0.U)
|
val BRDATA_WIDTH = if(BTB_ENABLE) 8+log2Ceil(BTB_SIZE)*BTB_FULLYA else 1
|
||||||
|
|
||||||
val alignval = WireInit(UInt(2.W), 0.U)
|
val alignval = WireInit(UInt(2.W), 0.U)
|
||||||
val q0final = WireInit(UInt(32.W), 0.U)
|
val q0final = WireInit(UInt(32.W), 0.U)
|
||||||
val q1final = WireInit(UInt(16.W), 0.U)
|
val q1final = WireInit(UInt(16.W), 0.U)
|
||||||
|
@ -59,8 +76,8 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val shift_f2_f0 = WireInit(Bool(), init = 0.U)
|
val shift_f2_f0 = WireInit(Bool(), init = 0.U)
|
||||||
val shift_f1_f0 = WireInit(Bool(), init = 0.U)
|
val shift_f1_f0 = WireInit(Bool(), init = 0.U)
|
||||||
|
|
||||||
val f0icaf = WireInit(Bool(), init = 0.U)
|
val f0icaf = WireInit(UInt(2.W), init = 0.U)
|
||||||
val f1icaf = WireInit(Bool(), init = 0.U)
|
val f1icaf = WireInit(UInt(2.W), init = 0.U)
|
||||||
|
|
||||||
val sf0val = WireInit(UInt(2.W), 0.U)
|
val sf0val = WireInit(UInt(2.W), 0.U)
|
||||||
val sf1val = WireInit(UInt(2.W), 0.U)
|
val sf1val = WireInit(UInt(2.W), 0.U)
|
||||||
|
@ -69,9 +86,9 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val misc1 = WireInit(UInt((MHI+1).W), 0.U)
|
val misc1 = WireInit(UInt((MHI+1).W), 0.U)
|
||||||
val misc2 = WireInit(UInt((MHI+1).W), 0.U)
|
val misc2 = WireInit(UInt((MHI+1).W), 0.U)
|
||||||
|
|
||||||
val brdata1 = WireInit(UInt(12.W), init = 0.U)
|
val brdata1 = WireInit(UInt(BRDATA_SIZE.W), init = 0.U)
|
||||||
val brdata0 = WireInit(UInt(12.W), init = 0.U)
|
val brdata0 = WireInit(UInt(BRDATA_SIZE.W), init = 0.U)
|
||||||
val brdata2 = WireInit(UInt(12.W), init = 0.U)
|
val brdata2 = WireInit(UInt(BRDATA_SIZE.W), init = 0.U)
|
||||||
|
|
||||||
val q0 = WireInit(UInt(32.W), init = 0.U)
|
val q0 = WireInit(UInt(32.W), init = 0.U)
|
||||||
val q1 = WireInit(UInt(32.W), init = 0.U)
|
val q1 = WireInit(UInt(32.W), init = 0.U)
|
||||||
|
@ -95,29 +112,24 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val first4B = WireInit(Bool(), 0.U)
|
val first4B = WireInit(Bool(), 0.U)
|
||||||
val shift_2B = WireInit(Bool(), 0.U)
|
val shift_2B = WireInit(Bool(), 0.U)
|
||||||
val f0_shift_2B = WireInit(Bool(), 0.U)
|
val f0_shift_2B = WireInit(Bool(), 0.U)
|
||||||
|
implicit val clk = clock
|
||||||
|
implicit val rst = reset.asAsyncReset()
|
||||||
|
implicit val scan_mode = io.scan_mode
|
||||||
// Stall if there is an error in the instrucion
|
// Stall if there is an error in the instrucion
|
||||||
error_stall_in := (error_stall | io.ifu_async_error_start) & !io.exu_flush_final
|
val error_stall_in = (error_stall | io.ifu_async_error_start) & !io.exu_flush_final
|
||||||
|
|
||||||
// Flop the stall until flush
|
|
||||||
error_stall := withClock(io.active_clk) {RegNext(error_stall_in, init = 0.U)}
|
|
||||||
// Write Ptr of the FP
|
|
||||||
val wrptr = withClock(io.active_clk) {RegNext(wrptr_in, init = 0.U)}
|
val wrptr = withClock(io.active_clk) {RegNext(wrptr_in, init = 0.U)}
|
||||||
// Read Ptr of the FP
|
|
||||||
val rdptr = withClock(io.active_clk) {RegNext(rdptr_in, init = 0.U)}
|
val rdptr = withClock(io.active_clk) {RegNext(rdptr_in, init = 0.U)}
|
||||||
// Fetch Instruction boundary
|
|
||||||
val f2val = withClock(io.active_clk) {RegNext(f2val_in, init = 0.U)}
|
|
||||||
val f1val = withClock(io.active_clk) {RegNext(f1val_in, init = 0.U)}
|
|
||||||
val f0val = withClock(io.active_clk) {RegNext(f0val_in, init = 0.U)}
|
|
||||||
|
|
||||||
val q2off = withClock(io.active_clk) {RegNext(q2off_in, init = 0.U)}
|
val q2off = withClock(io.active_clk) {RegNext(q2off_in, init = 0.U)}
|
||||||
val q1off = withClock(io.active_clk) {RegNext(q1off_in, init = 0.U)}
|
val q1off = withClock(io.active_clk) {RegNext(q1off_in, init = 0.U)}
|
||||||
val q0off = withClock(io.active_clk) {RegNext(q0off_in, init = 0.U)}
|
val q0off = withClock(io.active_clk) {RegNext(q0off_in, init = 0.U)}
|
||||||
// Instrution PC to the FP
|
|
||||||
val f2pc = rvdffe(io.ifu_fetch_pc, f2_wr_en.asBool, clock, io.scan_mode)
|
// Flop the stall until flush
|
||||||
val f1pc = rvdffe(f1pc_in, f1_shift_wr_en.asBool, clock, io.scan_mode)
|
error_stall := rvdffie(error_stall_in,clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
val f0pc = rvdffe(f0pc_in, f0_shift_wr_en.asBool, clock, io.scan_mode)
|
val f2val = rvdffie(f2val_in,clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
val f1val = rvdffie(f1val_in,clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
val f0val = rvdffie(f0val_in,clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
// Branch data to the FP
|
// Branch data to the FP
|
||||||
|
if(BTB_ENABLE){
|
||||||
brdata2 := rvdffe(brdata_in, qwen(2),clock,io.scan_mode)
|
brdata2 := rvdffe(brdata_in, qwen(2),clock,io.scan_mode)
|
||||||
brdata1 := rvdffe(brdata_in, qwen(1),clock,io.scan_mode)
|
brdata1 := rvdffe(brdata_in, qwen(1),clock,io.scan_mode)
|
||||||
brdata0 := rvdffe(brdata_in, qwen(0),clock,io.scan_mode)
|
brdata0 := rvdffe(brdata_in, qwen(0),clock,io.scan_mode)
|
||||||
|
@ -125,22 +137,30 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
misc2 := rvdffe(misc_data_in, qwen(2),clock,io.scan_mode)
|
misc2 := rvdffe(misc_data_in, qwen(2),clock,io.scan_mode)
|
||||||
misc1 := rvdffe(misc_data_in, qwen(1),clock,io.scan_mode)
|
misc1 := rvdffe(misc_data_in, qwen(1),clock,io.scan_mode)
|
||||||
misc0 := rvdffe(misc_data_in, qwen(0),clock,io.scan_mode)
|
misc0 := rvdffe(misc_data_in, qwen(0),clock,io.scan_mode)
|
||||||
|
}
|
||||||
|
else{
|
||||||
|
brdata2 := rvdffie(Mux(qwen(2),brdata_in, brdata2),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
brdata1 := rvdffie(Mux(qwen(1),brdata_in, brdata1),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
brdata0 := rvdffie(Mux(qwen(0),brdata_in, brdata0),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
// Miscalanious data to the FP including error's
|
||||||
|
misc2 := rvdffie(Mux(qwen(2),misc_data_in, misc2),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
misc1 := rvdffie(Mux(qwen(1),misc_data_in, misc1),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
misc0 := rvdffie(Mux(qwen(0),misc_data_in, misc0),clock,reset.asAsyncReset(),io.scan_mode)
|
||||||
|
}
|
||||||
|
|
||||||
// Instruction in the FP
|
// Instruction in the FP
|
||||||
q2 := rvdffe(io.ifu_fetch_data_f, qwen(2),clock,io.scan_mode)
|
q2 := rvdffe(io.ifu_fetch_data_f, qwen(2),clock,io.scan_mode)
|
||||||
q1 := rvdffe(io.ifu_fetch_data_f, qwen(1),clock,io.scan_mode)
|
q1 := rvdffe(io.ifu_fetch_data_f, qwen(1),clock,io.scan_mode)
|
||||||
q0 := rvdffe(io.ifu_fetch_data_f, qwen(0),clock,io.scan_mode)
|
q0 := rvdffe(io.ifu_fetch_data_f, qwen(0),clock,io.scan_mode)
|
||||||
|
|
||||||
// Shift FP logic
|
val q2pc = rvdffe(io.ifu_fetch_pc, qwen(2),clock,io.scan_mode)
|
||||||
f2_wr_en := fetch_to_f2
|
val q1pc = rvdffe(io.ifu_fetch_pc, qwen(1),clock,io.scan_mode)
|
||||||
f1_shift_wr_en := fetch_to_f1 | shift_f2_f1 | f1_shift_2B
|
val q0pc = rvdffe(io.ifu_fetch_pc, qwen(0),clock,io.scan_mode)
|
||||||
f0_shift_wr_en := fetch_to_f0 | shift_f2_f0 | shift_f1_f0 | shift_2B | shift_4B
|
|
||||||
// FP read enable .. 3-bit for Implemenation of 1HMux
|
val qren = Cat(rdptr === 2.U, rdptr === 1.U, rdptr === 0.U)
|
||||||
val qren = Cat(rdptr === 2.U, rdptr === 1.U, rdptr === 0.U)
|
|
||||||
// FP write enable .. 3-bit for Implemenation of 1HMux
|
qwen := Cat((wrptr === 2.U) & ifvalid, (wrptr === 1.U) & ifvalid, (wrptr === 0.U) & ifvalid)
|
||||||
qwen := Cat(wrptr === 2.U & ifvalid, wrptr === 1.U & ifvalid, wrptr === 0.U & ifvalid)
|
|
||||||
|
|
||||||
// Read Pointer calculation
|
|
||||||
// Next rdptr = # of consume + current ptr location (Rounding it from 2)
|
|
||||||
rdptr_in := Mux1H(Seq((qren(0) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 1.U,
|
rdptr_in := Mux1H(Seq((qren(0) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 1.U,
|
||||||
(qren(1) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 2.U,
|
(qren(1) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 2.U,
|
||||||
(qren(2) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 0.U,
|
(qren(2) & io.ifu_fb_consume1 & !io.exu_flush_final).asBool -> 0.U,
|
||||||
|
@ -149,7 +169,7 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
(qren(2) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 1.U,
|
(qren(2) & io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> 1.U,
|
||||||
(!io.ifu_fb_consume1 & !io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> rdptr))
|
(!io.ifu_fb_consume1 & !io.ifu_fb_consume2 & !io.exu_flush_final).asBool -> rdptr))
|
||||||
|
|
||||||
// As there is only 1 enqueue so each time move by 1
|
|
||||||
wrptr_in := Mux1H(Seq((qwen(0) & !io.exu_flush_final).asBool -> 1.U,
|
wrptr_in := Mux1H(Seq((qwen(0) & !io.exu_flush_final).asBool -> 1.U,
|
||||||
(qwen(1) & !io.exu_flush_final).asBool -> 2.U,
|
(qwen(1) & !io.exu_flush_final).asBool -> 2.U,
|
||||||
(qwen(2) & !io.exu_flush_final).asBool -> 0.U,
|
(qwen(2) & !io.exu_flush_final).asBool -> 0.U,
|
||||||
|
@ -167,6 +187,8 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
(!qwen(0) & (rdptr===2.U)).asBool -> (q0off.asUInt | f1_shift_2B),
|
(!qwen(0) & (rdptr===2.U)).asBool -> (q0off.asUInt | f1_shift_2B),
|
||||||
(!qwen(0) & (rdptr===1.U)).asBool -> q0off))
|
(!qwen(0) & (rdptr===1.U)).asBool -> q0off))
|
||||||
|
|
||||||
|
// Shift FP logic
|
||||||
|
|
||||||
val q0ptr = Mux1H(Seq((rdptr===0.U) -> q0off,
|
val q0ptr = Mux1H(Seq((rdptr===0.U) -> q0off,
|
||||||
(rdptr===1.U) -> q1off,
|
(rdptr===1.U) -> q1off,
|
||||||
(rdptr===2.U) -> q2off))
|
(rdptr===2.U) -> q2off))
|
||||||
|
@ -177,8 +199,13 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
|
|
||||||
val q1sel = Cat(q1ptr, !q1ptr)
|
val q1sel = Cat(q1ptr, !q1ptr)
|
||||||
// Misc data error, access-fault, type of fault, target, offset and ghr value
|
// Misc data error, access-fault, type of fault, target, offset and ghr value
|
||||||
misc_data_in := Cat(io.iccm_rd_ecc_double_err, io.ic_access_fault_f, io.ic_access_fault_type_f,
|
|
||||||
io.ifu_bp_btb_target_f, io.ifu_bp_poffset_f, io.ifu_bp_fghr_f)
|
if(BTB_ENABLE){
|
||||||
|
misc_data_in := Cat(io.ic_access_fault_type_f, io.ifu_bp_btb_target_f, io.ifu_bp_poffset_f, io.ifu_bp_fghr_f)
|
||||||
|
|
||||||
|
}else{
|
||||||
|
misc_data_in := io.ic_access_fault_type_f
|
||||||
|
}
|
||||||
|
|
||||||
val misceff = Mux1H(Seq(qren(0).asBool() -> Cat(misc1, misc0),
|
val misceff = Mux1H(Seq(qren(0).asBool() -> Cat(misc1, misc0),
|
||||||
qren(1).asBool() -> Cat(misc2, misc1),
|
qren(1).asBool() -> Cat(misc2, misc1),
|
||||||
|
@ -187,48 +214,111 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val misc1eff = misceff(misceff.getWidth-1,MHI+1)
|
val misc1eff = misceff(misceff.getWidth-1,MHI+1)
|
||||||
val misc0eff = misceff(MHI, 0)
|
val misc0eff = misceff(MHI, 0)
|
||||||
|
|
||||||
|
///////////////////////////////////////////////////////////////////////
|
||||||
|
val f1ictype = if(BTB_ENABLE) misc1eff(misc1eff.getWidth-1, misc1eff.getWidth-2) else misc1eff
|
||||||
|
val f1prett = if(BTB_ENABLE) misc1eff(misc1eff.getWidth-3, misc1eff.getWidth-33) else 0.U
|
||||||
|
val f1poffset = if(BTB_ENABLE) misc1eff(misc1eff.getWidth-34, misc1eff.getWidth-45) else 0.U
|
||||||
|
val f1fghr = if(BTB_ENABLE) misc1eff(BHT_GHR_SIZE-1, 0) else 0.U
|
||||||
|
|
||||||
val f1dbecc = misc1eff(misc1eff.getWidth-1)
|
val f0ictype = if(BTB_ENABLE) misc0eff(misc0eff.getWidth-1, misc0eff.getWidth-2) else misc0eff
|
||||||
f1icaf := misc1eff(misc1eff.getWidth-2)
|
val f0prett = if(BTB_ENABLE) misc0eff(misc0eff.getWidth-3, misc0eff.getWidth-33) else 0.U
|
||||||
val f1ictype = misc1eff(misc1eff.getWidth-3,misc1eff.getWidth-4)
|
val f0poffset = if(BTB_ENABLE) misc0eff(misc0eff.getWidth-34, misc0eff.getWidth-45) else 0.U
|
||||||
val f1prett = misc1eff(misc1eff.getWidth-5,misc1eff.getWidth-35)
|
val f0fghr = if(BTB_ENABLE) misc0eff(BHT_GHR_SIZE-1, 0) else 0.U
|
||||||
val f1poffset = misc1eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE)
|
|
||||||
val f1fghr = misc1eff(BHT_GHR_SIZE-1, 0)
|
|
||||||
|
|
||||||
val f0dbecc = misc0eff(misc1eff.getWidth-1)
|
val f0ret = WireInit(UInt(2.W), 0.U)
|
||||||
f0icaf := misc0eff(misc1eff.getWidth-2)
|
val f0brend = WireInit(UInt(2.W), 0.U)
|
||||||
val f0ictype = misc0eff(misc1eff.getWidth-3,misc1eff.getWidth-4)
|
val f0way = WireInit(UInt(2.W), 0.U)
|
||||||
val f0prett = misc0eff(misc1eff.getWidth-5,misc1eff.getWidth-35)
|
val f0pc4 = WireInit(UInt(2.W), 0.U)
|
||||||
val f0poffset = misc0eff(BHT_GHR_SIZE+11, BHT_GHR_SIZE)
|
val f0hist0 = WireInit(UInt(2.W), 0.U)
|
||||||
val f0fghr = misc0eff(BHT_GHR_SIZE-1, 0)
|
val f0hist1 = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1ret = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1brend = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1way = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1pc4 = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1hist0 = WireInit(UInt(2.W), 0.U)
|
||||||
|
val f1hist1 = WireInit(UInt(2.W), 0.U)
|
||||||
|
|
||||||
// Branch information
|
|
||||||
brdata_in := Cat(io.ifu_bp_hist1_f(1),io.ifu_bp_hist0_f(1),io.ifu_bp_pc4_f(1),io.ifu_bp_way_f(1),io.ifu_bp_valid_f(1),
|
val f0dbecc = WireInit(UInt(2.W), 0.U)
|
||||||
io.ifu_bp_ret_f(1), io.ifu_bp_hist1_f(0),io.ifu_bp_hist0_f(0),io.ifu_bp_pc4_f(0),io.ifu_bp_way_f(0),
|
val f1dbecc = WireInit(UInt(2.W), 0.U)
|
||||||
io.ifu_bp_valid_f(0),io.ifu_bp_ret_f(0))
|
val f0index = Wire(Vec(2,UInt(log2Ceil(BTB_SIZE).W)))
|
||||||
// Effective branch information
|
val f1index = Wire(Vec(2,UInt(log2Ceil(BTB_SIZE).W)))
|
||||||
val brdataeff = Mux1H(Seq(qren(0).asBool->Cat(brdata1,brdata0),
|
f0index := (0 until 2).map(i => 0.U)
|
||||||
|
f1index := (0 until 2).map(i => 0.U)
|
||||||
|
val brdataeff = WireInit(UInt(((2*BRDATA_SIZE)).W),0.U)
|
||||||
|
brdataeff := Mux1H(Seq(qren(0).asBool -> Cat(brdata1,brdata0),
|
||||||
qren(1).asBool -> Cat(brdata2,brdata1),
|
qren(1).asBool -> Cat(brdata2,brdata1),
|
||||||
qren(2).asBool -> Cat(brdata0,brdata2)))
|
qren(2).asBool -> Cat(brdata0,brdata2)))
|
||||||
|
val brdata1eff = WireInit(UInt(BRDATA_SIZE.W),0.U)
|
||||||
|
val brdata0eff = WireInit(UInt(BRDATA_SIZE.W),0.U)
|
||||||
|
brdata1eff := brdataeff(brdataeff.getWidth - 1,brdataeff.getWidth/2)
|
||||||
|
brdata0eff := brdataeff(brdataeff.getWidth/2 - 1,0)
|
||||||
|
val brdata0final = Mux1H(Seq(q0sel(0).asBool -> brdata0eff(2*BRDATA_WIDTH-1,0),
|
||||||
|
q0sel(1).asBool -> brdata0eff(BRDATA_SIZE-1,BRDATA_WIDTH)))
|
||||||
|
val brdata1final = Mux1H(Seq(q1sel(0).asBool -> brdata1eff(2*BRDATA_WIDTH-1,0),
|
||||||
|
q1sel(1).asBool -> brdata1eff(BRDATA_SIZE-1,BRDATA_WIDTH)))
|
||||||
|
if(BTB_ENABLE){
|
||||||
|
if(BTB_FULLYA){
|
||||||
|
brdata_in := Cat(io.ifu_bp_fa_index_f(1), io.iccm_rd_ecc_double_err(1), io.ic_access_fault_f(1), io.ifu_bp_hist1_f(1), io.ifu_bp_hist0_f(1), io.ifu_bp_pc4_f(1), io.ifu_bp_way_f(1), io.ifu_bp_valid_f(1), io.ifu_bp_ret_f(1),
|
||||||
|
io.ifu_bp_fa_index_f(0), io.iccm_rd_ecc_double_err(0), io.ic_access_fault_f(0), io.ifu_bp_hist1_f(0), io.ifu_bp_hist0_f(0), io.ifu_bp_pc4_f(0), io.ifu_bp_way_f(0), io.ifu_bp_valid_f(0), io.ifu_bp_ret_f(0))
|
||||||
|
|
||||||
val (brdata0eff,brdata1eff) = (brdataeff(11,0) , brdataeff(23,12))
|
f0ret := Cat(brdata0final(17) , brdata0final(0))
|
||||||
|
f0brend := Cat(brdata0final(18), brdata0final(1))
|
||||||
|
f0way := Cat(brdata0final(19), brdata0final(2))
|
||||||
|
f0pc4 := Cat(brdata0final(20), brdata0final(3))
|
||||||
|
f0hist0 := Cat(brdata0final(21), brdata0final(4))
|
||||||
|
f0hist1 := Cat(brdata0final(22), brdata0final(5))
|
||||||
|
f0icaf := Cat(brdata0final(23), brdata0final(6))
|
||||||
|
f0dbecc := Cat(brdata0final(24), brdata0final(7))
|
||||||
|
f0index(1) := Cat(brdata0final(33), brdata0final(32), brdata0final(31), brdata0final(30), brdata0final(29), brdata0final(28), brdata0final(27), brdata0final(26), brdata0final(25))
|
||||||
|
f0index(0) := Cat(brdata0final(16), brdata0final(15), brdata0final(14), brdata0final(13), brdata0final(12), brdata0final(11), brdata0final(10), brdata0final(9), brdata0final(8))
|
||||||
|
|
||||||
val brdata0final = Mux1H(Seq(q0sel(0).asBool -> brdata0eff, q0sel(1).asBool -> brdata0eff(11,6)))
|
f1ret := Cat(brdata1final(17) , brdata1final(0))
|
||||||
val brdata1final = Mux1H(Seq(q1sel(0).asBool -> brdata1eff, q1sel(1).asBool -> brdata1eff(11,6)))
|
f1brend := Cat(brdata1final(18), brdata1final(1))
|
||||||
|
f1way := Cat(brdata1final(19), brdata1final(2))
|
||||||
|
f1pc4 := Cat(brdata1final(20), brdata1final(3))
|
||||||
|
f1hist0 := Cat(brdata1final(21), brdata1final(4))
|
||||||
|
f1hist1 := Cat(brdata1final(22), brdata1final(5))
|
||||||
|
f1icaf := Cat(brdata1final(23), brdata1final(6))
|
||||||
|
f1dbecc := Cat(brdata1final(24), brdata1final(7))
|
||||||
|
f1index(1) := Cat(brdata1final(33), brdata1final(32), brdata1final(31), brdata1final(30), brdata1final(29), brdata1final(28), brdata1final(27), brdata1final(26), brdata1final(25))
|
||||||
|
f1index(0) := Cat(brdata1final(16), brdata1final(15), brdata1final(14), brdata1final(13), brdata1final(12), brdata1final(11), brdata1final(10), brdata1final(9), brdata1final(8))
|
||||||
|
|
||||||
val f0ret = Cat(brdata0final(6),brdata0final(0))
|
}else{
|
||||||
val f0brend = Cat(brdata0final(7),brdata0final(1))
|
brdata_in := Cat(io.iccm_rd_ecc_double_err(1), io.ic_access_fault_f(1), io.ifu_bp_hist1_f(1), io.ifu_bp_hist0_f(1), io.ifu_bp_pc4_f(1), io.ifu_bp_way_f(1), io.ifu_bp_valid_f(1), io.ifu_bp_ret_f(1),
|
||||||
val f0way = Cat(brdata0final(8),brdata0final(2))
|
io.iccm_rd_ecc_double_err(0), io.ic_access_fault_f(0), io.ifu_bp_hist1_f(0), io.ifu_bp_hist0_f(0), io.ifu_bp_pc4_f(0), io.ifu_bp_way_f(0), io.ifu_bp_valid_f(0), io.ifu_bp_ret_f(0))
|
||||||
val f0pc4 = Cat(brdata0final(9),brdata0final(3))
|
f0ret := Cat(brdata0final(8) , brdata0final(0))
|
||||||
val f0hist0 = Cat(brdata0final(10),brdata0final(4))
|
f0brend := Cat(brdata0final(9) , brdata0final(1))
|
||||||
val f0hist1 = Cat(brdata0final(11),brdata0final(5))
|
f0way := Cat(brdata0final(10), brdata0final(2))
|
||||||
|
f0pc4 := Cat(brdata0final(11), brdata0final(3))
|
||||||
|
f0hist0 := Cat(brdata0final(12), brdata0final(4))
|
||||||
|
f0hist1 := Cat(brdata0final(13), brdata0final(5))
|
||||||
|
f0icaf := Cat(brdata0final(14), brdata0final(6))
|
||||||
|
f0dbecc := Cat(brdata0final(15), brdata0final(7))
|
||||||
|
|
||||||
val f1ret = Cat(brdata1final(6),brdata1final(0))
|
f1ret := Cat(brdata1final(8) , brdata1final(0))
|
||||||
val f1brend = Cat(brdata1final(7),brdata1final(1))
|
f1brend := Cat(brdata1final(9) , brdata1final(1))
|
||||||
val f1way = Cat(brdata1final(8),brdata1final(2))
|
f1way := Cat(brdata1final(10), brdata1final(2))
|
||||||
val f1pc4 = Cat(brdata1final(9),brdata1final(3))
|
f1pc4 := Cat(brdata1final(11), brdata1final(3))
|
||||||
val f1hist0 = Cat(brdata1final(10),brdata1final(4))
|
f1hist0 := Cat(brdata1final(12), brdata1final(4))
|
||||||
val f1hist1 = Cat(brdata1final(11),brdata1final(5))
|
f1hist1 := Cat(brdata1final(13), brdata1final(5))
|
||||||
|
f1icaf := Cat(brdata1final(14), brdata1final(6))
|
||||||
|
f1dbecc := Cat(brdata1final(15), brdata1final(7))
|
||||||
|
|
||||||
|
}
|
||||||
|
}else{
|
||||||
|
brdata_in := Cat(io.iccm_rd_ecc_double_err(1),io.ic_access_fault_f(1),
|
||||||
|
io.iccm_rd_ecc_double_err(0),io.ic_access_fault_f(0))
|
||||||
|
|
||||||
|
|
||||||
|
f0dbecc := Cat(brdata0final(3),brdata0final(1))
|
||||||
|
f0icaf := Cat(brdata0final(2),brdata0final(0))
|
||||||
|
|
||||||
|
f1dbecc := Cat(brdata1final(3),brdata1final(1))
|
||||||
|
f1icaf := Cat(brdata1final(2),brdata1final(0))
|
||||||
|
|
||||||
|
|
||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
f2_valid := f2val(0)
|
f2_valid := f2val(0)
|
||||||
|
@ -257,21 +347,6 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
fetch_to_f2 := (!sf0_valid & sf1_valid & f2_valid & ifvalid) |
|
fetch_to_f2 := (!sf0_valid & sf1_valid & f2_valid & ifvalid) |
|
||||||
( sf0_valid & sf1_valid & !f2_valid & ifvalid)
|
( sf0_valid & sf1_valid & !f2_valid & ifvalid)
|
||||||
|
|
||||||
val f0pc_plus1 = f0pc + 1.U
|
|
||||||
|
|
||||||
val f1pc_plus1 = f1pc + 1.U
|
|
||||||
|
|
||||||
val sf1pc = (Fill(31, f1_shift_2B) & f1pc_plus1) | (Fill(31, !f1_shift_2B) & f1pc)
|
|
||||||
|
|
||||||
f1pc_in := Mux1H(Seq(fetch_to_f1.asBool->io.ifu_fetch_pc,
|
|
||||||
shift_f2_f1.asBool->f2pc,
|
|
||||||
(!fetch_to_f1 & !shift_f2_f1).asBool -> sf1pc))
|
|
||||||
|
|
||||||
f0pc_in := Mux1H(Seq(fetch_to_f0.asBool->io.ifu_fetch_pc,
|
|
||||||
shift_f2_f0.asBool->f2pc,
|
|
||||||
shift_f1_f0.asBool->sf1pc,
|
|
||||||
(!fetch_to_f0 & !shift_f2_f0 & !shift_f1_f0).asBool->f0pc_plus1))
|
|
||||||
|
|
||||||
f2val_in := Mux1H(Seq((fetch_to_f2 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
|
f2val_in := Mux1H(Seq((fetch_to_f2 & !io.exu_flush_final).asBool->io.ifu_fetch_val,
|
||||||
(!fetch_to_f2 & !shift_f2_f1 & !shift_f2_f0 & !io.exu_flush_final).asBool->f2val))
|
(!fetch_to_f2 & !shift_f2_f1 & !shift_f2_f0 & !io.exu_flush_final).asBool->f2val))
|
||||||
|
|
||||||
|
@ -294,38 +369,54 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
qren(2).asBool -> Cat(q0,q2)))
|
qren(2).asBool -> Cat(q0,q2)))
|
||||||
val (q1eff, q0eff) = (qeff(63,32), qeff(31,0))
|
val (q1eff, q0eff) = (qeff(63,32), qeff(31,0))
|
||||||
|
|
||||||
q0final := Mux1H(Seq(q0sel(0).asBool->q0eff, q0sel(1).asBool->q0eff(31,16)))
|
q0final := Mux1H(Seq(q0sel(0).asBool->q0eff,
|
||||||
|
q0sel(1).asBool->q0eff(31,16)))
|
||||||
|
|
||||||
q1final := Mux1H(Seq(q1sel(0).asBool->q1eff(15,0), q1sel(1).asBool->q1eff(31,16)))
|
q1final := Mux1H(Seq(q1sel(0).asBool->q1eff(15,0), q1sel(1).asBool->q1eff(31,16)))
|
||||||
|
|
||||||
|
val qpceff = Mux1H(Seq(qren(0).asBool -> Cat(q1pc, q0pc),
|
||||||
|
qren(1).asBool -> Cat(q2pc, q1pc),
|
||||||
|
qren(2).asBool -> Cat(q0pc, q2pc)))
|
||||||
|
val q1pceff = qpceff(61, 31)
|
||||||
|
val q0pceff = qpceff(30, 0)
|
||||||
|
val q0pcfinal = Mux1H(Seq(q0sel(0) -> q0pceff, q0sel(1) -> (q0pceff+1.U)))
|
||||||
// Alinging the data according to the boundary of PC
|
// Alinging the data according to the boundary of PC
|
||||||
val aligndata = Mux1H(Seq(f0val(1).asBool -> q0final, (~f0val(1) & f0val(0)).asBool -> Cat(q1final(15,0),q0final(15,0))))
|
val aligndata = Mux1H(Seq(f0val(1).asBool -> q0final, (!f0val(1) & f0val(0)).asBool -> Cat(q1final(15,0),q0final(15,0))))
|
||||||
|
|
||||||
alignval := Mux1H(Seq(f0val(1).asBool->3.U, (!f0val(1) & f0val(0)) -> Cat(f1val(0),1.U)))
|
alignval := Mux1H(Seq(f0val(1).asBool->3.U, (!f0val(1) & f0val(0)) -> Cat(f1val(0),1.U)))
|
||||||
|
|
||||||
val alignicaf = Mux1H(Seq(f0val(1).asBool -> f0icaf, (~f0val(1) & f0val(0)).asBool -> Cat(f1icaf,f0icaf)))
|
val alignicaf = Mux1H(Seq(f0val(1).asBool -> f0icaf, (~f0val(1) & f0val(0)).asBool -> Cat(f1icaf(0),f0icaf(0))))
|
||||||
|
|
||||||
val aligndbecc = Mux1H(Seq(f0val(1).asBool -> Fill(2,f0dbecc), (!f0val(1) & f0val(0)).asBool -> Cat(f1dbecc,f0dbecc)))
|
val aligndbecc = Mux1H(Seq(f0val(1).asBool -> f0dbecc, (!f0val(1) & f0val(0)).asBool -> Cat(f1dbecc(0),f0dbecc(0))))
|
||||||
|
|
||||||
val alignbrend = Mux1H(Seq(f0val(1).asBool()->f0brend, (!f0val(1) & f0val(0)).asBool->Cat(f1brend(0),f0brend(0))))
|
/////////////////////////////////////////////////////////
|
||||||
|
val alignbrend = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0brend, (!f0val(1) & f0val(0)).asBool->Cat(f1brend(0),f0brend(0)))) else 0.U
|
||||||
|
|
||||||
val alignpc4 = Mux1H(Seq(f0val(1).asBool()->f0pc4, (!f0val(1) & f0val(0)).asBool->Cat(f1pc4(0),f0pc4(0))))
|
val alignpc4 = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0pc4, (!f0val(1) & f0val(0)).asBool->Cat(f1pc4(0),f0pc4(0)))) else 0.U
|
||||||
|
|
||||||
val alignret = Mux1H(Seq(f0val(1).asBool()->f0ret, (!f0val(1) & f0val(0)).asBool->Cat(f1ret(0),f0ret(0))))
|
val alignret = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0ret, (!f0val(1) & f0val(0)).asBool->Cat(f1ret(0),f0ret(0)))) else 0.U
|
||||||
|
|
||||||
val alignway = Mux1H(Seq(f0val(1).asBool()->f0way, (!f0val(1) & f0val(0)).asBool->Cat(f1way(0),f0way(0))))
|
val alignway = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0way, (!f0val(1) & f0val(0)).asBool->Cat(f1way(0),f0way(0)))) else 0.U
|
||||||
|
|
||||||
val alignhist1 = Mux1H(Seq(f0val(1).asBool()->f0hist1, (!f0val(1) & f0val(0)).asBool->Cat(f1hist1(0),f0hist1(0))))
|
val alignhist1 = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0hist1, (!f0val(1) & f0val(0)).asBool->Cat(f1hist1(0),f0hist1(0)))) else 0.U
|
||||||
|
|
||||||
val alignhist0 = Mux1H(Seq(f0val(1).asBool()->f0hist0, (!f0val(1) & f0val(0)).asBool->Cat(f1hist0(0),f0hist0(0))))
|
val alignhist0 = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool()->f0hist0, (!f0val(1) & f0val(0)).asBool->Cat(f1hist0(0),f0hist0(0)))) else 0.U
|
||||||
|
|
||||||
|
val secondpc = if(BTB_ENABLE) Mux1H(Seq(f0val(1).asBool() -> (q0pceff + 1.U), (!f0val(1) & f0val(0)).asBool -> q1pceff)) else 0.U
|
||||||
|
|
||||||
|
val firstpc = if(BTB_ENABLE) q0pcfinal else 0.U
|
||||||
|
|
||||||
|
val alignindex = Wire(Vec(2,UInt(log2Ceil(BTB_SIZE).W)))
|
||||||
|
alignindex := (0 until 2).map(i => 0.U)
|
||||||
|
if(BTB_ENABLE){if(BTB_FULLYA) {
|
||||||
|
alignindex(0):= f0index(0)
|
||||||
|
alignindex(1):= Mux(f0val(1).asBool, f0index(1), f1index(0))
|
||||||
|
} }
|
||||||
|
/////////////////////////////////////////////////////////
|
||||||
|
|
||||||
val alignfromf1 = !f0val(1) & f0val(0)
|
val alignfromf1 = !f0val(1) & f0val(0)
|
||||||
|
|
||||||
val secondpc = Mux1H(Seq(f0val(1).asBool()->f0pc_plus1 , (!f0val(1) & f0val(0)).asBool->f1pc))
|
io.dec_aln.aln_ib.ifu_i0_pc := q0pcfinal
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_pc := f0pc
|
|
||||||
|
|
||||||
val firstpc = f0pc
|
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_pc4 := first4B
|
io.dec_aln.aln_ib.ifu_i0_pc4 := first4B
|
||||||
|
|
||||||
|
@ -334,7 +425,7 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
// Instruction is compressed or not
|
// Instruction is compressed or not
|
||||||
first4B := aligndata(1,0) === 3.U
|
first4B := aligndata(1,0) === 3.U
|
||||||
|
|
||||||
val first2B = ~first4B
|
val first2B = !first4B
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_valid := Mux1H(Seq(first4B.asBool -> alignval(1), first2B.asBool -> alignval(0)))
|
io.dec_aln.aln_ib.ifu_i0_valid := Mux1H(Seq(first4B.asBool -> alignval(1), first2B.asBool -> alignval(0)))
|
||||||
|
|
||||||
|
@ -342,9 +433,9 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_icaf_type := Mux((first4B & !f0val(1) & f0val(0) & !alignicaf(0) & !aligndbecc(0)).asBool, f1ictype, f0ictype)
|
io.dec_aln.aln_ib.ifu_i0_icaf_type := Mux((first4B & !f0val(1) & f0val(0) & !alignicaf(0) & !aligndbecc(0)).asBool, f1ictype, f0ictype)
|
||||||
|
|
||||||
val icaf_eff = alignicaf(1) | aligndbecc(1)
|
val icaf_eff = alignicaf | aligndbecc
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_icaf_second := first4B & icaf_eff & alignfromf1
|
io.dec_aln.aln_ib.ifu_i0_icaf_second := first4B & !icaf_eff(0) & icaf_eff(1)
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_dbecc := Mux1H(Seq(first4B.asBool->aligndbecc.orR, first2B.asBool->aligndbecc(0)))
|
io.dec_aln.aln_ib.ifu_i0_dbecc := Mux1H(Seq(first4B.asBool->aligndbecc.orR, first2B.asBool->aligndbecc(0)))
|
||||||
|
|
||||||
|
@ -352,23 +443,28 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
// Expander from 16-bit to 32-bit
|
// Expander from 16-bit to 32-bit
|
||||||
val decompressed = Module(new ifu_compress_ctl())
|
val decompressed = Module(new ifu_compress_ctl())
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_instr := Mux1H(Seq(first4B.asBool -> ifirst, first2B.asBool -> decompressed.io.dout))
|
io.dec_aln.aln_ib.ifu_i0_instr := Mux1H(Seq((first4B & alignval(1)).asBool -> ifirst,
|
||||||
|
(first2B & alignval(0)).asBool -> decompressed.io.dout))
|
||||||
|
|
||||||
// Hashing the PC
|
////////////////////////////////////////////////////////////////////////////////////////////
|
||||||
val firstpc_hash = btb_addr_hash(f0pc)
|
val firstpc_hash = btb_addr_hash(firstpc)
|
||||||
|
|
||||||
val secondpc_hash = btb_addr_hash(secondpc)
|
val secondpc_hash = btb_addr_hash(secondpc)
|
||||||
|
|
||||||
val firstbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(firstpc) else btb_tag_hash(firstpc)
|
val firstbrtag_hash = WireInit(UInt(BTB_BTAG_SIZE.W),0.U)
|
||||||
|
val secondbrtag_hash = WireInit(UInt(BTB_BTAG_SIZE.W),0.U)
|
||||||
val secondbrtag_hash = if(BTB_BTAG_FOLD) btb_tag_hash_fold(secondpc) else btb_tag_hash(secondpc)
|
if(BTB_ENABLE){if(BTB_FULLYA)
|
||||||
|
firstbrtag_hash := firstpc else {if(BTB_BTAG_FOLD) firstbrtag_hash := btb_tag_hash_fold(firstpc) else firstbrtag_hash := btb_tag_hash(firstpc)} }
|
||||||
|
if(BTB_ENABLE){if(BTB_FULLYA)
|
||||||
|
secondbrtag_hash := secondpc else {if(BTB_BTAG_FOLD) secondbrtag_hash := btb_tag_hash_fold(secondpc) else secondbrtag_hash := btb_tag_hash(secondpc)} }
|
||||||
|
|
||||||
|
if(BTB_ENABLE){
|
||||||
io.dec_aln.aln_ib.i0_brp.valid := (first2B & alignbrend(0)) | (first4B & alignbrend(1)) | (first4B & alignval(1) & alignbrend(0))
|
io.dec_aln.aln_ib.i0_brp.valid := (first2B & alignbrend(0)) | (first4B & alignbrend(1)) | (first4B & alignval(1) & alignbrend(0))
|
||||||
|
|
||||||
io.dec_aln.aln_ib.i0_brp.bits.ret := (first2B & alignret(0)) | (first4B & alignret(1))
|
|
||||||
|
|
||||||
val i0_brp_pc4 = (first2B & alignpc4(0)) | (first4B & alignpc4(1))
|
val i0_brp_pc4 = (first2B & alignpc4(0)) | (first4B & alignpc4(1))
|
||||||
|
|
||||||
|
io.dec_aln.aln_ib.i0_brp.bits.ret := (first2B & alignret(0)) | (first4B & alignret(1))
|
||||||
|
|
||||||
io.dec_aln.aln_ib.i0_brp.bits.way := Mux((first2B | alignbrend(0)).asBool, alignway(0), alignway(1))
|
io.dec_aln.aln_ib.i0_brp.bits.way := Mux((first2B | alignbrend(0)).asBool, alignway(0), alignway(1))
|
||||||
|
|
||||||
io.dec_aln.aln_ib.i0_brp.bits.hist := Cat((first2B & alignhist1(0)) | (first4B & alignhist1(1)),
|
io.dec_aln.aln_ib.i0_brp.bits.hist := Cat((first2B & alignhist1(0)) | (first4B & alignhist1(1)),
|
||||||
|
@ -386,21 +482,35 @@ class ifu_aln_ctl extends Module with lib with RequireAsyncReset {
|
||||||
io.dec_aln.aln_ib.i0_brp.bits.br_error := (io.dec_aln.aln_ib.i0_brp.valid & i0_brp_pc4 & first2B) | (io.dec_aln.aln_ib.i0_brp.valid & !i0_brp_pc4 & first4B)
|
io.dec_aln.aln_ib.i0_brp.bits.br_error := (io.dec_aln.aln_ib.i0_brp.valid & i0_brp_pc4 & first2B) | (io.dec_aln.aln_ib.i0_brp.valid & !i0_brp_pc4 & first4B)
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_bp_index := Mux((first2B | alignbrend(0)).asBool, firstpc_hash, secondpc_hash)
|
io.dec_aln.aln_ib.ifu_i0_bp_index := Mux((first2B | alignbrend(0)).asBool, firstpc_hash, secondpc_hash)
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_bp_fghr := Mux((first4B & alignfromf1).asBool, f1fghr, f0fghr)
|
io.dec_aln.aln_ib.ifu_i0_bp_fghr := Mux((first4B & alignfromf1).asBool, f1fghr, f0fghr)
|
||||||
|
|
||||||
io.dec_aln.aln_ib.ifu_i0_bp_btag := Mux((first2B | alignbrend(0)).asBool, firstbrtag_hash, secondbrtag_hash)
|
io.dec_aln.aln_ib.ifu_i0_bp_btag := Mux((first2B | alignbrend(0)).asBool, firstbrtag_hash, secondbrtag_hash)
|
||||||
|
|
||||||
decompressed.io.din := aligndata
|
if(BTB_FULLYA){
|
||||||
|
io.ifu_i0_fa_index := Mux((first2B | alignbrend(0)).asBool, alignindex(0), alignindex(1))
|
||||||
|
}else{
|
||||||
|
io.ifu_i0_fa_index := 0.U
|
||||||
|
}
|
||||||
|
}else{
|
||||||
|
io.dec_aln.aln_ib.ifu_i0_bp_index := 0.U
|
||||||
|
io.dec_aln.aln_ib.ifu_i0_bp_fghr := 0.U
|
||||||
|
io.dec_aln.aln_ib.ifu_i0_bp_btag := 0.U
|
||||||
|
io.dec_aln.aln_ib.i0_brp := 0.U.asTypeOf(io.dec_aln.aln_ib.i0_brp)
|
||||||
|
}
|
||||||
|
|
||||||
val i0_shift = io.dec_i0_decode_d & ~error_stall
|
|
||||||
|
|
||||||
|
decompressed.io.din := Mux(first2B.asBool(),aligndata,0.U)
|
||||||
|
|
||||||
|
val i0_shift = io.dec_i0_decode_d & !error_stall
|
||||||
|
|
||||||
io.dec_aln.ifu_pmu_instr_aligned := i0_shift
|
io.dec_aln.ifu_pmu_instr_aligned := i0_shift
|
||||||
|
|
||||||
shift_2B := i0_shift & first2B
|
shift_2B := i0_shift & first2B
|
||||||
shift_4B := i0_shift & first4B
|
shift_4B := i0_shift & first4B
|
||||||
|
////
|
||||||
f0_shift_2B := Mux1H(Seq(shift_2B.asBool -> f0val(0), shift_4B.asBool -> (f0val(0) & !f0val(1))))
|
f0_shift_2B := Mux1H(Seq(shift_2B.asBool -> f0val(0), shift_4B.asBool -> (f0val(0) & !f0val(1))))
|
||||||
f1_shift_2B := f0val(0) & !f0val(1) & shift_4B
|
f1_shift_2B := f0val(0) & !f0val(1) & shift_4B
|
||||||
|
|
||||||
}
|
}
|
||||||
|
//object Aligner extends App {
|
||||||
|
// (new chisel3.stage.ChiselStage).emitVerilog(new ifu_aln_ctl())
|
||||||
|
//}
|
|
@ -433,11 +433,16 @@ if(!BTB_FULLYA) {
|
||||||
val btb_bank0_rd_data_way1_out = (0 until LRU_SIZE).map(i => rvdffe(btb_wr_data, ((btb_wr_addr === i.U) & btb_wr_en_way1).asBool, clock, io.scan_mode))
|
val btb_bank0_rd_data_way1_out = (0 until LRU_SIZE).map(i => rvdffe(btb_wr_data, ((btb_wr_addr === i.U) & btb_wr_en_way1).asBool, clock, io.scan_mode))
|
||||||
|
|
||||||
btb_bank0_rd_data_way0_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_f === i.U).asBool -> btb_bank0_rd_data_way0_out(i)))
|
btb_bank0_rd_data_way0_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_f === i.U).asBool -> btb_bank0_rd_data_way0_out(i)))
|
||||||
btb_bank0_rd_data_way1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_f === i.U).asBool -> btb_bank0_rd_data_way1_out(i)))
|
dontTouch(btb_bank0_rd_data_way0_f)
|
||||||
|
|
||||||
|
btb_bank0_rd_data_way1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_f === i.U).asBool -> btb_bank0_rd_data_way1_out(i)))
|
||||||
|
dontTouch(btb_bank0_rd_data_way1_f)
|
||||||
// BTB read muxing
|
// BTB read muxing
|
||||||
btb_bank0_rd_data_way0_p1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_p1_f === i.U).asBool -> btb_bank0_rd_data_way0_out(i)))
|
btb_bank0_rd_data_way0_p1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_p1_f === i.U).asBool -> btb_bank0_rd_data_way0_out(i)))
|
||||||
|
dontTouch(btb_bank0_rd_data_way0_p1_f)
|
||||||
|
|
||||||
btb_bank0_rd_data_way1_p1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_p1_f === i.U).asBool -> btb_bank0_rd_data_way1_out(i)))
|
btb_bank0_rd_data_way1_p1_f := Mux1H((0 until LRU_SIZE).map(i => (btb_rd_addr_p1_f === i.U).asBool -> btb_bank0_rd_data_way1_out(i)))
|
||||||
|
dontTouch(btb_bank0_rd_data_way1_p1_f)
|
||||||
}
|
}
|
||||||
// if(BTB_FULLYA){
|
// if(BTB_FULLYA){
|
||||||
// val fetch_mp_collision_f = WireInit(Bool(),init = false.B)
|
// val fetch_mp_collision_f = WireInit(Bool(),init = false.B)
|
||||||
|
@ -500,6 +505,7 @@ if(!BTB_FULLYA) {
|
||||||
if(RV_FPGA_OPTIMIZE) {
|
if(RV_FPGA_OPTIMIZE) {
|
||||||
for(i<-0 until 2; k<- 0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)) bht_bank_clk(i)(k) := rvclkhdr(clock, bht_bank_clken(i)(k), io.scan_mode)
|
for(i<-0 until 2; k<- 0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)) bht_bank_clk(i)(k) := rvclkhdr(clock, bht_bank_clken(i)(k), io.scan_mode)
|
||||||
// (0 until 2).map(i=>(0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)).map(k=>rvclkhdr(clock, bht_bank_clken(i)(k), io.scan_mode)))
|
// (0 until 2).map(i=>(0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)).map(k=>rvclkhdr(clock, bht_bank_clken(i)(k), io.scan_mode)))
|
||||||
|
|
||||||
}
|
}
|
||||||
for(i<-0 until 2; k<- 0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)){
|
for(i<-0 until 2; k<- 0 until (BHT_ARRAY_DEPTH/NUM_BHT_LOOP)){
|
||||||
// Checking if there is a write enable with address for the BHT
|
// Checking if there is a write enable with address for the BHT
|
||||||
|
|
|
@ -1,14 +1,11 @@
|
||||||
package ifu
|
package ifu
|
||||||
import chisel3._
|
import chisel3._
|
||||||
import chisel3.internal.naming.chiselName
|
|
||||||
import chisel3.util._
|
import chisel3.util._
|
||||||
import lib._
|
import lib._
|
||||||
import include._
|
import include._
|
||||||
|
|
||||||
import scala.math.pow
|
|
||||||
|
|
||||||
class mem_ctl_io extends Bundle with lib{
|
class mem_ctl_io extends Bundle with lib{
|
||||||
val free_clk = Input(Clock())
|
val free_l2clk = Input(Clock())
|
||||||
val active_clk = Input(Clock())
|
val active_clk = Input(Clock())
|
||||||
val exu_flush_final = Input(Bool())
|
val exu_flush_final = Input(Bool())
|
||||||
val dec_mem_ctrl = new dec_mem_ctrl
|
val dec_mem_ctrl = new dec_mem_ctrl
|
||||||
|
@ -40,11 +37,11 @@ class mem_ctl_io extends Bundle with lib{
|
||||||
val iccm_ready = Output(Bool())
|
val iccm_ready = Output(Bool())
|
||||||
|
|
||||||
val dec_tlu_flush_lower_wb = Input(Bool())
|
val dec_tlu_flush_lower_wb = Input(Bool())
|
||||||
val iccm_rd_ecc_double_err = Output(Bool())
|
val iccm_rd_ecc_double_err = Output(UInt(2.W))
|
||||||
val iccm_dma_sb_error = Output(Bool())
|
val iccm_dma_sb_error = Output(Bool())
|
||||||
|
|
||||||
val ic_hit_f = Output(Bool())
|
val ic_hit_f = Output(Bool())
|
||||||
val ic_access_fault_f = Output(Bool())
|
val ic_access_fault_f = Output(UInt(2.W))
|
||||||
val ic_access_fault_type_f = Output(UInt(2.W))
|
val ic_access_fault_type_f = Output(UInt(2.W))
|
||||||
val ifu_async_error_start = Output(Bool())
|
val ifu_async_error_start = Output(Bool())
|
||||||
val ic_fetch_val_f = Output(UInt(2.W))
|
val ic_fetch_val_f = Output(UInt(2.W))
|
||||||
|
@ -60,43 +57,42 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val err_idle_C :: ic_wff_C :: ecc_wff_C :: ecc_cor_C :: dma_sb_err_C :: Nil = Enum(5)
|
val err_idle_C :: ic_wff_C :: ecc_wff_C :: ecc_cor_C :: dma_sb_err_C :: Nil = Enum(5)
|
||||||
|
|
||||||
val iccm_single_ecc_error = WireInit(UInt(2.W), 0.U)
|
val iccm_single_ecc_error = WireInit(UInt(2.W), 0.U)
|
||||||
val ifc_fetch_req_f = WireInit(Bool(), false.B)
|
val ifc_fetch_req_f = WireInit(Bool(), 0.B)
|
||||||
val miss_pending = WireInit(Bool(), false.B)
|
val miss_pending = WireInit(Bool(), 0.B)
|
||||||
val scnd_miss_req = WireInit(Bool(), false.B)
|
val scnd_miss_req = WireInit(Bool(), 0.B)
|
||||||
val dma_iccm_req_f = WireInit(Bool(), false.B)
|
val dma_iccm_req_f = WireInit(Bool(), 0.B)
|
||||||
val iccm_correct_ecc = WireInit(Bool(), false.B)
|
val iccm_correct_ecc = WireInit(Bool(), 0.B)
|
||||||
val perr_state = WireInit(UInt(3.W), 0.U)
|
val perr_state = WireInit(UInt(3.W), 0.U)
|
||||||
val err_stop_state = WireInit(UInt(2.W), 0.U)
|
val err_stop_state = WireInit(UInt(2.W), 0.U)
|
||||||
val err_stop_fetch = WireInit(Bool(), false.B)
|
val err_stop_fetch = WireInit(Bool(), 0.B)
|
||||||
val miss_state = WireInit(UInt(3.W), 0.U)
|
val miss_state = WireInit(UInt(3.W), 0.U)
|
||||||
val miss_nxtstate = WireInit(UInt(3.W), 0.U)
|
val miss_nxtstate = WireInit(UInt(3.W), 0.U)
|
||||||
val miss_state_en = WireInit(Bool(), false.B)
|
val miss_state_en = WireInit(Bool(), 0.B)
|
||||||
val ifu_bus_rsp_valid = WireInit(Bool(), false.B)
|
val bus_ifu_bus_clk_en = WireInit(Bool(), 0.B)
|
||||||
val bus_ifu_bus_clk_en = WireInit(Bool(), false.B)
|
val uncacheable_miss_ff = WireInit(Bool(), 0.B)
|
||||||
val ifu_bus_rsp_ready = WireInit(Bool(), false.B)
|
val ic_act_miss_f = WireInit(Bool(), 0.B)
|
||||||
val uncacheable_miss_ff = WireInit(Bool(), false.B)
|
val ic_byp_hit_f = WireInit(Bool(), 0.B)
|
||||||
val ic_act_miss_f = WireInit(Bool(), false.B)
|
|
||||||
val ic_byp_hit_f = WireInit(Bool(), false.B)
|
|
||||||
val bus_new_data_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
val bus_new_data_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
||||||
val bus_ifu_wr_en_ff = WireInit(Bool(), false.B)
|
val bus_ifu_wr_en_ff = WireInit(Bool(), 0.B)
|
||||||
val last_beat = WireInit(Bool(), false.B)
|
val last_beat = WireInit(Bool(), 0.B)
|
||||||
val last_data_recieved_ff = WireInit(Bool(), false.B)
|
val last_data_recieved_ff = WireInit(Bool(), 0.B)
|
||||||
val stream_eol_f = WireInit(Bool(), false.B)
|
val stream_eol_f = WireInit(Bool(), 0.B)
|
||||||
val ic_miss_under_miss_f = WireInit(Bool(), false.B)
|
val ic_miss_under_miss_f = WireInit(Bool(), 0.B)
|
||||||
val ic_ignore_2nd_miss_f = WireInit(Bool(), false.B)
|
val ic_ignore_2nd_miss_f = WireInit(Bool(), 0.B)
|
||||||
val ic_debug_rd_en_ff = WireInit(Bool(), false.B)
|
val ic_debug_rd_en_ff = WireInit(Bool(), 0.B)
|
||||||
|
|
||||||
val debug_data_clk = rvclkhdr(clock, ic_debug_rd_en_ff, io.scan_mode)
|
val debug_data_clk = rvclkhdr(clock, ic_debug_rd_en_ff, io.scan_mode)
|
||||||
val flush_final_f = withClock(io.free_clk){RegNext(io.exu_flush_final, 0.U)}
|
val flush_final_f = rvdffie(io.exu_flush_final,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_l2clk){RegNext(io.exu_flush_final, 0.U)}
|
||||||
val fetch_bf_f_c1_clken = io.ifc_fetch_req_bf_raw | ifc_fetch_req_f | miss_pending | io.exu_flush_final | scnd_miss_req
|
val fetch_bf_f_c1_clken = io.ifc_fetch_req_bf_raw | ifc_fetch_req_f | miss_pending | io.exu_flush_final | scnd_miss_req
|
||||||
val debug_c1_clken = io.ic.debug_rd_en | io.ic.debug_wr_en
|
val debug_c1_clken = io.ic.debug_rd_en | io.ic.debug_wr_en
|
||||||
val debug_c1_clk = rvclkhdr(clock, debug_c1_clken, io.scan_mode)
|
val fetch_bf_f_c1_clk = if(RV_FPGA_OPTIMIZE) 0.B.asClock() else rvclkhdr(clock, fetch_bf_f_c1_clken, io.scan_mode)
|
||||||
val fetch_bf_f_c1_clk = rvclkhdr(clock, fetch_bf_f_c1_clken, io.scan_mode)
|
val debug_c1_clk = if(RV_FPGA_OPTIMIZE) 0.B.asClock() else rvclkhdr(clock, debug_c1_clken, io.scan_mode)
|
||||||
|
|
||||||
io.iccm_dma_sb_error := iccm_single_ecc_error.orR() & dma_iccm_req_f.asBool()
|
io.iccm_dma_sb_error := iccm_single_ecc_error.orR() & dma_iccm_req_f.asBool()
|
||||||
io.ifu_async_error_start := io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err | io.dec_mem_ctrl.ifu_ic_error_start
|
io.ifu_async_error_start := io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err | io.dec_mem_ctrl.ifu_ic_error_start
|
||||||
io.ic_dma_active := iccm_correct_ecc | (perr_state === dma_sb_err_C) | (err_stop_state === err_stop_fetch_C) | err_stop_fetch | io.dec_mem_ctrl.dec_tlu_flush_err_wb
|
io.ic_dma_active := iccm_correct_ecc | (perr_state === dma_sb_err_C) | (err_stop_state === err_stop_fetch_C) | err_stop_fetch | io.dec_mem_ctrl.dec_tlu_flush_err_wb
|
||||||
|
|
||||||
val scnd_miss_req_in = ifu_bus_rsp_valid & bus_ifu_bus_clk_en & ifu_bus_rsp_ready & (bus_new_data_beat_count.andR) &
|
val scnd_miss_req_in = io.ifu_axi.r.valid & bus_ifu_bus_clk_en & io.ifu_axi.r.ready & (bus_new_data_beat_count.andR) &
|
||||||
!uncacheable_miss_ff & ((miss_state === scnd_miss_C)|(miss_nxtstate === scnd_miss_C)) & !io.exu_flush_final
|
!uncacheable_miss_ff & ((miss_state === scnd_miss_C)|(miss_nxtstate === scnd_miss_C)) & !io.exu_flush_final
|
||||||
|
|
||||||
val ifu_bp_hit_taken_q_f = io.ifu_bp_hit_taken_f & io.ic_hit_f
|
val ifu_bp_hit_taken_q_f = io.ifu_bp_hit_taken_f & io.ic_hit_f
|
||||||
|
@ -145,7 +141,7 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
miss_state_en := (bus_ifu_wr_en_ff & last_beat) | io.exu_flush_final | io.dec_mem_ctrl.dec_tlu_force_halt
|
miss_state_en := (bus_ifu_wr_en_ff & last_beat) | io.exu_flush_final | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
miss_state := withClock(io.free_clk){RegEnable(miss_nxtstate, 0.U, miss_state_en.asBool)}
|
miss_state := withClock(io.active_clk){RegEnable(miss_nxtstate, 0.U, miss_state_en.asBool)}
|
||||||
// Calculation all the relevant signals for the miss FSM
|
// Calculation all the relevant signals for the miss FSM
|
||||||
val crit_byp_hit_f = WireInit(Bool(), 0.U)
|
val crit_byp_hit_f = WireInit(Bool(), 0.U)
|
||||||
val way_status_mb_scnd_ff = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
val way_status_mb_scnd_ff = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
||||||
|
@ -165,13 +161,13 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val sel_hold_imb_scnd = ((miss_state === scnd_miss_C) | ic_miss_under_miss_f) & !flush_final_f
|
val sel_hold_imb_scnd = ((miss_state === scnd_miss_C) | ic_miss_under_miss_f) & !flush_final_f
|
||||||
val way_status_mb_scnd_in = Mux(miss_state === scnd_miss_C, way_status_mb_scnd_ff, way_status)
|
val way_status_mb_scnd_in = Mux(miss_state === scnd_miss_C, way_status_mb_scnd_ff, way_status)
|
||||||
|
|
||||||
val tagv_mb_scnd_in = Mux(miss_state === scnd_miss_C, tagv_mb_scnd_ff, Fill(ICACHE_NUM_WAYS, !reset_all_tags) & io.ic.tag_valid)
|
val tagv_mb_scnd_in = Mux(miss_state === scnd_miss_C, tagv_mb_scnd_ff, Fill(ICACHE_NUM_WAYS, !reset_all_tags & !io.exu_flush_final) & io.ic.tag_valid)
|
||||||
val uncacheable_miss_scnd_in = Mux(sel_hold_imb_scnd.asBool, uncacheable_miss_scnd_ff, io.ifc_fetch_uncacheable_bf)
|
val uncacheable_miss_scnd_in = Mux(sel_hold_imb_scnd.asBool, uncacheable_miss_scnd_ff, io.ifc_fetch_uncacheable_bf)
|
||||||
uncacheable_miss_scnd_ff := withClock(fetch_bf_f_c1_clk){RegNext(uncacheable_miss_scnd_in, 0.U)}
|
uncacheable_miss_scnd_ff := rvdff_fpga(uncacheable_miss_scnd_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(uncacheable_miss_scnd_in, 0.U)}
|
||||||
val imb_scnd_in = Mux(sel_hold_imb_scnd.asBool, imb_scnd_ff, io.ifc_fetch_addr_bf)
|
val imb_scnd_in = Mux(sel_hold_imb_scnd.asBool, imb_scnd_ff, io.ifc_fetch_addr_bf)
|
||||||
imb_scnd_ff := withClock(fetch_bf_f_c1_clk){RegNext(imb_scnd_in, 0.U)}
|
imb_scnd_ff := rvdffpcie(imb_scnd_in,fetch_bf_f_c1_clken,reset.asAsyncReset(),clock,io.scan_mode)//withClock(fetch_bf_f_c1_clk){RegNext(imb_scnd_in, 0.U)}
|
||||||
way_status_mb_scnd_ff := withClock(fetch_bf_f_c1_clk){RegNext(way_status_mb_scnd_in, 0.U)}
|
way_status_mb_scnd_ff := rvdff_fpga(way_status_mb_scnd_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(way_status_mb_scnd_in, 0.U)}
|
||||||
tagv_mb_scnd_ff := withClock(fetch_bf_f_c1_clk){RegNext(tagv_mb_scnd_in, 0.U)}
|
tagv_mb_scnd_ff := rvdff_fpga(tagv_mb_scnd_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(tagv_mb_scnd_in, 0.U)}
|
||||||
|
|
||||||
val ic_req_addr_bits_hi_3 = bus_rd_addr_count
|
val ic_req_addr_bits_hi_3 = bus_rd_addr_count
|
||||||
val ic_wr_addr_bits_hi_3 = ifu_bus_rid_ff & Fill(ICACHE_BEAT_BITS, bus_ifu_wr_en_ff)
|
val ic_wr_addr_bits_hi_3 = ifu_bus_rid_ff & Fill(ICACHE_BEAT_BITS, bus_ifu_wr_en_ff)
|
||||||
|
@ -205,45 +201,45 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val replace_way_mb_any = Wire(Vec(ICACHE_NUM_WAYS, UInt(1.W)))
|
val replace_way_mb_any = Wire(Vec(ICACHE_NUM_WAYS, UInt(1.W)))
|
||||||
val tagv_mb_ff = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
val tagv_mb_ff = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
||||||
val tagv_mb_in = Mux(scnd_miss_req.asBool, tagv_mb_scnd_ff | (Fill(ICACHE_NUM_WAYS, scnd_miss_index_match) & replace_way_mb_any.reverse.reduce(Cat(_,_))),
|
val tagv_mb_in = Mux(scnd_miss_req.asBool, tagv_mb_scnd_ff | (Fill(ICACHE_NUM_WAYS, scnd_miss_index_match) & replace_way_mb_any.reverse.reduce(Cat(_,_))),
|
||||||
Mux(miss_pending.asBool, tagv_mb_ff, io.ic.tag_valid & Fill(ICACHE_NUM_WAYS, !reset_all_tags)))
|
Mux(miss_pending.asBool, tagv_mb_ff, io.ic.tag_valid & Fill(ICACHE_NUM_WAYS, !reset_all_tags & !io.exu_flush_final)))
|
||||||
val scnd_miss_req_q = WireInit(Bool(), false.B)
|
val scnd_miss_req_q = WireInit(Bool(), 0.B)
|
||||||
val reset_ic_ff = WireInit(Bool(), false.B)
|
val reset_ic_ff = WireInit(Bool(), 0.B)
|
||||||
val reset_ic_in = miss_pending & !scnd_miss_req_q & (reset_all_tags | reset_ic_ff)
|
val reset_ic_in = miss_pending & !scnd_miss_req_q & (reset_all_tags | reset_ic_ff)
|
||||||
reset_ic_ff := withClock(io.free_clk){RegNext(reset_ic_in, false.B)}
|
reset_ic_ff := rvdffie(reset_ic_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(reset_ic_in, false.B)}
|
||||||
val fetch_uncacheable_ff = withClock(io.active_clk){RegNext(io.ifc_fetch_uncacheable_bf, 0.U)}
|
val fetch_uncacheable_ff = rvdffie(io.ifc_fetch_uncacheable_bf,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(io.ifc_fetch_uncacheable_bf, 0.U)}
|
||||||
ifu_fetch_addr_int_f := withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_fetch_addr_bf, 0.U)}
|
ifu_fetch_addr_int_f := rvdffpcie(io.ifc_fetch_addr_bf,fetch_bf_f_c1_clken,reset.asAsyncReset(),clock,io.scan_mode) // withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_fetch_addr_bf, 0.U)}
|
||||||
val vaddr_f = ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1, 0)
|
val vaddr_f = ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1, 0)
|
||||||
uncacheable_miss_ff := withClock(fetch_bf_f_c1_clk){RegNext(uncacheable_miss_in, 0.U)}
|
uncacheable_miss_ff := rvdff_fpga(uncacheable_miss_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(uncacheable_miss_in, 0.U)}
|
||||||
imb_ff := withClock(fetch_bf_f_c1_clk){RegNext(imb_in, 0.U)}
|
imb_ff := rvdffpcie(imb_in,fetch_bf_f_c1_clken,reset.asAsyncReset(),clock,io.scan_mode)//withClock(fetch_bf_f_c1_clk){RegNext(imb_in, 0.U)}
|
||||||
val miss_addr = WireInit(UInt((31-ICACHE_BEAT_ADDR_HI).W), 0.U)
|
val miss_addr = WireInit(UInt((31-ICACHE_BEAT_ADDR_HI).W), 0.U)
|
||||||
val miss_addr_in = Mux(!miss_pending, imb_ff(30, ICACHE_BEAT_ADDR_HI),
|
val miss_addr_in = Mux(!miss_pending, imb_ff(30, ICACHE_BEAT_ADDR_HI),
|
||||||
Mux(scnd_miss_req_q.asBool, imb_scnd_ff(30, ICACHE_BEAT_ADDR_HI), miss_addr))
|
Mux(scnd_miss_req_q.asBool, imb_scnd_ff(30, ICACHE_BEAT_ADDR_HI), miss_addr))
|
||||||
val busclk_reset = rvclkhdr(clock, bus_ifu_bus_clk_en | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt, io.scan_mode)
|
val busclk_reset = if(RV_FPGA_OPTIMIZE) 0.B.asClock() else rvclkhdr(clock, bus_ifu_bus_clk_en | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt, io.scan_mode)
|
||||||
miss_addr := withClock(busclk_reset) {RegNext(miss_addr_in, 0.U)}
|
|
||||||
way_status_mb_ff := withClock(fetch_bf_f_c1_clk){RegNext(way_status_mb_in, 0.U)}
|
miss_addr := rvdfflie_UInt(miss_addr_in,clock,reset.asAsyncReset(),bus_ifu_bus_clk_en | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt,io.scan_mode)//withClock(busclk_reset) {RegNext(miss_addr_in, 0.U)}
|
||||||
tagv_mb_ff := withClock(fetch_bf_f_c1_clk){RegNext(tagv_mb_in, 0.U)}
|
way_status_mb_ff := rvdff_fpga(way_status_mb_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(way_status_mb_in, 0.U)}
|
||||||
|
tagv_mb_ff := rvdff_fpga(tagv_mb_in,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(tagv_mb_in, 0.U)}
|
||||||
val stream_miss_f = WireInit(Bool(), 0.U)
|
val stream_miss_f = WireInit(Bool(), 0.U)
|
||||||
val ifc_fetch_req_qual_bf = io.ifc_fetch_req_bf & !((miss_state===crit_wrd_rdy_C) & flush_final_f) & !stream_miss_f
|
val ifc_fetch_req_qual_bf = io.ifc_fetch_req_bf & !((miss_state===crit_wrd_rdy_C) & flush_final_f) & !stream_miss_f
|
||||||
val ifc_fetch_req_f_raw = withClock(io.active_clk){RegNext(ifc_fetch_req_qual_bf, 0.U)}
|
val ifc_fetch_req_f_raw = rvdffie(ifc_fetch_req_qual_bf,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ifc_fetch_req_qual_bf, 0.U)}
|
||||||
ifc_fetch_req_f := ifc_fetch_req_f_raw & !io.exu_flush_final
|
ifc_fetch_req_f := ifc_fetch_req_f_raw & !io.exu_flush_final
|
||||||
ifc_iccm_access_f := withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_iccm_access_bf, 0.U)}
|
ifc_iccm_access_f := rvdff_fpga(io.ifc_iccm_access_bf,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_iccm_access_bf, 0.U)}
|
||||||
val ifc_region_acc_fault_final_bf = WireInit(Bool(), 0.U)
|
val ifc_region_acc_fault_final_bf = WireInit(Bool(), 0.U)
|
||||||
ifc_region_acc_fault_final_f := withClock(fetch_bf_f_c1_clk){RegNext(ifc_region_acc_fault_final_bf, 0.U)}
|
ifc_region_acc_fault_final_f := rvdff_fpga(ifc_region_acc_fault_final_bf,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)// withClock(fetch_bf_f_c1_clk){RegNext(ifc_region_acc_fault_final_bf, 0.U)}
|
||||||
val ifc_region_acc_fault_f = withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_region_acc_fault_bf, 0.U)}
|
val ifc_region_acc_fault_f = rvdff_fpga(io.ifc_region_acc_fault_bf,fetch_bf_f_c1_clk,fetch_bf_f_c1_clken,clock)//withClock(fetch_bf_f_c1_clk){RegNext(io.ifc_region_acc_fault_bf, 0.U)}
|
||||||
val ifu_ic_req_addr_f = Cat(miss_addr, ic_req_addr_bits_hi_3)
|
val ifu_ic_req_addr_f = Cat(miss_addr, ic_req_addr_bits_hi_3)
|
||||||
io.ifu_ic_mb_empty := (((miss_state===hit_u_miss_C) | (miss_state===stream_C)) & !(bus_ifu_wr_en_ff & last_beat)) | !miss_pending
|
io.ifu_ic_mb_empty := (((miss_state===hit_u_miss_C) | (miss_state===stream_C)) & !(bus_ifu_wr_en_ff & last_beat)) | !miss_pending
|
||||||
io.dec_mem_ctrl.ifu_miss_state_idle := miss_state === idle_C
|
io.dec_mem_ctrl.ifu_miss_state_idle := miss_state === idle_C
|
||||||
val write_ic_16_bytes = WireInit(Bool(), false.B)
|
val write_ic_16_bytes = WireInit(Bool(), 0.B)
|
||||||
val reset_tag_valid_for_miss = WireInit(Bool(), false.B)
|
val reset_tag_valid_for_miss = WireInit(Bool(), 0.B)
|
||||||
val sel_mb_addr = (miss_pending & write_ic_16_bytes & !uncacheable_miss_ff) | reset_tag_valid_for_miss
|
val sel_mb_addr = (miss_pending & write_ic_16_bytes & !uncacheable_miss_ff) | reset_tag_valid_for_miss
|
||||||
val ifu_ic_rw_int_addr = Mux1H(Seq(sel_mb_addr -> Cat(imb_ff(30,ICACHE_BEAT_ADDR_HI) , ic_wr_addr_bits_hi_3 , imb_ff(1,0)),
|
io.ic.rw_addr := Mux1H(Seq(sel_mb_addr -> Cat(imb_ff(30,ICACHE_BEAT_ADDR_HI) , ic_wr_addr_bits_hi_3 , imb_ff(1,0)),
|
||||||
!sel_mb_addr -> io.ifc_fetch_addr_bf))
|
!sel_mb_addr -> io.ifc_fetch_addr_bf))
|
||||||
val bus_ifu_wr_en_ff_q = WireInit(Bool(), false.B)
|
val bus_ifu_wr_en_ff_q = WireInit(Bool(), 0.B)
|
||||||
val sel_mb_status_addr = (miss_pending & write_ic_16_bytes & !uncacheable_miss_ff & last_beat & bus_ifu_wr_en_ff_q) | reset_tag_valid_for_miss
|
val sel_mb_status_addr = (miss_pending & write_ic_16_bytes & !uncacheable_miss_ff & last_beat & bus_ifu_wr_en_ff_q) | reset_tag_valid_for_miss
|
||||||
val ifu_status_wr_addr = Mux(sel_mb_status_addr, Cat(imb_ff(30, ICACHE_BEAT_ADDR_HI),ic_wr_addr_bits_hi_3, imb_ff(1,0)), ifu_fetch_addr_int_f)
|
val ifu_status_wr_addr = Mux(sel_mb_status_addr, Cat(imb_ff(30, ICACHE_BEAT_ADDR_HI),ic_wr_addr_bits_hi_3, imb_ff(1,0)), ifu_fetch_addr_int_f)
|
||||||
io.ic.rw_addr := ifu_ic_rw_int_addr
|
sel_mb_addr_ff := rvdffie(sel_mb_addr,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(sel_mb_addr, 0.U)}
|
||||||
sel_mb_addr_ff := withClock(io.free_clk){RegNext(sel_mb_addr, 0.U)}
|
val ifu_bus_rdata_ff = rvdffe(io.ifu_axi.r.bits.data,io.ifu_bus_clk_en & io.ifu_axi.r.valid,clock,io.scan_mode)
|
||||||
val ifu_bus_rdata_ff = WireInit(UInt(64.W), 0.U)
|
|
||||||
val ic_miss_buff_half = WireInit(UInt(64.W), 0.U)
|
val ic_miss_buff_half = WireInit(UInt(64.W), 0.U)
|
||||||
|
|
||||||
// Ecc of the read data from the AXI
|
// Ecc of the read data from the AXI
|
||||||
|
@ -260,7 +256,8 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val ifu_ic_debug_rd_data_in = Mux(ic_debug_ict_array_sel_ff.asBool, if(ICACHE_ECC) Cat(0.U(2.W),io.ic.tag_debug_rd_data(25,21),0.U(32.W),io.ic.tag_debug_rd_data(20,0), 0.U((7-ICACHE_STATUS_BITS).W), way_status, 0.U(3.W),ic_debug_tag_val_rd_out)
|
val ifu_ic_debug_rd_data_in = Mux(ic_debug_ict_array_sel_ff.asBool, if(ICACHE_ECC) Cat(0.U(2.W),io.ic.tag_debug_rd_data(25,21),0.U(32.W),io.ic.tag_debug_rd_data(20,0), 0.U((7-ICACHE_STATUS_BITS).W), way_status, 0.U(3.W),ic_debug_tag_val_rd_out)
|
||||||
else Cat(0.U(6.W),io.ic.tag_debug_rd_data(21),0.U(32.W),io.ic.tag_debug_rd_data(20,0),0.U(7-ICACHE_STATUS_BITS),way_status ,0.U(3.W) ,ic_debug_tag_val_rd_out) ,
|
else Cat(0.U(6.W),io.ic.tag_debug_rd_data(21),0.U(32.W),io.ic.tag_debug_rd_data(20,0),0.U(7-ICACHE_STATUS_BITS),way_status ,0.U(3.W) ,ic_debug_tag_val_rd_out) ,
|
||||||
io.ic.debug_rd_data)
|
io.ic.debug_rd_data)
|
||||||
io.dec_mem_ctrl.ifu_ic_debug_rd_data := withClock(debug_data_clk){RegNext(ifu_ic_debug_rd_data_in, 0.U)}
|
|
||||||
|
io.dec_mem_ctrl.ifu_ic_debug_rd_data := rvdffe(ifu_ic_debug_rd_data_in,ic_debug_rd_en_ff,clock,io.scan_mode)//withClock(debug_data_clk){RegNext(ifu_ic_debug_rd_data_in, 0.U)}
|
||||||
val ic_wr_parity = (0 until 4).map(i=>rveven_paritygen(ifu_bus_rdata_ff((16*i)+15,16*i))).reverse.reduce(Cat(_,_))
|
val ic_wr_parity = (0 until 4).map(i=>rveven_paritygen(ifu_bus_rdata_ff((16*i)+15,16*i))).reverse.reduce(Cat(_,_))
|
||||||
val ic_miss_buff_parity = (0 until 4).map(i=>rveven_paritygen(ic_miss_buff_half((16*i)+15,16*i))).reverse.reduce(Cat(_,_))
|
val ic_miss_buff_parity = (0 until 4).map(i=>rveven_paritygen(ic_miss_buff_half((16*i)+15,16*i))).reverse.reduce(Cat(_,_))
|
||||||
|
|
||||||
|
@ -270,59 +267,52 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val bus_ifu_wr_data_error_ff = WireInit(Bool(), 0.U)
|
val bus_ifu_wr_data_error_ff = WireInit(Bool(), 0.U)
|
||||||
val ifu_wr_data_comb_err_ff = WireInit(Bool(), 0.U)
|
val ifu_wr_data_comb_err_ff = WireInit(Bool(), 0.U)
|
||||||
val reset_beat_cnt = WireInit(Bool(), 0.U)
|
val reset_beat_cnt = WireInit(Bool(), 0.U)
|
||||||
val ifu_wr_data_comb_err = bus_ifu_wr_data_error_ff
|
val ifu_wr_cumulative_err = (bus_ifu_wr_data_error_ff | ifu_wr_data_comb_err_ff) & !reset_beat_cnt
|
||||||
val ifu_wr_cumulative_err = (ifu_wr_data_comb_err | ifu_wr_data_comb_err_ff) & !reset_beat_cnt
|
ifu_wr_cumulative_err_data := bus_ifu_wr_data_error_ff | ifu_wr_data_comb_err_ff
|
||||||
ifu_wr_cumulative_err_data := ifu_wr_data_comb_err | ifu_wr_data_comb_err_ff
|
ifu_wr_data_comb_err_ff := rvdffie(ifu_wr_cumulative_err,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk) {RegNext(ifu_wr_cumulative_err, 0.U)}
|
||||||
ifu_wr_data_comb_err_ff := withClock(io.free_clk) {RegNext(ifu_wr_cumulative_err, 0.U)}
|
|
||||||
val ic_crit_wd_rdy = WireInit(Bool(), 0.U)
|
val ic_crit_wd_rdy = WireInit(Bool(), 0.U)
|
||||||
val ifu_byp_data_err_new = WireInit(Bool(), 0.U)
|
val ifu_byp_data_err_f = WireInit(UInt(2.W), 0.U)
|
||||||
val sel_byp_data = (ic_crit_wd_rdy | (miss_state===stream_C) | (miss_state===crit_byp_ok_C)) & !ifu_byp_data_err_new
|
val sel_byp_data = (ic_crit_wd_rdy | (miss_state===stream_C) | (miss_state===crit_byp_ok_C))
|
||||||
val sel_ic_data = !(ic_crit_wd_rdy | (miss_state===stream_C) | (miss_state===crit_byp_ok_C)) & !fetch_req_iccm_f
|
val sel_ic_data = !(ic_crit_wd_rdy | (miss_state===stream_C) | (miss_state===crit_byp_ok_C) | (miss_state === miss_wait_C)) & !fetch_req_iccm_f & !ifc_region_acc_fault_final_f
|
||||||
val sel_iccm_data = fetch_req_iccm_f
|
|
||||||
|
|
||||||
val ic_byp_data_only_new = WireInit(UInt(80.W), 0.U)
|
val ic_byp_data_only_new = WireInit(UInt(80.W), 0.U)
|
||||||
val final_data_sel1 = VecInit(sel_byp_data | sel_iccm_data | sel_ic_data, sel_byp_data, sel_byp_data | sel_ic_data, sel_byp_data)
|
|
||||||
val final_data_sel2 = VecInit(true.B, sel_iccm_data, true.B, true.B)
|
val ic_final_data = if(ICCM_ICACHE) Fill(64, sel_byp_data | fetch_req_iccm_f | sel_ic_data) & io.ic.rd_data else
|
||||||
val final_data_out1 = VecInit(io.ic.rd_data, ic_byp_data_only_new, io.ic.rd_data, ic_byp_data_only_new)
|
if (ICCM_ONLY) (Fill(64, sel_byp_data) & ic_byp_data_only_new) | (Fill(64, fetch_req_iccm_f) & io.iccm.rd_data) else
|
||||||
val final_data_out2 = VecInit(1.U, io.iccm.rd_data, 1.U, 1.U)
|
|
||||||
val ic_final_data = if(ICCM_ICACHE) Fill(64, sel_byp_data | sel_iccm_data | sel_ic_data) & io.ic.rd_data else
|
|
||||||
if (ICCM_ONLY) (Fill(64, sel_byp_data) & ic_byp_data_only_new) | (Fill(64, sel_iccm_data) & io.iccm.rd_data) else
|
|
||||||
if (ICACHE_ONLY) Fill(64, sel_byp_data | sel_ic_data) & io.ic.rd_data else
|
if (ICACHE_ONLY) Fill(64, sel_byp_data | sel_ic_data) & io.ic.rd_data else
|
||||||
if (NO_ICCM_NO_ICACHE) Fill(64, sel_byp_data) & ic_byp_data_only_new else 0.U
|
if (NO_ICCM_NO_ICACHE) Fill(64, sel_byp_data) & ic_byp_data_only_new else 0.U
|
||||||
val ic_premux_data_temp = if(ICCM_ICACHE) (Fill(64,sel_iccm_data) & io.iccm.rd_data) | (Fill(64, sel_byp_data) & ic_byp_data_only_new)
|
val ic_premux_data_temp = if(ICCM_ICACHE) (Fill(64,fetch_req_iccm_f) & io.iccm.rd_data) | (Fill(64, sel_byp_data) & ic_byp_data_only_new)
|
||||||
else if(ICACHE_ONLY) Fill(64, sel_byp_data) & ic_byp_data_only_new else 0.U
|
else if(ICACHE_ONLY) Fill(64, sel_byp_data) & ic_byp_data_only_new else 0.U
|
||||||
val ic_sel_premux_data_temp = if(ICCM_ICACHE) sel_iccm_data | sel_byp_data else if(ICACHE_ONLY) sel_byp_data else 0.U
|
val ic_sel_premux_data_temp = if(ICCM_ICACHE) fetch_req_iccm_f | sel_byp_data else if(ICACHE_ONLY) sel_byp_data else 0.U
|
||||||
io.ic.premux_data := ic_premux_data_temp
|
io.ic.premux_data := ic_premux_data_temp
|
||||||
io.ic.sel_premux_data := ic_sel_premux_data_temp
|
io.ic.sel_premux_data := ic_sel_premux_data_temp
|
||||||
val ifc_bus_acc_fault_f = ic_byp_hit_f & ifu_byp_data_err_new
|
val ifc_bus_acc_fault_f = Fill(2,ic_byp_hit_f) & ifu_byp_data_err_f
|
||||||
io.ic_data_f := ic_final_data
|
io.ic_data_f := ic_final_data
|
||||||
val fetch_req_f_qual = io.ic_hit_f & !io.exu_flush_final
|
val fetch_req_f_qual = io.ic_hit_f & !io.exu_flush_final
|
||||||
val ifc_region_acc_fault_memory_f = WireInit(Bool(), 0.U)
|
val ifc_region_acc_fault_memory_f = WireInit(Bool(), 0.U)
|
||||||
io.ic_access_fault_f := (ifc_region_acc_fault_final_f | ifc_bus_acc_fault_f) & !io.exu_flush_final
|
io.ic_access_fault_f := (Fill(2,ifc_region_acc_fault_final_f) | ifc_bus_acc_fault_f) & Fill(2,!io.exu_flush_final)
|
||||||
io.ic_access_fault_type_f := Mux(io.iccm_rd_ecc_double_err.asBool, 1.U,
|
io.ic_access_fault_type_f := Mux(io.iccm_rd_ecc_double_err.orR, 1.U, Mux(ifc_region_acc_fault_f, 2.U, Mux(ifc_region_acc_fault_memory_f, 3.U, 0.U)))
|
||||||
Mux(ifc_region_acc_fault_f.asBool, 2.U,
|
|
||||||
Mux(ifc_region_acc_fault_memory_f.asBool(), 3.U, 0.U)))
|
|
||||||
io.ic_fetch_val_f := Cat(fetch_req_f_qual & io.ifu_bp_inst_mask_f & !(vaddr_f===Fill(ICACHE_BEAT_ADDR_HI,1.U)) & (err_stop_state=/=err_fetch2_C), fetch_req_f_qual)
|
io.ic_fetch_val_f := Cat(fetch_req_f_qual & io.ifu_bp_inst_mask_f & !(vaddr_f===Fill(ICACHE_BEAT_ADDR_HI,1.U)) & (err_stop_state=/=err_fetch2_C), fetch_req_f_qual)
|
||||||
val two_byte_instr = io.ic_data_f(1,0) =/= 3.U
|
val two_byte_instr = io.ic_data_f(1,0) =/= 3.U
|
||||||
//// Creating full buffer
|
//// Creating full buffer
|
||||||
val ifu_bus_rsp_rdata = WireInit(UInt(64.W), 0.U)
|
val ic_miss_buff_data_in = io.ifu_axi.r.bits.data
|
||||||
val ic_miss_buff_data_in = ifu_bus_rsp_rdata
|
val bus_ifu_wr_en = WireInit(Bool(), 0.B)
|
||||||
val ifu_bus_rsp_tag = WireInit(UInt(IFU_BUS_TAG.W), 0.U)
|
val write_fill_data = (0 until ICACHE_NUM_BEATS).map(i=>bus_ifu_wr_en & (io.ifu_axi.r.bits.id===i.U))
|
||||||
val bus_ifu_wr_en = WireInit(Bool(), false.B)
|
|
||||||
val write_fill_data = (0 until ICACHE_NUM_BEATS).map(i=>bus_ifu_wr_en & (ifu_bus_rsp_tag===i.U))
|
|
||||||
val ic_miss_buff_data = Wire(Vec(2*ICACHE_NUM_BEATS, UInt(32.W)))
|
val ic_miss_buff_data = Wire(Vec(2*ICACHE_NUM_BEATS, UInt(32.W)))
|
||||||
for(i<- 0 until ICACHE_NUM_BEATS) {
|
for(i<- 0 until ICACHE_NUM_BEATS) {
|
||||||
val wr_data_c1_clk = write_fill_data.map(rvclkhdr(clock, _ , io.scan_mode))
|
//val wr_data_c1_clk = write_fill_data.map(rvclkhdr(clock, _ , io.scan_mode))
|
||||||
ic_miss_buff_data(2*i) := withClock(wr_data_c1_clk(i)){RegNext(ic_miss_buff_data_in(31,0), 0.U)}
|
ic_miss_buff_data(2 * i) := rvdffe(ic_miss_buff_data_in(31, 0), write_fill_data(i), clock, io.scan_mode) //withClock(wr_data_c1_clk(i)){RegNext(ic_miss_buff_data_in(31,0), 0.U)}
|
||||||
ic_miss_buff_data(2*i+1) := withClock(wr_data_c1_clk(i)){RegNext(ic_miss_buff_data_in(63,32), 0.U)}}
|
ic_miss_buff_data(2 * i + 1) := rvdffe(ic_miss_buff_data_in(63, 32), write_fill_data(i), clock, io.scan_mode) //withClock(wr_data_c1_clk(i)){RegNext(ic_miss_buff_data_in(63,32), 0.U)}}
|
||||||
|
}
|
||||||
val ic_miss_buff_data_valid = WireInit(UInt(ICACHE_NUM_BEATS.W), 0.U)
|
val ic_miss_buff_data_valid = WireInit(UInt(ICACHE_NUM_BEATS.W), 0.U)
|
||||||
val ic_miss_buff_data_valid_in = (0 until ICACHE_NUM_BEATS).map(i=>write_fill_data(i)|(ic_miss_buff_data_valid(i)&(!ic_act_miss_f)))
|
val ic_miss_buff_data_valid_in = (0 until ICACHE_NUM_BEATS).map(i=>write_fill_data(i)|(ic_miss_buff_data_valid(i)&(!ic_act_miss_f)))
|
||||||
ic_miss_buff_data_valid := withClock(io.free_clk){RegNext(ic_miss_buff_data_valid_in.map(i=>i.asUInt()).reverse.reduce(Cat(_,_)), 0.U)}
|
ic_miss_buff_data_valid := withClock(io.active_clk){RegNext(ic_miss_buff_data_valid_in.map(i=>i.asUInt()).reverse.reduce(Cat(_,_)), 0.U)}
|
||||||
val bus_ifu_wr_data_error = WireInit(Bool(), 0.U)
|
val bus_ifu_wr_data_error = WireInit(Bool(), 0.U)
|
||||||
val ic_miss_buff_data_error = WireInit(UInt(ICACHE_NUM_BEATS.W), 0.U)
|
val ic_miss_buff_data_error = WireInit(UInt(ICACHE_NUM_BEATS.W), 0.U)
|
||||||
val ic_miss_buff_data_error_in =(0 until ICACHE_NUM_BEATS).map(i=>Mux(write_fill_data(i).asBool,bus_ifu_wr_data_error,
|
val ic_miss_buff_data_error_in =(0 until ICACHE_NUM_BEATS).map(i=>Mux(write_fill_data(i).asBool,bus_ifu_wr_data_error,
|
||||||
ic_miss_buff_data_error(i) & !ic_act_miss_f))
|
ic_miss_buff_data_error(i) & !ic_act_miss_f))
|
||||||
ic_miss_buff_data_error := withClock(io.free_clk){RegNext(ic_miss_buff_data_error_in.reverse.reduce(Cat(_,_)), 0.U)}
|
ic_miss_buff_data_error := withClock(io.active_clk){RegNext(ic_miss_buff_data_error_in.reverse.reduce(Cat(_,_)), 0.U)}
|
||||||
|
|
||||||
// New Bypass ready
|
// New Bypass ready
|
||||||
val bypass_index = imb_ff(ICACHE_BEAT_ADDR_HI-1, 0)
|
val bypass_index = imb_ff(ICACHE_BEAT_ADDR_HI-1, 0)
|
||||||
|
@ -339,7 +329,7 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val ic_crit_wd_rdy_new_in = (bypass_data_ready_in & crit_wd_byp_ok_ff & uncacheable_miss_ff & !io.exu_flush_final & !ifu_bp_hit_taken_q_f) |
|
val ic_crit_wd_rdy_new_in = (bypass_data_ready_in & crit_wd_byp_ok_ff & uncacheable_miss_ff & !io.exu_flush_final & !ifu_bp_hit_taken_q_f) |
|
||||||
( crit_wd_byp_ok_ff & !uncacheable_miss_ff & !io.exu_flush_final & !ifu_bp_hit_taken_q_f) |
|
( crit_wd_byp_ok_ff & !uncacheable_miss_ff & !io.exu_flush_final & !ifu_bp_hit_taken_q_f) |
|
||||||
(ic_crit_wd_rdy_new_ff & crit_wd_byp_ok_ff & !fetch_req_icache_f & !io.exu_flush_final)
|
(ic_crit_wd_rdy_new_ff & crit_wd_byp_ok_ff & !fetch_req_icache_f & !io.exu_flush_final)
|
||||||
ic_crit_wd_rdy_new_ff := withClock(io.free_clk){RegNext(ic_crit_wd_rdy_new_in, 0.U)}
|
ic_crit_wd_rdy_new_ff := rvdffie(ic_crit_wd_rdy_new_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(ic_crit_wd_rdy_new_in, 0.U)}
|
||||||
val byp_fetch_index = ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,0)
|
val byp_fetch_index = ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,0)
|
||||||
val byp_fetch_index_0 = Cat(ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,2), 0.U)
|
val byp_fetch_index_0 = Cat(ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,2), 0.U)
|
||||||
val byp_fetch_index_1 = Cat(ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,2), 1.U)
|
val byp_fetch_index_1 = Cat(ifu_fetch_addr_int_f(ICACHE_BEAT_ADDR_HI-1,2), 1.U)
|
||||||
|
@ -348,19 +338,18 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val byp_fetch_index_inc_1 = Cat(byp_fetch_index_inc, 1.U)
|
val byp_fetch_index_inc_1 = Cat(byp_fetch_index_inc, 1.U)
|
||||||
val ic_miss_buff_data_error_bypass = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(bypass_index(ICACHE_BEAT_ADDR_HI-1,2)===i.U).asBool->ic_miss_buff_data_error(i)))
|
val ic_miss_buff_data_error_bypass = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(bypass_index(ICACHE_BEAT_ADDR_HI-1,2)===i.U).asBool->ic_miss_buff_data_error(i)))
|
||||||
val ic_miss_buff_data_error_bypass_inc = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc===i.U).asBool->ic_miss_buff_data_error(i)))
|
val ic_miss_buff_data_error_bypass_inc = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc===i.U).asBool->ic_miss_buff_data_error(i)))
|
||||||
ifu_byp_data_err_new := (!ifu_fetch_addr_int_f(1) & !ifu_fetch_addr_int_f(0) & ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2))) |
|
val miss_wrap_f = WireInit(Bool(),0.B)
|
||||||
(!ifu_fetch_addr_int_f(1) & ifu_fetch_addr_int_f(0) & ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2))) |
|
ifu_byp_data_err_f := Mux(ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2) ) , 3.U,
|
||||||
(!ifu_fetch_addr_int_f(1) & ifu_fetch_addr_int_f(0) & ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2))) |
|
Mux((ifu_fetch_addr_int_f(1) & ifu_fetch_addr_int_f(0) & ~(ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2))) &
|
||||||
( ifu_fetch_addr_int_f(1) & !ifu_fetch_addr_int_f(0) & ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2))) |
|
(~miss_wrap_f & ic_miss_buff_data_error(byp_fetch_index_inc))), 2.U, 0.U))
|
||||||
(ifu_fetch_addr_int_f(1) & ifu_fetch_addr_int_f(0) & (ic_miss_buff_data_error(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2)) |
|
|
||||||
ic_miss_buff_data_error(byp_fetch_index_inc(ICACHE_BEAT_ADDR_HI-3,0))))
|
|
||||||
val ic_byp_data_only_pre_new = Mux(!ifu_fetch_addr_int_f(1).asBool,
|
val ic_byp_data_only_pre_new = Mux(!ifu_fetch_addr_int_f(1).asBool,
|
||||||
Cat(Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_0===i.U).asBool->ic_miss_buff_data(i)(15,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_1===i.U).asBool->ic_miss_buff_data(i)(31,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_0===i.U).asBool->ic_miss_buff_data(i)(31,0)))),
|
Cat(Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_0===i.U).asBool->ic_miss_buff_data(i)(15,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_1===i.U).asBool->ic_miss_buff_data(i)(31,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_0===i.U).asBool->ic_miss_buff_data(i)(31,0)))),
|
||||||
Cat(Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_1===i.U).asBool->ic_miss_buff_data(i)(15,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_0===i.U).asBool->ic_miss_buff_data(i)(31,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_1===i.U).asBool->ic_miss_buff_data(i)(31,0)))))
|
Cat(Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_1===i.U).asBool->ic_miss_buff_data(i)(15,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc_0===i.U).asBool->ic_miss_buff_data(i)(31,0))), Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_1===i.U).asBool->ic_miss_buff_data(i)(31,0)))))
|
||||||
|
|
||||||
ic_byp_data_only_new := Mux(!ifu_fetch_addr_int_f(0).asBool(),ic_byp_data_only_pre_new,Cat(0.U(16.W),ic_byp_data_only_pre_new(79,16)))
|
ic_byp_data_only_new := Mux(!ifu_fetch_addr_int_f(0).asBool(),ic_byp_data_only_pre_new,Cat(0.U(16.W),ic_byp_data_only_pre_new(79,16)))
|
||||||
|
|
||||||
val miss_wrap_f = imb_ff(ICACHE_TAG_INDEX_LO-1) =/= ifu_fetch_addr_int_f(ICACHE_TAG_INDEX_LO-1)
|
miss_wrap_f := imb_ff(ICACHE_TAG_INDEX_LO-1) =/= ifu_fetch_addr_int_f(ICACHE_TAG_INDEX_LO-1)
|
||||||
val ic_miss_buff_data_valid_bypass_index = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2)===i.U).asBool->ic_miss_buff_data_valid(i)))
|
val ic_miss_buff_data_valid_bypass_index = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index(ICACHE_BEAT_ADDR_HI-1,2)===i.U).asBool->ic_miss_buff_data_valid(i)))
|
||||||
val ic_miss_buff_data_valid_inc_bypass_index = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc===i.U).asBool->ic_miss_buff_data_valid(i)))
|
val ic_miss_buff_data_valid_inc_bypass_index = Mux1H((0 until ICACHE_NUM_BEATS).map(i=>(byp_fetch_index_inc===i.U).asBool->ic_miss_buff_data_valid(i)))
|
||||||
val miss_buff_hit_unq_f = (ic_miss_buff_data_valid_bypass_index & !byp_fetch_index(1) & !byp_fetch_index(0)) |
|
val miss_buff_hit_unq_f = (ic_miss_buff_data_valid_bypass_index & !byp_fetch_index(1) & !byp_fetch_index(0)) |
|
||||||
|
@ -382,23 +371,23 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(Cat(other_tag,0.U)===i.U).asBool->ic_miss_buff_data(i))))
|
Mux1H((0 until 2*ICACHE_NUM_BEATS).map(i=>(Cat(other_tag,0.U)===i.U).asBool->ic_miss_buff_data(i))))
|
||||||
|
|
||||||
// Parity check for the I$ logic
|
// Parity check for the I$ logic
|
||||||
ic_rd_parity_final_err := io.ic.tag_perr & sel_ic_data & !(ifc_region_acc_fault_final_f | ifc_bus_acc_fault_f)
|
ic_rd_parity_final_err := io.ic.tag_perr & !io.exu_flush_final & sel_ic_data & !(ifc_region_acc_fault_final_f | (ifc_bus_acc_fault_f.orR)) &
|
||||||
|
(fetch_req_icache_f & !reset_all_tags & (!miss_pending | (miss_state===hit_u_miss_C)) & !sel_mb_addr_ff);
|
||||||
|
|
||||||
val ifu_ic_rw_int_addr_ff = WireInit(UInt((ICACHE_INDEX_HI-ICACHE_TAG_INDEX_LO+1).W), 0.U)
|
val ifu_ic_rw_int_addr_ff = WireInit(UInt((ICACHE_INDEX_HI-ICACHE_TAG_INDEX_LO+1).W), 0.U)
|
||||||
|
|
||||||
val perr_sb_write_status = WireInit(Bool(), false.B)
|
val perr_sb_write_status = WireInit(Bool(), 0.B)
|
||||||
val perr_ic_index_ff = withClock(io.active_clk){RegEnable(ifu_ic_rw_int_addr_ff, 0.U, perr_sb_write_status)}
|
val perr_ic_index_ff = rvdffe(ifu_ic_rw_int_addr_ff,perr_sb_write_status,clock,io.scan_mode)//withClock(io.active_clk){RegEnable(ifu_ic_rw_int_addr_ff, 0.U, perr_sb_write_status)}
|
||||||
val perr_sel_invalidate = WireInit(Bool(), false.B)
|
val perr_sel_invalidate = WireInit(Bool(), 0.B)
|
||||||
val perr_err_inv_way = Fill(ICACHE_NUM_WAYS, perr_sel_invalidate)
|
val perr_err_inv_way = Fill(ICACHE_NUM_WAYS, perr_sel_invalidate)
|
||||||
iccm_correct_ecc := perr_state === ecc_cor_C
|
iccm_correct_ecc := perr_state === ecc_cor_C
|
||||||
val dma_sb_err_state = perr_state === dma_sb_err_C
|
val dma_sb_err_state_ff = rvdffie(perr_state === dma_sb_err_C,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
val dma_sb_err_state_ff = Wire(Bool())
|
|
||||||
io.iccm.buf_correct_ecc := iccm_correct_ecc & !dma_sb_err_state_ff
|
io.iccm.buf_correct_ecc := iccm_correct_ecc & !dma_sb_err_state_ff
|
||||||
dma_sb_err_state_ff := withClock(io.active_clk){RegNext(dma_sb_err_state, false.B)}
|
|
||||||
|
|
||||||
///////////////////////////////// PARITY ERROR FSM /////////////////////////////////
|
///////////////////////////////// PARITY ERROR FSM /////////////////////////////////
|
||||||
val perr_nxtstate = WireInit(UInt(3.W), 0.U)
|
val perr_nxtstate = WireInit(UInt(3.W), 0.U)
|
||||||
val perr_state_en = WireInit(Bool(), false.B)
|
val perr_state_en = WireInit(Bool(), 0.B)
|
||||||
val iccm_error_start = WireInit(Bool(), false.B)
|
val iccm_error_start = if(ICCM_ENABLE) io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err else 0.U
|
||||||
switch(perr_state){
|
switch(perr_state){
|
||||||
is(err_idle_C){
|
is(err_idle_C){
|
||||||
perr_nxtstate := Mux(io.iccm_dma_sb_error, dma_sb_err_C, Mux((io.dec_mem_ctrl.ifu_ic_error_start & !io.exu_flush_final).asBool, ic_wff_C, ecc_wff_C))
|
perr_nxtstate := Mux(io.iccm_dma_sb_error, dma_sb_err_C, Mux((io.dec_mem_ctrl.ifu_ic_error_start & !io.exu_flush_final).asBool, ic_wff_C, ecc_wff_C))
|
||||||
|
@ -416,18 +405,18 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
}
|
}
|
||||||
is(dma_sb_err_C){
|
is(dma_sb_err_C){
|
||||||
perr_nxtstate := Mux(io.dec_mem_ctrl.dec_tlu_force_halt, err_idle_C, ecc_cor_C)
|
perr_nxtstate := Mux(io.dec_mem_ctrl.dec_tlu_force_halt, err_idle_C, ecc_cor_C)
|
||||||
perr_state_en := true.B
|
perr_state_en := 1.B
|
||||||
}
|
}
|
||||||
is(ecc_cor_C){
|
is(ecc_cor_C){
|
||||||
perr_nxtstate := err_idle_C
|
perr_nxtstate := err_idle_C
|
||||||
perr_state_en := true.B
|
perr_state_en := 1.B
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
perr_state := withClock(io.free_clk){RegEnable(perr_nxtstate, 0.U, perr_state_en)}
|
perr_state := withClock(io.active_clk){RegEnable(perr_nxtstate, 0.U, perr_state_en)}
|
||||||
///////////////////////////////// STOP FETCH FSM /////////////////////////////////
|
///////////////////////////////// STOP FETCH FSM /////////////////////////////////
|
||||||
val err_stop_nxtstate = WireInit(UInt(2.W), 0.U)
|
val err_stop_nxtstate = WireInit(UInt(2.W), 0.U)
|
||||||
val err_stop_state_en = WireInit(Bool(), false.B)
|
val err_stop_state_en = WireInit(Bool(), 0.B)
|
||||||
io.iccm.correction_state := false.B
|
io.iccm.correction_state := 0.B
|
||||||
switch(err_stop_state){
|
switch(err_stop_state){
|
||||||
is(err_stop_idle_C){
|
is(err_stop_idle_C){
|
||||||
err_stop_nxtstate := err_fetch1_C
|
err_stop_nxtstate := err_fetch1_C
|
||||||
|
@ -439,190 +428,167 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
Mux(io.ifu_fetch_val(0).asBool(), err_fetch2_C, err_fetch1_C)))
|
Mux(io.ifu_fetch_val(0).asBool(), err_fetch2_C, err_fetch1_C)))
|
||||||
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.ifu_fetch_val(0) | ifu_bp_hit_taken_q_f | io.dec_mem_ctrl.dec_tlu_force_halt
|
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.ifu_fetch_val(0) | ifu_bp_hit_taken_q_f | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
err_stop_fetch := ((io.ifu_fetch_val(1,0)===3.U) | (io.ifu_fetch_val(0) & two_byte_instr)) & !(io.exu_flush_final | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt)
|
err_stop_fetch := ((io.ifu_fetch_val(1,0)===3.U) | (io.ifu_fetch_val(0) & two_byte_instr)) & !(io.exu_flush_final | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt)
|
||||||
io.iccm.correction_state := true.B
|
io.iccm.correction_state := 1.B
|
||||||
}
|
}
|
||||||
is(err_fetch2_C){
|
is(err_fetch2_C){
|
||||||
err_stop_nxtstate := Mux((io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt).asBool,
|
err_stop_nxtstate := Mux((io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt).asBool,
|
||||||
err_stop_idle_C, Mux(io.ifu_fetch_val(0).asBool, err_stop_fetch_C, err_fetch2_C))
|
err_stop_idle_C, Mux(io.ifu_fetch_val(0).asBool, err_stop_fetch_C, err_fetch2_C))
|
||||||
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.ifu_fetch_val(0) | io.dec_mem_ctrl.dec_tlu_force_halt
|
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.ifu_fetch_val(0) | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
err_stop_fetch := io.ifu_fetch_val(0) & !io.exu_flush_final & !io.dec_mem_ctrl.dec_tlu_i0_commit_cmt
|
err_stop_fetch := io.ifu_fetch_val(0) & !io.exu_flush_final & !io.dec_mem_ctrl.dec_tlu_i0_commit_cmt
|
||||||
io.iccm.correction_state := true.B
|
io.iccm.correction_state := 1.B
|
||||||
}
|
}
|
||||||
is(err_stop_fetch_C){
|
is(err_stop_fetch_C){
|
||||||
err_stop_nxtstate := Mux(((io.dec_tlu_flush_lower_wb & !io.dec_mem_ctrl.dec_tlu_flush_err_wb) | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt).asBool,
|
err_stop_nxtstate := Mux(((io.dec_tlu_flush_lower_wb & !io.dec_mem_ctrl.dec_tlu_flush_err_wb) | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt).asBool,
|
||||||
err_stop_idle_C, Mux(io.dec_mem_ctrl.dec_tlu_flush_err_wb.asBool(), err_fetch1_C, err_stop_fetch_C))
|
err_stop_idle_C, Mux(io.dec_mem_ctrl.dec_tlu_flush_err_wb.asBool(), err_fetch1_C, err_stop_fetch_C))
|
||||||
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt
|
err_stop_state_en := io.dec_tlu_flush_lower_wb | io.dec_mem_ctrl.dec_tlu_i0_commit_cmt | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
err_stop_fetch := true.B
|
err_stop_fetch := 1.B
|
||||||
io.iccm.correction_state := true.B
|
io.iccm.correction_state := 1.B
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
err_stop_state := withClock(io.free_clk){RegEnable(err_stop_nxtstate, 0.U, err_stop_state_en)}
|
err_stop_state := withClock(io.active_clk){RegEnable(err_stop_nxtstate, 0.U, err_stop_state_en)}
|
||||||
bus_ifu_bus_clk_en := io.ifu_bus_clk_en
|
bus_ifu_bus_clk_en := io.ifu_bus_clk_en
|
||||||
val busclk = rvclkhdr(clock, bus_ifu_bus_clk_en, io.scan_mode)
|
|
||||||
val busclk_force = rvclkhdr(clock, bus_ifu_bus_clk_en | io.dec_mem_ctrl.dec_tlu_force_halt , io.scan_mode)
|
val busclk = if(RV_FPGA_OPTIMIZE) 0.B.asClock() else rvclkhdr(clock, bus_ifu_bus_clk_en, io.scan_mode)
|
||||||
val bus_ifu_bus_clk_en_ff = withClock(io.free_clk){RegNext(bus_ifu_bus_clk_en, 0.U)}
|
val busclk_force = if(RV_FPGA_OPTIMIZE) 0.B.asClock() else rvclkhdr(clock, bus_ifu_bus_clk_en | io.dec_mem_ctrl.dec_tlu_force_halt , io.scan_mode)
|
||||||
scnd_miss_req_q := withClock(io.free_clk){RegNext(scnd_miss_req_in, 0.U)}
|
|
||||||
val scnd_miss_req_ff2 = withClock(io.free_clk){RegNext(scnd_miss_req, 0.U)}
|
|
||||||
|
|
||||||
|
val bus_ifu_bus_clk_en_ff = rvdffie(bus_ifu_bus_clk_en,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(bus_ifu_bus_clk_en, 0.U)}
|
||||||
|
scnd_miss_req_q := rvdffie(scnd_miss_req_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(scnd_miss_req_in, 0.U)}
|
||||||
scnd_miss_req := scnd_miss_req_q & (!io.exu_flush_final)
|
scnd_miss_req := scnd_miss_req_q & (!io.exu_flush_final)
|
||||||
val bus_cmd_req_hold = WireInit(Bool(), false.B)
|
val bus_cmd_req_hold = WireInit(Bool(), 0.B)
|
||||||
val ifu_bus_cmd_valid = WireInit(Bool(), false.B)
|
val ifu_bus_cmd_valid = WireInit(Bool(), 0.B)
|
||||||
val bus_cmd_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
val bus_cmd_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
||||||
val ifu_bus_cmd_ready = WireInit(Bool(), false.B)
|
val ifc_bus_ic_req_ff_in = (ic_act_miss_f | bus_cmd_req_hold | ifu_bus_cmd_valid) & !io.dec_mem_ctrl.dec_tlu_force_halt & !((bus_cmd_beat_count===Fill(ICACHE_BEAT_BITS,1.U)) & ifu_bus_cmd_valid & io.ifu_axi.ar.ready & miss_pending)
|
||||||
val ifc_bus_ic_req_ff_in = (ic_act_miss_f | bus_cmd_req_hold | ifu_bus_cmd_valid) & !io.dec_mem_ctrl.dec_tlu_force_halt & !((bus_cmd_beat_count===Fill(ICACHE_BEAT_BITS,1.U)) & ifu_bus_cmd_valid & ifu_bus_cmd_ready & miss_pending)
|
ifu_bus_cmd_valid := rvdff_fpga(ifc_bus_ic_req_ff_in,busclk_force,bus_ifu_bus_clk_en | io.dec_mem_ctrl.dec_tlu_force_halt,clock)//withClock(busclk_force){RegNext(ifc_bus_ic_req_ff_in, 0.U)}
|
||||||
ifu_bus_cmd_valid := withClock(busclk_force){RegNext(ifc_bus_ic_req_ff_in, 0.U)}
|
val bus_cmd_sent = WireInit(Bool(), 0.B)
|
||||||
val bus_cmd_sent = WireInit(Bool(), false.B)
|
|
||||||
val bus_cmd_req_in = (ic_act_miss_f | bus_cmd_req_hold) & !bus_cmd_sent & !io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_cmd_req_in = (ic_act_miss_f | bus_cmd_req_hold) & !bus_cmd_sent & !io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
bus_cmd_req_hold := withClock(io.free_clk){RegNext(bus_cmd_req_in, false.B)}
|
bus_cmd_req_hold := rvdffie(bus_cmd_req_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(bus_cmd_req_in, false.B)}
|
||||||
// AXI Read-Channel
|
// AXI Read-Channel
|
||||||
io.ifu_axi.w.valid := 0.U
|
io.ifu_axi <> 0.U.asTypeOf(io.ifu_axi)
|
||||||
io.ifu_axi.w.bits.data := 0.U
|
io.ifu_axi.ar.bits.prot := 5.U
|
||||||
io.ifu_axi.aw.bits.qos := 0.U
|
|
||||||
io.ifu_axi.aw.bits.addr := 0.U
|
|
||||||
io.ifu_axi.aw.bits.prot := 0.U
|
|
||||||
io.ifu_axi.aw.bits.len := 0.U
|
|
||||||
io.ifu_axi.ar.bits.lock := 0.U
|
|
||||||
io.ifu_axi.aw.bits.region := 0.U
|
|
||||||
io.ifu_axi.aw.bits.id := 0.U
|
|
||||||
io.ifu_axi.aw.valid := 0.U
|
|
||||||
io.ifu_axi.w.bits.strb := 0.U
|
|
||||||
io.ifu_axi.aw.bits.cache := 0.U
|
|
||||||
io.ifu_axi.ar.bits.qos := 0.U
|
|
||||||
io.ifu_axi.aw.bits.lock := 0.U
|
|
||||||
io.ifu_axi.b.ready := 0.U
|
|
||||||
io.ifu_axi.ar.bits.len := 0.U
|
|
||||||
io.ifu_axi.aw.bits.size := 0.U
|
|
||||||
io.ifu_axi.ar.bits.prot := 0.U
|
|
||||||
io.ifu_axi.aw.bits.burst := 0.U
|
|
||||||
io.ifu_axi.w.bits.last := 0.U
|
|
||||||
io.ifu_axi.ar.valid := ifu_bus_cmd_valid
|
io.ifu_axi.ar.valid := ifu_bus_cmd_valid
|
||||||
io.ifu_axi.ar.bits.id := bus_rd_addr_count & Fill(IFU_BUS_TAG, ifu_bus_cmd_valid)
|
io.ifu_axi.ar.bits.id := bus_rd_addr_count & Fill(IFU_BUS_TAG, ifu_bus_cmd_valid)
|
||||||
io.ifu_axi.ar.bits.addr := Cat(ifu_ic_req_addr_f, 0.U(3.W)) & Fill(32, ifu_bus_cmd_valid)
|
io.ifu_axi.ar.bits.addr := Cat(ifu_ic_req_addr_f, 0.U(3.W)) & Fill(32, ifu_bus_cmd_valid)
|
||||||
io.ifu_axi.ar.bits.size := 3.U(3.W)
|
io.ifu_axi.ar.bits.size := 3.U
|
||||||
io.ifu_axi.ar.bits.cache := 15.U
|
io.ifu_axi.ar.bits.cache := 15.U
|
||||||
io.ifu_axi.ar.bits.region := ifu_ic_req_addr_f(28,25)
|
io.ifu_axi.ar.bits.region := ifu_ic_req_addr_f(28,25)
|
||||||
io.ifu_axi.ar.bits.burst := 1.U
|
io.ifu_axi.ar.bits.burst := 1.U
|
||||||
io.ifu_axi.r.ready := true.B
|
io.ifu_axi.r.ready := 1.B
|
||||||
|
|
||||||
val ifu_bus_arready_unq = io.ifu_axi.ar.ready
|
val ifu_bus_arready_unq_ff = rvdff_fpga(io.ifu_axi.ar.ready,busclk,bus_ifu_bus_clk_en,clock)//withClock(busclk){RegNext(io.ifu_axi.ar.ready, false.B)}
|
||||||
val ifu_bus_rvalid_unq = io.ifu_axi.r.valid
|
val ifu_bus_rvalid_unq_ff = rvdff_fpga(io.ifu_axi.r.valid,busclk,bus_ifu_bus_clk_en,clock)//withClock(busclk){RegNext(io.ifu_axi.r.valid, false.B)}
|
||||||
val ifu_bus_arvalid = io.ifu_axi.ar.valid
|
val ifu_bus_arvalid_ff = rvdff_fpga(io.ifu_axi.ar.valid,busclk,bus_ifu_bus_clk_en,clock)//withClock(busclk){RegNext(io.ifu_axi.ar.valid, false.B)}
|
||||||
val ifu_bus_arready_unq_ff = withClock(busclk){RegNext(ifu_bus_arready_unq, false.B)}
|
val ifu_bus_rresp_ff = rvdff_fpga(io.ifu_axi.r.bits.resp,busclk,bus_ifu_bus_clk_en,clock)//withClock(busclk){RegNext(io.ifu_axi.r.bits.resp, 0.U)}
|
||||||
val ifu_bus_rvalid_unq_ff = withClock(busclk){RegNext(ifu_bus_rvalid_unq, false.B)}
|
//withClock(busclk){RegNext(io.ifu_axi.r.bits.data, 0.U)}
|
||||||
val ifu_bus_arvalid_ff = withClock(busclk){RegNext(ifu_bus_arvalid, false.B)}
|
ifu_bus_rid_ff := rvdff_fpga(io.ifu_axi.r.bits.id,busclk,bus_ifu_bus_clk_en,clock)//withClock(busclk){RegNext(io.ifu_axi.r.bits.id, 0.U)}
|
||||||
val ifu_bus_rresp_ff = withClock(busclk){RegNext(io.ifu_axi.r.bits.resp, 0.U)}
|
val ifu_bus_rvalid = io.ifu_axi.r.valid & bus_ifu_bus_clk_en
|
||||||
ifu_bus_rdata_ff := withClock(busclk){RegNext(io.ifu_axi.r.bits.data, 0.U)}
|
val ifu_bus_arready = io.ifu_axi.ar.ready & bus_ifu_bus_clk_en
|
||||||
ifu_bus_rid_ff := withClock(busclk){RegNext(io.ifu_axi.r.bits.id, 0.U)}
|
|
||||||
ifu_bus_cmd_ready := io.ifu_axi.ar.ready
|
|
||||||
ifu_bus_rsp_valid := io.ifu_axi.r.valid
|
|
||||||
ifu_bus_rsp_ready := io.ifu_axi.r.ready
|
|
||||||
ifu_bus_rsp_tag := io.ifu_axi.r.bits.id
|
|
||||||
ifu_bus_rsp_rdata := io.ifu_axi.r.bits.data
|
|
||||||
val ifu_bus_rsp_opc = io.ifu_axi.r.bits.resp
|
|
||||||
val ifu_bus_rvalid = ifu_bus_rsp_valid & bus_ifu_bus_clk_en
|
|
||||||
val ifu_bus_arready = ifu_bus_arready_unq & bus_ifu_bus_clk_en
|
|
||||||
val ifu_bus_arready_ff = ifu_bus_arready_unq_ff & bus_ifu_bus_clk_en_ff
|
val ifu_bus_arready_ff = ifu_bus_arready_unq_ff & bus_ifu_bus_clk_en_ff
|
||||||
val ifu_bus_rvalid_ff = ifu_bus_rvalid_unq_ff & bus_ifu_bus_clk_en_ff
|
val ifu_bus_rvalid_ff = ifu_bus_rvalid_unq_ff & bus_ifu_bus_clk_en_ff
|
||||||
// Write signals to write to the bus
|
// Write signals to write to the bus
|
||||||
bus_cmd_sent := ifu_bus_arvalid & ifu_bus_arready & miss_pending & !io.dec_mem_ctrl.dec_tlu_force_halt
|
bus_cmd_sent := io.ifu_axi.ar.valid & ifu_bus_arready & miss_pending & !io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_last_data_beat = WireInit(Bool(), false.B)
|
val bus_last_data_beat = WireInit(Bool(), 0.B)
|
||||||
val bus_inc_data_beat_cnt = bus_ifu_wr_en_ff & !bus_last_data_beat & !io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_inc_data_beat_cnt = bus_ifu_wr_en_ff & !bus_last_data_beat & !io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_reset_data_beat_cnt = ic_act_miss_f | (bus_ifu_wr_en_ff & bus_last_data_beat) | io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_reset_data_beat_cnt = ic_act_miss_f | (bus_ifu_wr_en_ff & bus_last_data_beat) | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_hold_data_beat_cnt = !bus_inc_data_beat_cnt & !bus_reset_data_beat_cnt
|
val bus_hold_data_beat_cnt = !bus_inc_data_beat_cnt & !bus_reset_data_beat_cnt
|
||||||
val bus_data_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
val bus_data_beat_count = WireInit(UInt(ICACHE_BEAT_BITS.W), 0.U)
|
||||||
bus_new_data_beat_count := Mux1H(Seq(bus_reset_data_beat_cnt->0.U, bus_inc_data_beat_cnt-> (bus_data_beat_count + 1.U), bus_hold_data_beat_cnt->bus_data_beat_count))
|
bus_new_data_beat_count := Mux1H(Seq(bus_reset_data_beat_cnt->0.U, bus_inc_data_beat_cnt-> (bus_data_beat_count + 1.U), bus_hold_data_beat_cnt->bus_data_beat_count))
|
||||||
bus_data_beat_count := withClock(io.free_clk){RegNext(bus_new_data_beat_count, 0.U)}
|
bus_data_beat_count := rvdffie(bus_new_data_beat_count,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(bus_new_data_beat_count, 0.U)}
|
||||||
val last_data_recieved_in = (bus_ifu_wr_en_ff & bus_last_data_beat & !scnd_miss_req) | (last_data_recieved_ff & !ic_act_miss_f)
|
val last_data_recieved_in = (bus_ifu_wr_en_ff & bus_last_data_beat & !scnd_miss_req) | (last_data_recieved_ff & !ic_act_miss_f)
|
||||||
last_data_recieved_ff := withClock(io.free_clk){RegNext(last_data_recieved_in, 0.U)}
|
last_data_recieved_ff := rvdffie(last_data_recieved_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(last_data_recieved_in, 0.U)}
|
||||||
// Request Address Count
|
// Request Address Count
|
||||||
val bus_new_rd_addr_count = Mux(!miss_pending, imb_ff(ICACHE_BEAT_ADDR_HI-1, 2),
|
val bus_new_rd_addr_count = Mux(!miss_pending, imb_ff(ICACHE_BEAT_ADDR_HI-1, 2),
|
||||||
Mux(scnd_miss_req_q, imb_scnd_ff(ICACHE_BEAT_ADDR_HI-1, 2),
|
Mux(scnd_miss_req_q, imb_scnd_ff(ICACHE_BEAT_ADDR_HI-1, 2),
|
||||||
Mux(bus_cmd_sent, bus_rd_addr_count + 1.U, bus_rd_addr_count)))
|
Mux(bus_cmd_sent, bus_rd_addr_count + 1.U, bus_rd_addr_count)))
|
||||||
bus_rd_addr_count := withClock(busclk_reset){RegNext(bus_new_rd_addr_count, 0.U)}
|
bus_rd_addr_count := rvdff_fpga(bus_new_rd_addr_count,busclk_reset,bus_ifu_bus_clk_en | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt,clock)//withClock(busclk_reset){RegNext(bus_new_rd_addr_count, 0.U)}
|
||||||
// Command beat Count
|
// Command beat Count
|
||||||
val bus_inc_cmd_beat_cnt = ifu_bus_cmd_valid & ifu_bus_cmd_ready & miss_pending & !io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_inc_cmd_beat_cnt = ifu_bus_cmd_valid & io.ifu_axi.ar.ready & miss_pending & !io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_reset_cmd_beat_cnt_0 = (ic_act_miss_f & !uncacheable_miss_in) | io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_reset_cmd_beat_cnt_0 = (ic_act_miss_f & !uncacheable_miss_in) | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_reset_cmd_beat_cnt_secondlast = ic_act_miss_f & uncacheable_miss_in
|
val bus_reset_cmd_beat_cnt_secondlast = ic_act_miss_f & uncacheable_miss_in
|
||||||
val bus_hold_cmd_beat_cnt = !bus_inc_cmd_beat_cnt & !(ic_act_miss_f | scnd_miss_req | io.dec_mem_ctrl.dec_tlu_force_halt)
|
val bus_hold_cmd_beat_cnt = !bus_inc_cmd_beat_cnt & !(ic_act_miss_f | scnd_miss_req | io.dec_mem_ctrl.dec_tlu_force_halt)
|
||||||
val bus_cmd_beat_en = bus_inc_cmd_beat_cnt | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt
|
val bus_cmd_beat_en = bus_inc_cmd_beat_cnt | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt
|
||||||
val bus_new_cmd_beat_count = Mux1H(Seq(bus_reset_cmd_beat_cnt_0->0.U, bus_reset_cmd_beat_cnt_secondlast.asBool->ICACHE_SCND_LAST.U,
|
val bus_new_cmd_beat_count = Mux1H(Seq(bus_reset_cmd_beat_cnt_0->0.U, bus_reset_cmd_beat_cnt_secondlast.asBool->ICACHE_SCND_LAST.U,
|
||||||
bus_inc_cmd_beat_cnt->(bus_cmd_beat_count+1.U), bus_hold_cmd_beat_cnt->bus_cmd_beat_count))
|
bus_inc_cmd_beat_cnt->(bus_cmd_beat_count+1.U), bus_hold_cmd_beat_cnt->bus_cmd_beat_count))
|
||||||
bus_cmd_beat_count := withClock(busclk_reset){RegEnable(bus_new_cmd_beat_count, 0.U, bus_cmd_beat_en)}
|
bus_cmd_beat_count := rvdffs_fpga(bus_new_cmd_beat_count,bus_cmd_beat_en,busclk_reset,bus_ifu_bus_clk_en | ic_act_miss_f | io.dec_mem_ctrl.dec_tlu_force_halt,clock)//withClock(busclk_reset){RegEnable(bus_new_cmd_beat_count, 0.U, bus_cmd_beat_en)}
|
||||||
bus_last_data_beat := Mux(uncacheable_miss_ff, bus_data_beat_count===1.U, bus_data_beat_count.andR())
|
bus_last_data_beat := Mux(uncacheable_miss_ff, bus_data_beat_count===1.U, bus_data_beat_count.andR())
|
||||||
bus_ifu_wr_en := ifu_bus_rvalid & miss_pending
|
bus_ifu_wr_en := ifu_bus_rvalid & miss_pending
|
||||||
bus_ifu_wr_en_ff := ifu_bus_rvalid_ff & miss_pending
|
bus_ifu_wr_en_ff := ifu_bus_rvalid_ff & miss_pending
|
||||||
bus_ifu_wr_en_ff_q := ifu_bus_rvalid_ff & miss_pending & !uncacheable_miss_ff & !(ifu_bus_rresp_ff.orR) & write_ic_16_bytes
|
bus_ifu_wr_en_ff_q := ifu_bus_rvalid_ff & miss_pending & !uncacheable_miss_ff & !(ifu_bus_rresp_ff.orR) & write_ic_16_bytes
|
||||||
val bus_ifu_wr_en_ff_wo_err = ifu_bus_rvalid_ff & miss_pending & !uncacheable_miss_ff
|
val bus_ifu_wr_en_ff_wo_err = ifu_bus_rvalid_ff & miss_pending & !uncacheable_miss_ff
|
||||||
val ic_act_miss_f_delayed = withClock(io.free_clk){RegNext(ic_act_miss_f, false.B)}
|
val ic_act_miss_f_delayed = rvdffie(ic_act_miss_f,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(ic_act_miss_f, false.B)}
|
||||||
reset_tag_valid_for_miss := ic_act_miss_f_delayed & (miss_state===crit_byp_ok_C) & !uncacheable_miss_ff
|
reset_tag_valid_for_miss := ic_act_miss_f_delayed & (miss_state===crit_byp_ok_C) & !uncacheable_miss_ff
|
||||||
bus_ifu_wr_data_error := ifu_bus_rsp_opc.orR() & ifu_bus_rvalid & miss_pending
|
bus_ifu_wr_data_error := io.ifu_axi.r.bits.resp.orR() & ifu_bus_rvalid & miss_pending
|
||||||
bus_ifu_wr_data_error_ff := ifu_bus_rresp_ff.orR & ifu_bus_rvalid_ff & miss_pending
|
bus_ifu_wr_data_error_ff := ifu_bus_rresp_ff.orR & ifu_bus_rvalid_ff & miss_pending
|
||||||
val ifc_dma_access_ok_d = WireInit(Bool(), false.B)
|
val ifc_dma_access_ok_d = io.ifc_dma_access_ok & !iccm_correct_ecc & !io.iccm_dma_sb_error
|
||||||
val ifc_dma_access_ok_prev = withClock(io.free_clk){RegNext(ifc_dma_access_ok_d, false.B)}
|
val ifc_dma_access_ok_prev = rvdffie(ifc_dma_access_ok_d,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(ifc_dma_access_ok_d, false.B)}
|
||||||
ic_crit_wd_rdy := ic_crit_wd_rdy_new_in | ic_crit_wd_rdy_new_ff
|
ic_crit_wd_rdy := ic_crit_wd_rdy_new_in | ic_crit_wd_rdy_new_ff
|
||||||
last_beat := bus_last_data_beat & bus_ifu_wr_en_ff
|
last_beat := bus_last_data_beat & bus_ifu_wr_en_ff
|
||||||
reset_beat_cnt := bus_reset_data_beat_cnt
|
reset_beat_cnt := bus_reset_data_beat_cnt
|
||||||
// DMA
|
// DMA
|
||||||
ifc_dma_access_ok_d := io.ifc_dma_access_ok & !iccm_correct_ecc & !io.iccm_dma_sb_error
|
|
||||||
val ifc_dma_access_q_ok = io.ifc_dma_access_ok & !iccm_correct_ecc & ifc_dma_access_ok_prev & (perr_state===err_idle_C) & !io.iccm_dma_sb_error
|
io.iccm_ready := io.ifc_dma_access_ok & !iccm_correct_ecc & ifc_dma_access_ok_prev & (perr_state===err_idle_C) & !io.iccm_dma_sb_error
|
||||||
io.iccm_ready := ifc_dma_access_q_ok
|
dma_iccm_req_f := rvdffie(io.dma_mem_ctl.dma_iccm_req,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(io.dma_mem_ctl.dma_iccm_req, false.B)}
|
||||||
dma_iccm_req_f := withClock(io.free_clk){RegNext(io.dma_mem_ctl.dma_iccm_req, false.B)}
|
io.iccm.wren := (io.iccm_ready & io.dma_mem_ctl.dma_iccm_req & io.dma_mem_ctl.dma_mem_write) | iccm_correct_ecc
|
||||||
io.iccm.wren := (ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req & io.dma_mem_ctl.dma_mem_write) | iccm_correct_ecc
|
io.iccm.rden := (io.iccm_ready & io.dma_mem_ctl.dma_iccm_req & !io.dma_mem_ctl.dma_mem_write) | (io.ifc_iccm_access_bf & io.ifc_fetch_req_bf)
|
||||||
io.iccm.rden := (ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req & !io.dma_mem_ctl.dma_mem_write) | (io.ifc_iccm_access_bf & io.ifc_fetch_req_bf)
|
val iccm_dma_rden = io.iccm_ready & io.dma_mem_ctl.dma_iccm_req & !io.dma_mem_ctl.dma_mem_write
|
||||||
val iccm_dma_rden = ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req & !io.dma_mem_ctl.dma_mem_write
|
|
||||||
io.iccm.wr_size := Fill(3, io.dma_mem_ctl.dma_iccm_req) & io.dma_mem_ctl.dma_mem_sz
|
io.iccm.wr_size := Fill(3, io.dma_mem_ctl.dma_iccm_req) & io.dma_mem_ctl.dma_mem_sz
|
||||||
|
|
||||||
val dma_mem_ecc = Cat(rvecc_encode(io.dma_mem_ctl.dma_mem_wdata(63,32)), rvecc_encode(io.dma_mem_ctl.dma_mem_wdata(31,0)))
|
val dma_mem_ecc = Cat(rvecc_encode(io.dma_mem_ctl.dma_mem_wdata(63,32)), rvecc_encode(io.dma_mem_ctl.dma_mem_wdata(31,0)))
|
||||||
val iccm_ecc_corr_data_ff = WireInit(UInt(39.W), 0.U)
|
val iccm_ecc_corr_data_ff = WireInit(UInt(39.W), 0.U)
|
||||||
io.iccm.wr_data := Mux(iccm_correct_ecc & !(ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req), Fill(2,iccm_ecc_corr_data_ff),
|
io.iccm.wr_data := Mux(iccm_correct_ecc & !(io.iccm_ready & io.dma_mem_ctl.dma_iccm_req), Fill(2,iccm_ecc_corr_data_ff),
|
||||||
Cat(dma_mem_ecc(13,7),io.dma_mem_ctl.dma_mem_wdata(63,32), dma_mem_ecc(6,0), io.dma_mem_ctl.dma_mem_wdata(31,0)))
|
Cat(dma_mem_ecc(13,7),io.dma_mem_ctl.dma_mem_wdata(63,32), dma_mem_ecc(6,0), io.dma_mem_ctl.dma_mem_wdata(31,0)))
|
||||||
val iccm_corrected_data = Wire(Vec(2, UInt(32.W)))
|
val iccm_corrected_data = Wire(Vec(2, UInt(32.W)))
|
||||||
iccm_corrected_data(0) := 0.U
|
|
||||||
iccm_corrected_data(1) := 0.U
|
|
||||||
val dma_mem_addr_ff = WireInit(UInt(2.W), 0.U)
|
val dma_mem_addr_ff = WireInit(UInt(2.W), 0.U)
|
||||||
val iccm_dma_rdata_1_muxed = Mux(dma_mem_addr_ff(0).asBool, iccm_corrected_data(0), iccm_corrected_data(1))
|
val iccm_dma_rdata_1_muxed = Mux(dma_mem_addr_ff(0).asBool, iccm_corrected_data(0), iccm_corrected_data(1))
|
||||||
val iccm_double_ecc_error = WireInit(UInt(2.W), 0.U)
|
val iccm_double_ecc_error = WireInit(UInt(2.W), 0.U)
|
||||||
val iccm_dma_ecc_error_in = iccm_double_ecc_error.orR
|
val iccm_dma_rdata_in = Mux(iccm_double_ecc_error.orR, Fill(2, io.dma_mem_ctl.dma_mem_addr), Cat(iccm_dma_rdata_1_muxed, iccm_corrected_data(0)))
|
||||||
val iccm_dma_rdata_in = Mux(iccm_dma_ecc_error_in, Fill(2, io.dma_mem_ctl.dma_mem_addr), Cat(iccm_dma_rdata_1_muxed, iccm_corrected_data(0)))
|
val dma_mem_tag_ff = rvdffie(io.dma_mem_ctl.dma_mem_tag,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(io.dma_mem_ctl.dma_mem_tag, 0.U)}
|
||||||
val dma_mem_tag_ff = withClock(io.free_clk){RegNext(io.dma_mem_ctl.dma_mem_tag, 0.U)}
|
val iccm_dma_rtag_temp = if(ICCM_ENABLE) rvdffie(dma_mem_tag_ff,io.free_l2clk,reset.asAsyncReset(),io.scan_mode) else 0.U
|
||||||
val iccm_dma_rtag_temp = if(ICCM_ENABLE) withClock(io.free_clk){RegNext(dma_mem_tag_ff, 0.U)} else 0.U
|
|
||||||
io.iccm_dma_rtag := iccm_dma_rtag_temp
|
io.iccm_dma_rtag := iccm_dma_rtag_temp
|
||||||
|
dma_mem_addr_ff := rvdffie(io.dma_mem_ctl.dma_mem_addr(3,2),io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk) {RegNext(io.dma_mem_ctl.dma_mem_addr(3,2), 0.U)}
|
||||||
dma_mem_addr_ff := withClock(io.free_clk) {RegNext(io.dma_mem_ctl.dma_mem_addr(3,2), 0.U)}
|
val iccm_dma_rvalid_in = rvdffie(iccm_dma_rden,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk) {RegNext(iccm_dma_rden, false.B)}
|
||||||
val iccm_dma_rvalid_in = withClock(io.free_clk) {RegNext(iccm_dma_rden, false.B)}
|
val iccm_dma_rvalid_temp = if(ICCM_ENABLE) rvdffie(iccm_dma_rvalid_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode) else 0.U
|
||||||
val iccm_dma_rvalid_temp = if(ICCM_ENABLE) withClock(io.free_clk){RegNext(iccm_dma_rvalid_in, false.B)} else 0.U
|
|
||||||
io.iccm_dma_rvalid := iccm_dma_rvalid_temp
|
io.iccm_dma_rvalid := iccm_dma_rvalid_temp
|
||||||
val iccm_dma_ecc_error = if(ICCM_ENABLE) withClock(io.free_clk){RegNext(iccm_dma_ecc_error_in, false.B)} else 0.U
|
val iccm_dma_ecc_error = if(ICCM_ENABLE) rvdffie(iccm_double_ecc_error.orR,io.free_l2clk,reset.asAsyncReset(),io.scan_mode) else 0.U
|
||||||
io.iccm_dma_ecc_error := iccm_dma_ecc_error
|
io.iccm_dma_ecc_error := iccm_dma_ecc_error
|
||||||
val iccm_dma_rdata_temp = if(ICCM_ENABLE) withClock(io.free_clk){RegNext(iccm_dma_rdata_in, 0.U)} else 0.U
|
val iccm_dma_rdata_temp = if(ICCM_ENABLE) rvdffe(iccm_dma_rdata_in,iccm_dma_rvalid_in,clock,io.scan_mode) else 0.U
|
||||||
io.iccm_dma_rdata := iccm_dma_rdata_temp
|
io.iccm_dma_rdata := iccm_dma_rdata_temp
|
||||||
val iccm_ecc_corr_index_ff = WireInit(UInt((ICCM_BITS-2).W), 0.U)
|
val iccm_ecc_corr_index_ff = WireInit(UInt((ICCM_BITS-2).W), 0.U)
|
||||||
io.iccm.rw_addr := Mux(ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req & !iccm_correct_ecc, io.dma_mem_ctl.dma_mem_addr(ICCM_BITS-1,1),
|
io.iccm.rw_addr := Mux(io.iccm_ready & io.dma_mem_ctl.dma_iccm_req & !iccm_correct_ecc, io.dma_mem_ctl.dma_mem_addr(ICCM_BITS-1,1),
|
||||||
Mux(!(ifc_dma_access_q_ok & io.dma_mem_ctl.dma_iccm_req) & iccm_correct_ecc, Cat(iccm_ecc_corr_index_ff, 0.U), io.ifc_fetch_addr_bf(ICCM_BITS-2,0)))
|
Mux(!(io.iccm_ready & io.dma_mem_ctl.dma_iccm_req) & iccm_correct_ecc, Cat(iccm_ecc_corr_index_ff, 0.U), io.ifc_fetch_addr_bf(ICCM_BITS-2,0)))
|
||||||
val ic_fetch_val_int_f = Cat(0.U(2.W), io.ic_fetch_val_f)
|
val ic_fetch_val_int_f = Cat(0.U(2.W), io.ic_fetch_val_f)
|
||||||
val ic_fetch_val_shift_right = ic_fetch_val_int_f << ifu_fetch_addr_int_f(0)
|
val ic_fetch_val_shift_right = ic_fetch_val_int_f << ifu_fetch_addr_int_f(0)
|
||||||
val iccm_rdmux_data = io.iccm.rd_data_ecc
|
|
||||||
// ICCM ECC Check logic
|
// ICCM ECC Check logic
|
||||||
val iccm_ecc_word_enable = (0 until 2).map(i=>((ic_fetch_val_shift_right((2*i+1),(2*i)).orR & !io.exu_flush_final & sel_iccm_data) | iccm_dma_rvalid_in) & !io.dec_mem_ctrl.dec_tlu_core_ecc_disable).reverse.reduce(Cat(_,_))
|
val iccm_ecc_word_enable = (0 until 2).map(i=>((ic_fetch_val_shift_right((2*i+1),(2*i)).orR & !io.exu_flush_final & fetch_req_iccm_f) | iccm_dma_rvalid_in) & !io.dec_mem_ctrl.dec_tlu_core_ecc_disable).reverse.reduce(Cat(_,_))
|
||||||
val ecc_decoded = (0 until 2).map(i=>rvecc_decode(iccm_ecc_word_enable(i), iccm_rdmux_data((39*i+31),(39*i)), iccm_rdmux_data((39*i+38),(39*i+32)), 0.U))
|
val ecc_decoded = (0 until 2).map(i=>rvecc_decode(iccm_ecc_word_enable(i), io.iccm.rd_data_ecc((39*i+31),(39*i)), io.iccm.rd_data_ecc((39*i+38),(39*i+32)), 0.U))
|
||||||
val iccm_corrected_ecc = Wire(Vec(2, UInt(7.W)))
|
val iccm_corrected_ecc = Wire(Vec(2, UInt(7.W)))
|
||||||
iccm_corrected_ecc := VecInit(ecc_decoded(0)._1,ecc_decoded(1)._1)
|
iccm_corrected_ecc := VecInit(ecc_decoded(0)._1,ecc_decoded(1)._1)
|
||||||
iccm_corrected_data := VecInit(ecc_decoded(0)._2,ecc_decoded(1)._2)
|
iccm_corrected_data := VecInit(ecc_decoded(0)._2,ecc_decoded(1)._2)
|
||||||
iccm_single_ecc_error := Cat(ecc_decoded(1)._3,ecc_decoded(0)._3)
|
iccm_single_ecc_error := Cat(ecc_decoded(1)._3,ecc_decoded(0)._3)
|
||||||
iccm_double_ecc_error := Cat(ecc_decoded(1)._4,ecc_decoded(0)._4)
|
iccm_double_ecc_error := Cat(ecc_decoded(1)._4,ecc_decoded(0)._4)
|
||||||
|
if(ICCM_ENABLE){
|
||||||
io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err := iccm_single_ecc_error.orR & ifc_iccm_access_f & ifc_fetch_req_f
|
io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err := iccm_single_ecc_error.orR & ifc_iccm_access_f & ifc_fetch_req_f
|
||||||
io.iccm_rd_ecc_double_err := iccm_double_ecc_error.orR & ifc_iccm_access_f
|
io.iccm_rd_ecc_double_err := Mux(!ifu_fetch_addr_int_f(0), (Cat(iccm_double_ecc_error(0), iccm_double_ecc_error(0)) ) & Fill(2,ifc_iccm_access_f),
|
||||||
|
(Cat(iccm_double_ecc_error(1), iccm_double_ecc_error(0)) ) & Fill(2,ifc_iccm_access_f))
|
||||||
|
}
|
||||||
|
else {
|
||||||
|
io.iccm_rd_ecc_double_err := 0.U
|
||||||
|
io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err := 0.U
|
||||||
|
}
|
||||||
|
|
||||||
val iccm_corrected_data_f_mux = Mux(iccm_single_ecc_error(0).asBool, iccm_corrected_data(0), iccm_corrected_data(1))
|
val iccm_corrected_data_f_mux = Mux(iccm_single_ecc_error(0).asBool, iccm_corrected_data(0), iccm_corrected_data(1))
|
||||||
val iccm_corrected_ecc_f_mux = Mux(iccm_single_ecc_error(0).asBool, iccm_corrected_ecc(0), iccm_corrected_ecc(1))
|
val iccm_corrected_ecc_f_mux = Mux(iccm_single_ecc_error(0).asBool, iccm_corrected_ecc(0), iccm_corrected_ecc(1))
|
||||||
val iccm_rd_ecc_single_err_ff = WireInit(Bool(), false.B)
|
val iccm_rd_ecc_single_err_hold_in = WireInit(Bool(),0.B)
|
||||||
|
val iccm_rd_ecc_single_err_ff = if(ICCM_ENABLE) rvdffie(iccm_rd_ecc_single_err_hold_in,io.free_l2clk,reset.asAsyncReset(),io.scan_mode) else 0.U
|
||||||
val iccm_ecc_write_status = if(ICCM_ENABLE)((io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err & !iccm_rd_ecc_single_err_ff) & !io.exu_flush_final) | io.iccm_dma_sb_error else 0.U
|
val iccm_ecc_write_status = if(ICCM_ENABLE)((io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err & !iccm_rd_ecc_single_err_ff) & !io.exu_flush_final) | io.iccm_dma_sb_error else 0.U
|
||||||
val iccm_rd_ecc_single_err_hold_in = (io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err | iccm_rd_ecc_single_err_ff) & !io.exu_flush_final
|
iccm_rd_ecc_single_err_hold_in := (io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err | iccm_rd_ecc_single_err_ff) & !io.exu_flush_final
|
||||||
iccm_error_start := io.dec_mem_ctrl.ifu_iccm_rd_ecc_single_err
|
|
||||||
val iccm_rw_addr_f = WireInit(UInt((ICCM_BITS-2).W), 0.U)
|
val iccm_rw_addr_f = WireInit(UInt((ICCM_BITS-2).W), 0.U)
|
||||||
val iccm_ecc_corr_index_in = Mux(iccm_single_ecc_error(0).asBool(), iccm_rw_addr_f, iccm_rw_addr_f + 1.U)
|
val iccm_ecc_corr_index_in = Mux(iccm_single_ecc_error(0).asBool(), iccm_rw_addr_f, iccm_rw_addr_f + 1.U)
|
||||||
iccm_rw_addr_f := withClock(io.free_clk){RegNext(io.iccm.rw_addr(ICCM_BITS-2,1), 0.U)}
|
iccm_rw_addr_f := rvdffie(io.iccm.rw_addr(ICCM_BITS-2,1),io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
iccm_rd_ecc_single_err_ff := withClock(io.free_clk){RegNext(iccm_rd_ecc_single_err_hold_in, false.B)}
|
iccm_ecc_corr_data_ff := rvdffe(Cat(iccm_corrected_ecc_f_mux, iccm_corrected_data_f_mux),iccm_ecc_write_status,clock,io.scan_mode)//withClock(io.free_clk){RegEnable(Cat(iccm_corrected_ecc_f_mux, iccm_corrected_data_f_mux), 0.U, iccm_ecc_write_status.asBool())}
|
||||||
iccm_ecc_corr_data_ff := withClock(io.free_clk){RegEnable(Cat(iccm_corrected_ecc_f_mux, iccm_corrected_data_f_mux), 0.U, iccm_ecc_write_status.asBool())}
|
if(ICCM_ENABLE) iccm_ecc_corr_index_ff := rvdffe(iccm_ecc_corr_index_in,iccm_ecc_write_status,clock,io.scan_mode) else iccm_ecc_corr_index_ff := 0.U//withClock(io.free_clk){RegEnable(iccm_ecc_corr_index_in, 0.U, iccm_ecc_write_status.asBool())}
|
||||||
iccm_ecc_corr_index_ff := withClock(io.free_clk){RegEnable(iccm_ecc_corr_index_in, 0.U, iccm_ecc_write_status.asBool())}
|
|
||||||
io.ic.rd_en := (io.ifc_fetch_req_bf & !io.ifc_fetch_uncacheable_bf & !io.ifc_iccm_access_bf &
|
io.ic.rd_en := (io.ifc_fetch_req_bf & !io.ifc_fetch_uncacheable_bf & !io.ifc_iccm_access_bf &
|
||||||
!(((miss_state===stream_C) & !miss_state_en) |
|
!(((miss_state===stream_C) & !miss_state_en) |
|
||||||
((miss_state===crit_byp_ok_C) & !miss_state_en) |
|
((miss_state===crit_byp_ok_C) & !miss_state_en) |
|
||||||
|
@ -634,66 +600,60 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
val bus_ic_wr_en = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
val bus_ic_wr_en = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
||||||
io.ic.wr_en := bus_ic_wr_en & Fill(ICACHE_NUM_WAYS, write_ic_16_bytes)
|
io.ic.wr_en := bus_ic_wr_en & Fill(ICACHE_NUM_WAYS, write_ic_16_bytes)
|
||||||
io.ic_write_stall := write_ic_16_bytes & !((((miss_state===crit_byp_ok_C) | ((miss_state===stream_C) & !(io.exu_flush_final | ifu_bp_hit_taken_q_f | stream_eol_f ))) & !(bus_ifu_wr_en_ff & last_beat & !uncacheable_miss_ff)))
|
io.ic_write_stall := write_ic_16_bytes & !((((miss_state===crit_byp_ok_C) | ((miss_state===stream_C) & !(io.exu_flush_final | ifu_bp_hit_taken_q_f | stream_eol_f ))) & !(bus_ifu_wr_en_ff & last_beat & !uncacheable_miss_ff)))
|
||||||
reset_all_tags := withClock(io.active_clk){RegNext(io.dec_mem_ctrl.dec_tlu_fence_i_wb, false.B)}
|
reset_all_tags := rvdffie(io.dec_mem_ctrl.dec_tlu_fence_i_wb,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(io.dec_mem_ctrl.dec_tlu_fence_i_wb, false.B)}
|
||||||
// I$ status and P-LRU
|
// I$ status and P-LRU
|
||||||
val ic_valid = !ifu_wr_cumulative_err_data & !(reset_ic_in | reset_ic_ff) & !reset_tag_valid_for_miss
|
val ic_valid = !ifu_wr_cumulative_err_data & !(reset_ic_in | reset_ic_ff) & !reset_tag_valid_for_miss
|
||||||
val ifu_status_wr_addr_w_debug = Mux((io.ic.debug_rd_en | io.ic.debug_wr_en) & io.ic.debug_tag_array, io.ic.debug_addr(ICACHE_INDEX_HI - 3, ICACHE_TAG_INDEX_LO - 3),
|
val ifu_status_wr_addr_w_debug = Mux((io.ic.debug_rd_en | io.ic.debug_wr_en) & io.ic.debug_tag_array, io.ic.debug_addr(ICACHE_INDEX_HI - 3, ICACHE_TAG_INDEX_LO - 3),
|
||||||
ifu_status_wr_addr(ICACHE_INDEX_HI - 1, ICACHE_TAG_INDEX_LO - 1))
|
ifu_status_wr_addr(ICACHE_INDEX_HI - 1, ICACHE_TAG_INDEX_LO - 1))
|
||||||
val ifu_status_wr_addr_ff = withClock(io.free_clk) {
|
val ifu_status_wr_addr_ff = rvdffie(ifu_status_wr_addr_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(ifu_status_wr_addr_w_debug, 0.U)
|
|
||||||
}
|
val way_status_wr_en = WireInit(Bool(), 0.B)
|
||||||
val way_status_wr_en = WireInit(Bool(), false.B)
|
|
||||||
val way_status_wr_en_w_debug = way_status_wr_en | (io.ic.debug_wr_en & io.ic.debug_tag_array)
|
val way_status_wr_en_w_debug = way_status_wr_en | (io.ic.debug_wr_en & io.ic.debug_tag_array)
|
||||||
val way_status_wr_en_ff = withClock(io.free_clk) {
|
val way_status_wr_en_ff = rvdffie(way_status_wr_en_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(way_status_wr_en_w_debug, false.B)
|
|
||||||
}
|
|
||||||
val way_status_new = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
val way_status_new = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
||||||
val way_status_new_w_debug = Mux(io.ic.debug_wr_en & io.ic.debug_tag_array,
|
val way_status_new_w_debug = Mux(io.ic.debug_wr_en & io.ic.debug_tag_array,
|
||||||
if (ICACHE_STATUS_BITS == 1) io.ic.debug_wr_data(4) else io.ic.debug_wr_data(6, 4), way_status_new)
|
if (ICACHE_STATUS_BITS == 1) io.ic.debug_wr_data(4) else io.ic.debug_wr_data(6, 4), way_status_new)
|
||||||
val way_status_new_ff = withClock(io.free_clk) {
|
val way_status_new_ff = rvdffie(way_status_new_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(way_status_new_w_debug, 0.U)
|
|
||||||
}
|
|
||||||
val way_status_clken = (0 until ICACHE_TAG_DEPTH / 8).map(i => ifu_status_wr_addr_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 3) === i.U)
|
val way_status_clken = (0 until ICACHE_TAG_DEPTH / 8).map(i => ifu_status_wr_addr_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 3) === i.U)
|
||||||
val way_status_clk = way_status_clken.map(rvclkhdr(clock, _, io.scan_mode))
|
val way_status_clk = if(RV_FPGA_OPTIMIZE) way_status_clken.map(rvclkhdr(clock, _, io.scan_mode)) else (0 until ICACHE_TAG_DEPTH/8).map(i=>0.B.asClock())
|
||||||
val way_status_out = Wire(Vec(ICACHE_TAG_DEPTH, UInt(ICACHE_STATUS_BITS.W)))
|
val way_status_out = Wire(Vec(ICACHE_TAG_DEPTH, UInt(ICACHE_STATUS_BITS.W)))
|
||||||
for (i <- 0 until ICACHE_TAG_DEPTH / 8; j <- 0 until 8)
|
for (i <- 0 until ICACHE_TAG_DEPTH / 8; j <- 0 until 8)
|
||||||
way_status_out((8 * i) + j) := withClock(way_status_clk(i)){RegEnable(way_status_new_ff, 0.U, (ifu_status_wr_addr_ff(2,0)===j.U) & way_status_wr_en_ff)}
|
way_status_out((8 * i) + j) := rvdffs_fpga(way_status_new_ff,(ifu_status_wr_addr_ff(2,0)===j.U) & way_status_wr_en_ff,way_status_clk(i),way_status_clken(i),clock)//withClock(way_status_clk(i)){RegEnable(way_status_new_ff, 0.U, (ifu_status_wr_addr_ff(2,0)===j.U) & way_status_wr_en_ff)}
|
||||||
val test_way_status_out = (0 until ICACHE_TAG_DEPTH).map(i=>way_status_out(i).asUInt).reverse.reduce(Cat(_,_))
|
val test_way_status_out = (0 until ICACHE_TAG_DEPTH).map(i=>way_status_out(i).asUInt).reverse.reduce(Cat(_,_))
|
||||||
// io.test_way_status_out := test_way_status_out
|
// io.test_way_status_out := test_way_status_out
|
||||||
val test_way_status_clken = (0 until ICACHE_TAG_DEPTH/8).map(i=>way_status_clken(i).asUInt()).reverse.reduce(Cat(_,_))
|
val test_way_status_clken = (0 until ICACHE_TAG_DEPTH/8).map(i=>way_status_clken(i).asUInt()).reverse.reduce(Cat(_,_))
|
||||||
//io.test_way_status_clken := test_way_status_clken
|
//io.test_way_status_clken := test_way_status_clken
|
||||||
way_status := Mux1H((0 until ICACHE_TAG_DEPTH).map(i=>(ifu_ic_rw_int_addr_ff === i.U) -> way_status_out(i)))
|
way_status := Mux1H((0 until ICACHE_TAG_DEPTH).map(i=>(ifu_ic_rw_int_addr_ff === i.U) -> way_status_out(i)))
|
||||||
val ifu_ic_rw_int_addr_w_debug = Mux((io.ic.debug_rd_en | io.ic.debug_wr_en) & io.ic.debug_tag_array,
|
val ifu_ic_rw_int_addr_w_debug = Mux((io.ic.debug_rd_en | io.ic.debug_wr_en) & io.ic.debug_tag_array,
|
||||||
io.ic.debug_addr(ICACHE_INDEX_HI - 3, ICACHE_TAG_INDEX_LO - 3), ifu_ic_rw_int_addr(ICACHE_INDEX_HI - 1, ICACHE_TAG_INDEX_LO - 1))
|
io.ic.debug_addr(ICACHE_INDEX_HI - 3, ICACHE_TAG_INDEX_LO - 3), io.ic.rw_addr(ICACHE_INDEX_HI - 1, ICACHE_TAG_INDEX_LO - 1))
|
||||||
ifu_ic_rw_int_addr_ff := withClock(io.free_clk) {
|
ifu_ic_rw_int_addr_ff := rvdffie(ifu_ic_rw_int_addr_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(ifu_ic_rw_int_addr_w_debug, 0.U)
|
// withClock(io.free_clk) {
|
||||||
}
|
// RegNext(ifu_ic_rw_int_addr_w_debug, 0.U)
|
||||||
|
// }
|
||||||
val ifu_tag_wren = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
val ifu_tag_wren = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
||||||
val ic_debug_tag_wr_en = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
val ic_debug_tag_wr_en = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
||||||
val ifu_tag_wren_w_debug = ifu_tag_wren | ic_debug_tag_wr_en
|
val ifu_tag_wren_w_debug = ifu_tag_wren | ic_debug_tag_wr_en
|
||||||
val ifu_tag_wren_ff = withClock(io.free_clk) {
|
val ifu_tag_wren_ff = rvdffie(ifu_tag_wren_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(ifu_tag_wren_w_debug, 0.U)
|
|
||||||
}
|
|
||||||
val ic_valid_w_debug = Mux(io.ic.debug_wr_en & io.ic.debug_tag_array, io.ic.debug_wr_data(0), ic_valid)
|
val ic_valid_w_debug = Mux(io.ic.debug_wr_en & io.ic.debug_tag_array, io.ic.debug_wr_data(0), ic_valid)
|
||||||
val ic_valid_ff = withClock(io.free_clk) {
|
val ic_valid_ff =rvdffie(ic_valid_w_debug,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)
|
||||||
RegNext(ic_valid_w_debug, false.B)
|
|
||||||
}
|
|
||||||
val tag_valid_clken = (0 until (ICACHE_TAG_DEPTH / 32)).map(i => (0 until ICACHE_NUM_WAYS).map(j =>
|
val tag_valid_clken = (0 until (ICACHE_TAG_DEPTH / 32)).map(i => (0 until ICACHE_NUM_WAYS).map(j =>
|
||||||
if (ICACHE_TAG_DEPTH == 32) ifu_tag_wren_ff(j) | perr_err_inv_way(j) | reset_all_tags
|
if (ICACHE_TAG_DEPTH == 32) ifu_tag_wren_ff(j) | perr_err_inv_way(j) | reset_all_tags
|
||||||
else ((ifu_ic_rw_int_addr_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 5) === i.U) & ifu_tag_wren_ff(j)) |
|
else ((ifu_ic_rw_int_addr_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 5) === i.U) & ifu_tag_wren_ff(j)) |
|
||||||
((perr_ic_index_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 5) === i.U) & perr_err_inv_way(j)) |
|
((perr_ic_index_ff(ICACHE_INDEX_HI - ICACHE_TAG_INDEX_LO, 5) === i.U) & perr_err_inv_way(j)) |
|
||||||
reset_all_tags).reverse.reduce(Cat(_, _)))
|
reset_all_tags).reverse.reduce(Cat(_, _)))
|
||||||
val tag_valid_clk = (0 until ICACHE_TAG_DEPTH / 32).map(i => (0 until ICACHE_NUM_WAYS).map(j => rvclkhdr(clock, tag_valid_clken(i)(j), io.scan_mode)))
|
val tag_valid_clk = if(RV_FPGA_OPTIMIZE) (0 until ICACHE_TAG_DEPTH / 32).map(i => (0 until ICACHE_NUM_WAYS).map(j => rvclkhdr(clock, tag_valid_clken(i)(j), io.scan_mode))) else (0 until ICACHE_TAG_DEPTH / 32).map(i => (0 until ICACHE_NUM_WAYS).map(j => 0.B.asClock()))
|
||||||
val ic_tag_valid_out = Wire(Vec(ICACHE_NUM_WAYS, Vec(ICACHE_TAG_DEPTH, Bool())))
|
val ic_tag_valid_out = Wire(Vec(ICACHE_NUM_WAYS, Vec(ICACHE_TAG_DEPTH, Bool())))
|
||||||
// io.valids := Cat((0 until ICACHE_TAG_DEPTH).map(i=>ic_tag_valid_out(1)(i).asUInt()).reverse.reduce(Cat(_,_)),
|
// io.valids := Cat((0 until ICACHE_TAG_DEPTH).map(i=>ic_tag_valid_out(1)(i).asUInt()).reverse.reduce(Cat(_,_)),
|
||||||
// (0 until ICACHE_TAG_DEPTH).map(i=>ic_tag_valid_out(0)(i).asUInt()).reverse.reduce(Cat(_,_)))
|
// (0 until ICACHE_TAG_DEPTH).map(i=>ic_tag_valid_out(0)(i).asUInt()).reverse.reduce(Cat(_,_)))
|
||||||
|
|
||||||
for (i <- 0 until (ICACHE_TAG_DEPTH / 32); j <- 0 until ICACHE_NUM_WAYS; k <- 0 until 32)
|
for (i <- 0 until (ICACHE_TAG_DEPTH / 32); j <- 0 until ICACHE_NUM_WAYS; k <- 0 until 32)
|
||||||
ic_tag_valid_out(j)((32 * i) + k) := withClock(tag_valid_clk(i)(j)){RegEnable(ic_valid_ff & !reset_all_tags.asBool & !perr_sel_invalidate, false.B,
|
ic_tag_valid_out(j)((32 * i) + k) := rvdffs_fpga(ic_valid_ff & !reset_all_tags.asBool & !perr_sel_invalidate,(((ifu_ic_rw_int_addr_ff === (k + (32 * i)).U) & ifu_tag_wren_ff(j)) | ((perr_ic_index_ff === (k + (32 * i)).U) & perr_err_inv_way(j)) | reset_all_tags),tag_valid_clk(i)(j),tag_valid_clken(i)(j),clock)
|
||||||
((((ifu_ic_rw_int_addr_ff === (k + (32 * i)).U) & ifu_tag_wren_ff(j)) | ((perr_ic_index_ff === (k + (32 * i)).U) & perr_err_inv_way(j)) | reset_all_tags)).asBool)}
|
|
||||||
|
|
||||||
val ic_tag_valid_unq = if(ICACHE_ENABLE)(0 until ICACHE_NUM_WAYS).map(k => (0 until ICACHE_TAG_DEPTH).map(j =>
|
val ic_tag_valid_unq = if(ICACHE_ENABLE)(0 until ICACHE_NUM_WAYS).map(k => (0 until ICACHE_TAG_DEPTH).map(j =>
|
||||||
Mux(ifu_ic_rw_int_addr_ff === j.U, ic_tag_valid_out(k)(j), false.B).asUInt).reduce(_|_)).reverse.reduce(Cat(_,_))
|
Mux(ifu_ic_rw_int_addr_ff === j.U, ic_tag_valid_out(k)(j), 0.B).asUInt).reduce(_|_)).reverse.reduce(Cat(_,_))
|
||||||
else 0.U(ICACHE_NUM_WAYS.W)
|
else 0.U(ICACHE_NUM_WAYS.W)
|
||||||
// Making sudo LRU
|
// Making sudo LRU
|
||||||
val way_status_hit_new = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
val way_status_hit_new = WireInit(UInt(ICACHE_STATUS_BITS.W), 0.U)
|
||||||
|
@ -706,10 +666,10 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
(!tagv_mb_ff(1) & tagv_mb_ff(0))
|
(!tagv_mb_ff(1) & tagv_mb_ff(0))
|
||||||
replace_way_mb_any(0) := (!way_status_mb_ff(1) & !way_status_mb_ff(0) & tagv_mb_ff(3, 0).andR) | !tagv_mb_ff(0)
|
replace_way_mb_any(0) := (!way_status_mb_ff(1) & !way_status_mb_ff(0) & tagv_mb_ff(3, 0).andR) | !tagv_mb_ff(0)
|
||||||
|
|
||||||
way_status_hit_new := Mux1H(Seq(io.ic.rd_hit(0) -> Cat(way_status(2), 3.U),
|
way_status_hit_new := Mux1H(Seq((!io.exu_flush_final & io.ic.rd_hit(0)) -> Cat(way_status(2), 3.U),
|
||||||
io.ic.rd_hit(1) -> Cat(way_status(2), 1.U(2.W)),
|
(!io.exu_flush_final & io.ic.rd_hit(1)) -> Cat(way_status(2), 1.U(2.W)),
|
||||||
io.ic.rd_hit(2) -> Cat(1.U, way_status(1), 0.U),
|
(!io.exu_flush_final & io.ic.rd_hit(2)) -> Cat(1.U, way_status(1), 0.U),
|
||||||
io.ic.rd_hit(3) -> Cat(0.U, way_status(1), 0.U)))
|
(!io.exu_flush_final & io.ic.rd_hit(3)) -> Cat(0.U, way_status(1), 0.U)))
|
||||||
|
|
||||||
way_status_rep_new := Mux1H(Seq(replace_way_mb_any(0).asBool -> Cat(way_status_mb_ff(2), 3.U),
|
way_status_rep_new := Mux1H(Seq(replace_way_mb_any(0).asBool -> Cat(way_status_mb_ff(2), 3.U),
|
||||||
replace_way_mb_any(1).asBool -> Cat(way_status_mb_ff(2), 1.U(2.W)),
|
replace_way_mb_any(1).asBool -> Cat(way_status_mb_ff(2), 1.U(2.W)),
|
||||||
|
@ -739,16 +699,16 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
way_status_new := 0.U
|
way_status_new := 0.U
|
||||||
way_status_wr_en := 0.U
|
way_status_wr_en := 0.U
|
||||||
}
|
}
|
||||||
io.ic.tag_valid := ic_tag_valid_unq & Fill(ICACHE_NUM_WAYS, !fetch_uncacheable_ff & ifc_fetch_req_f)
|
io.ic.tag_valid := ic_tag_valid_unq & Fill(ICACHE_NUM_WAYS, !fetch_uncacheable_ff & ifc_fetch_req_f_raw)
|
||||||
|
|
||||||
val ic_debug_way_ff = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
val ic_debug_way_ff = WireInit(UInt(ICACHE_NUM_WAYS.W), 0.U)
|
||||||
ic_debug_tag_val_rd_out := (ic_tag_valid_unq & (ic_debug_way_ff & Fill(ICACHE_NUM_WAYS, ic_debug_rd_en_ff))).orR()
|
ic_debug_tag_val_rd_out := (ic_tag_valid_unq & (ic_debug_way_ff & Fill(ICACHE_NUM_WAYS, ic_debug_rd_en_ff))).orR()
|
||||||
|
|
||||||
io.dec_mem_ctrl.ifu_pmu_ic_miss := withClock(io.active_clk){RegNext(ic_act_miss_f, false.B)}
|
io.dec_mem_ctrl.ifu_pmu_ic_miss := rvdffie(ic_act_miss_f,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ic_act_miss_f, false.B)}
|
||||||
io.dec_mem_ctrl.ifu_pmu_ic_hit := withClock(io.active_clk){RegNext(ic_act_hit_f, false.B)}
|
io.dec_mem_ctrl.ifu_pmu_ic_hit := rvdffie(ic_act_hit_f,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ic_act_hit_f, false.B)}
|
||||||
io.dec_mem_ctrl.ifu_pmu_bus_error := withClock(io.active_clk){RegNext(ifc_bus_acc_fault_f, false.B)}
|
io.dec_mem_ctrl.ifu_pmu_bus_error := rvdffie(ifc_bus_acc_fault_f.orR,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ifc_bus_acc_fault_f.orR, false.B)}
|
||||||
io.dec_mem_ctrl.ifu_pmu_bus_busy := withClock(io.active_clk){RegNext(ifu_bus_arvalid_ff & !ifu_bus_arready_ff & miss_pending, false.B)}
|
io.dec_mem_ctrl.ifu_pmu_bus_busy := rvdffie(ifu_bus_arvalid_ff & !ifu_bus_arready_ff & miss_pending,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ifu_bus_arvalid_ff & !ifu_bus_arready_ff & miss_pending, false.B)}
|
||||||
io.dec_mem_ctrl.ifu_pmu_bus_trxn := withClock(io.active_clk){RegNext(bus_cmd_sent, false.B)}
|
io.dec_mem_ctrl.ifu_pmu_bus_trxn := rvdffie(bus_cmd_sent,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(bus_cmd_sent, false.B)}
|
||||||
|
|
||||||
|
|
||||||
io.ic.debug_addr := io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics
|
io.ic.debug_addr := io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics
|
||||||
|
@ -759,10 +719,10 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics(15,14)===1.U, io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics(15,14)===0.U)
|
io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics(15,14)===1.U, io.dec_mem_ctrl.dec_tlu_ic_diag_pkt.icache_dicawics(15,14)===0.U)
|
||||||
ic_debug_tag_wr_en := Fill(ICACHE_NUM_WAYS, io.ic.debug_wr_en & io.ic.debug_tag_array) & io.ic.debug_way
|
ic_debug_tag_wr_en := Fill(ICACHE_NUM_WAYS, io.ic.debug_wr_en & io.ic.debug_tag_array) & io.ic.debug_way
|
||||||
val ic_debug_ict_array_sel_in = io.ic.debug_rd_en & io.ic.debug_tag_array
|
val ic_debug_ict_array_sel_in = io.ic.debug_rd_en & io.ic.debug_tag_array
|
||||||
ic_debug_way_ff := withClock(debug_c1_clk){RegNext(io.ic.debug_way, 0.U)}
|
ic_debug_way_ff := rvdff_fpga(io.ic.debug_way,debug_c1_clk,debug_c1_clken,clock)//withClock(debug_c1_clk){RegNext(io.ic.debug_way, 0.U)}
|
||||||
ic_debug_ict_array_sel_ff := withClock(debug_c1_clk){RegNext(ic_debug_ict_array_sel_in, 0.U)}
|
ic_debug_ict_array_sel_ff := rvdff_fpga(ic_debug_ict_array_sel_in,debug_c1_clk,debug_c1_clken,clock)//withClock(debug_c1_clk){RegNext(ic_debug_ict_array_sel_in, 0.U)}
|
||||||
ic_debug_rd_en_ff := withClock(io.free_clk){RegNext(io.ic.debug_rd_en, false.B)}
|
ic_debug_rd_en_ff := rvdffie(io.ic.debug_rd_en,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.free_clk){RegNext(io.ic.debug_rd_en, false.B)}
|
||||||
io.dec_mem_ctrl.ifu_ic_debug_rd_data_valid := withClock(io.free_clk){RegNext(ic_debug_rd_en_ff, 0.U)}
|
io.dec_mem_ctrl.ifu_ic_debug_rd_data_valid := rvdffie(ic_debug_rd_en_ff,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ic_debug_rd_en_ff, 0.U)}
|
||||||
// Memory protection each access enable with its Mask
|
// Memory protection each access enable with its Mask
|
||||||
val ifc_region_acc_okay = !(Cat(INST_ACCESS_ENABLE0.U,INST_ACCESS_ENABLE1.U,INST_ACCESS_ENABLE2.U,INST_ACCESS_ENABLE3.U,INST_ACCESS_ENABLE4.U,INST_ACCESS_ENABLE5.U,INST_ACCESS_ENABLE6.U,INST_ACCESS_ENABLE7.U).orR()) |
|
val ifc_region_acc_okay = !(Cat(INST_ACCESS_ENABLE0.U,INST_ACCESS_ENABLE1.U,INST_ACCESS_ENABLE2.U,INST_ACCESS_ENABLE3.U,INST_ACCESS_ENABLE4.U,INST_ACCESS_ENABLE5.U,INST_ACCESS_ENABLE6.U,INST_ACCESS_ENABLE7.U).orR()) |
|
||||||
(INST_ACCESS_ENABLE0.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK0).U) === (aslong(INST_ACCESS_ADDR0).U | aslong(INST_ACCESS_MASK0).U))) |
|
(INST_ACCESS_ENABLE0.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK0).U) === (aslong(INST_ACCESS_ADDR0).U | aslong(INST_ACCESS_MASK0).U))) |
|
||||||
|
@ -773,9 +733,13 @@ class ifu_mem_ctl extends Module with lib with RequireAsyncReset {
|
||||||
(INST_ACCESS_ENABLE5.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK5).U) === (aslong(INST_ACCESS_ADDR5).U | aslong(INST_ACCESS_MASK5).U))) |
|
(INST_ACCESS_ENABLE5.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK5).U) === (aslong(INST_ACCESS_ADDR5).U | aslong(INST_ACCESS_MASK5).U))) |
|
||||||
(INST_ACCESS_ENABLE6.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK6).U) === (aslong(INST_ACCESS_ADDR6).U | aslong(INST_ACCESS_MASK6).U))) |
|
(INST_ACCESS_ENABLE6.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK6).U) === (aslong(INST_ACCESS_ADDR6).U | aslong(INST_ACCESS_MASK6).U))) |
|
||||||
(INST_ACCESS_ENABLE7.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK7).U) === (aslong(INST_ACCESS_ADDR7).U | aslong(INST_ACCESS_MASK7).U)))
|
(INST_ACCESS_ENABLE7.U & ((Cat(io.ifc_fetch_addr_bf, 0.U) | aslong(INST_ACCESS_MASK7).U) === (aslong(INST_ACCESS_ADDR7).U | aslong(INST_ACCESS_MASK7).U)))
|
||||||
|
dontTouch(ifc_region_acc_okay)
|
||||||
val ifc_region_acc_fault_memory_bf = !io.ifc_iccm_access_bf & !ifc_region_acc_okay & io.ifc_fetch_req_bf
|
val ifc_region_acc_fault_memory_bf = !io.ifc_iccm_access_bf & !ifc_region_acc_okay & io.ifc_fetch_req_bf
|
||||||
ifc_region_acc_fault_final_bf := io.ifc_region_acc_fault_bf | ifc_region_acc_fault_memory_bf
|
ifc_region_acc_fault_final_bf := io.ifc_region_acc_fault_bf | ifc_region_acc_fault_memory_bf
|
||||||
ifc_region_acc_fault_memory_f := withClock(io.free_clk){RegNext(ifc_region_acc_fault_memory_bf, false.B)}
|
ifc_region_acc_fault_memory_f := rvdffie(ifc_region_acc_fault_memory_bf,io.free_l2clk,reset.asAsyncReset(),io.scan_mode)//withClock(io.active_clk){RegNext(ifc_region_acc_fault_memory_bf, false.B)}
|
||||||
|
|
||||||
}
|
}
|
||||||
|
|
||||||
|
//object ifumem_ctl extends App {
|
||||||
|
// println((new chisel3.stage.ChiselStage).emitVerilog(new ifu_mem_ctl()))
|
||||||
|
//}
|
||||||
|
|
|
@ -381,6 +381,11 @@ trait lib extends param{
|
||||||
withClock(rawclk) {RegEnable (din, 0.U, clken)}
|
withClock(rawclk) {RegEnable (din, 0.U, clken)}
|
||||||
else withClock(clk) {RegNext (din, 0.U)}
|
else withClock(clk) {RegNext (din, 0.U)}
|
||||||
}
|
}
|
||||||
|
def apply(din: Bool, clk: Clock, clken: Bool,rawclk:Clock) = {
|
||||||
|
if (RV_FPGA_OPTIMIZE)
|
||||||
|
withClock(rawclk) {RegEnable (din, 0.B, clken)}
|
||||||
|
else withClock(clk) {RegNext (din, 0.B)}
|
||||||
|
}
|
||||||
}
|
}
|
||||||
object rvdffs_fpga {
|
object rvdffs_fpga {
|
||||||
def apply(din: UInt, en:Bool,clk: Clock, clken: Bool,rawclk:Clock) = {
|
def apply(din: UInt, en:Bool,clk: Clock, clken: Bool,rawclk:Clock) = {
|
||||||
|
|
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Binary file not shown.
Loading…
Reference in New Issue