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| author | Josh Blum <josh@joshknows.com> | 2010-11-16 09:13:40 -0800 |
|---|---|---|
| committer | Josh Blum <josh@joshknows.com> | 2010-11-23 19:06:58 -0800 |
| commit | ef7368a1f3595a3be6795ef743a4cbb062a7dcaa (patch) | |
| tree | 4cc7f1fcbe01fe2bede0a66bc2676e2a41b20d9a /usrp2 | |
| parent | 8b0e11fe0d0794d05c9e111b53a14b55499bbc54 (diff) | |
| download | uhd-ef7368a1f3595a3be6795ef743a4cbb062a7dcaa.tar.gz uhd-ef7368a1f3595a3be6795ef743a4cbb062a7dcaa.tar.bz2 uhd-ef7368a1f3595a3be6795ef743a4cbb062a7dcaa.zip | |
packet_router: collapsed inspector states, fixed terminology for cpu inp vs out
Diffstat (limited to 'usrp2')
| -rw-r--r-- | usrp2/fifo/packet_router.v | 324 |
1 files changed, 161 insertions, 163 deletions
diff --git a/usrp2/fifo/packet_router.v b/usrp2/fifo/packet_router.v index 6f0de3164..6f1df6540 100644 --- a/usrp2/fifo/packet_router.v +++ b/usrp2/fifo/packet_router.v @@ -66,18 +66,18 @@ module packet_router //////////////////////////////////////////////////////////////////// // status and control handshakes //////////////////////////////////////////////////////////////////// - wire cpu_inp_hs_ctrl = control[0]; - wire cpu_out_hs_ctrl = control[1]; - wire [BUF_SIZE-1:0] cpu_out_line_count = control[BUF_SIZE-1+16:0+16]; + wire cpu_out_hs_ctrl = control[0]; + wire cpu_inp_hs_ctrl = control[1]; + wire [BUF_SIZE-1:0] cpu_inp_line_count = control[BUF_SIZE-1+16:0+16]; - wire cpu_inp_hs_stat; - assign status[0] = cpu_inp_hs_stat; + wire cpu_out_hs_stat; + assign status[0] = cpu_out_hs_stat; - wire [BUF_SIZE-1:0] cpu_inp_line_count; - assign status[BUF_SIZE-1+16:0+16] = cpu_inp_line_count; + wire [BUF_SIZE-1:0] cpu_out_line_count; + assign status[BUF_SIZE-1+16:0+16] = cpu_out_line_count; - wire cpu_out_hs_stat; - assign status[1] = cpu_out_hs_stat; + wire cpu_inp_hs_stat; + assign status[1] = cpu_inp_hs_stat; //////////////////////////////////////////////////////////////////// // Communication input source combiner @@ -112,238 +112,251 @@ module packet_router // - combine streams from dsp framer, com inspector, and cpu //////////////////////////////////////////////////////////////////// //TODO: just connect com output to cpu output for now - assign com_out_data = cpu_out_data; - assign com_out_valid = cpu_out_valid; - assign cpu_out_ready = com_out_ready; + assign com_out_data = cpu_inp_data; + assign com_out_valid = cpu_inp_valid; + assign cpu_inp_ready = com_out_ready; //////////////////////////////////////////////////////////////////// - // Interface CPU input interface to memory mapped wishbone + // Interface CPU output to memory mapped wishbone //////////////////////////////////////////////////////////////////// - localparam CPU_INP_STATE_WAIT_SOF = 0; - localparam CPU_INP_STATE_WAIT_EOF = 1; - localparam CPU_INP_STATE_WAIT_CTRL_HI = 2; - localparam CPU_INP_STATE_WAIT_CTRL_LO = 3; + localparam CPU_OUT_STATE_WAIT_SOF = 0; + localparam CPU_OUT_STATE_WAIT_EOF = 1; + localparam CPU_OUT_STATE_WAIT_CTRL_HI = 2; + localparam CPU_OUT_STATE_WAIT_CTRL_LO = 3; - reg [1:0] cpu_inp_state; - reg [BUF_SIZE-1:0] cpu_inp_addr; - assign cpu_inp_line_count = cpu_inp_addr; - wire [BUF_SIZE-1:0] cpu_inp_addr_next = cpu_inp_addr + 1'b1; + reg [1:0] cpu_out_state; + reg [BUF_SIZE-1:0] cpu_out_addr; + assign cpu_out_line_count = cpu_out_addr; + wire [BUF_SIZE-1:0] cpu_out_addr_next = cpu_out_addr + 1'b1; - wire cpu_inp_reading = ( - cpu_inp_state == CPU_INP_STATE_WAIT_SOF || - cpu_inp_state == CPU_INP_STATE_WAIT_EOF + wire cpu_out_reading = ( + cpu_out_state == CPU_OUT_STATE_WAIT_SOF || + cpu_out_state == CPU_OUT_STATE_WAIT_EOF )? 1'b1 : 1'b0; - wire cpu_inp_we = cpu_inp_reading; - assign cpu_inp_ready = cpu_inp_reading; - assign cpu_inp_hs_stat = (cpu_inp_state == CPU_INP_STATE_WAIT_CTRL_HI)? 1'b1 : 1'b0; + wire cpu_out_we = cpu_out_reading; + assign cpu_out_ready = cpu_out_reading; + assign cpu_out_hs_stat = (cpu_out_state == CPU_OUT_STATE_WAIT_CTRL_HI)? 1'b1 : 1'b0; - RAMB16_S36_S36 cpu_inp_buff( + RAMB16_S36_S36 cpu_out_buff( //port A = wishbone memory mapped address space (output only) .DOA(wb_dat_o),.ADDRA(wb_adr_i[BUF_SIZE+1:2]),.CLKA(wb_clk_i),.DIA(36'b0),.DIPA(4'h0), .ENA(wb_stb_i & (which_buf == 1'b0)),.SSRA(0),.WEA(wb_we_i), //port B = packet router interface to CPU (input only) - .DOB(),.ADDRB(cpu_inp_addr),.CLKB(stream_clk),.DIB(cpu_inp_data),.DIPB(4'h0), - .ENB(cpu_inp_we),.SSRB(0),.WEB(cpu_inp_we) + .DOB(),.ADDRB(cpu_out_addr),.CLKB(stream_clk),.DIB(cpu_out_data),.DIPB(4'h0), + .ENB(cpu_out_we),.SSRB(0),.WEB(cpu_out_we) ); always @(posedge stream_clk) if(stream_rst) begin - cpu_inp_state <= CPU_INP_STATE_WAIT_SOF; - cpu_inp_addr <= 0; + cpu_out_state <= CPU_OUT_STATE_WAIT_SOF; + cpu_out_addr <= 0; end else begin - case(cpu_inp_state) - CPU_INP_STATE_WAIT_SOF: begin - if (cpu_inp_ready & cpu_inp_valid & (cpu_inp_data[32] == 1'b1)) begin - cpu_inp_state <= CPU_INP_STATE_WAIT_EOF; - cpu_inp_addr <= cpu_inp_addr_next; + case(cpu_out_state) + CPU_OUT_STATE_WAIT_SOF: begin + if (cpu_out_ready & cpu_out_valid & (cpu_out_data[32] == 1'b1)) begin + cpu_out_state <= CPU_OUT_STATE_WAIT_EOF; + cpu_out_addr <= cpu_out_addr_next; end end - CPU_INP_STATE_WAIT_EOF: begin - if (cpu_inp_ready & cpu_inp_valid & (cpu_inp_data[33] == 1'b1)) begin - cpu_inp_state <= CPU_INP_STATE_WAIT_CTRL_HI; + CPU_OUT_STATE_WAIT_EOF: begin + if (cpu_out_ready & cpu_out_valid & (cpu_out_data[33] == 1'b1)) begin + cpu_out_state <= CPU_OUT_STATE_WAIT_CTRL_HI; end - if (cpu_inp_ready & cpu_inp_valid) begin - cpu_inp_addr <= cpu_inp_addr_next; + if (cpu_out_ready & cpu_out_valid) begin + cpu_out_addr <= cpu_out_addr_next; end end - CPU_INP_STATE_WAIT_CTRL_HI: begin - if (cpu_inp_hs_ctrl == 1'b1) begin - cpu_inp_state <= CPU_INP_STATE_WAIT_CTRL_LO; + CPU_OUT_STATE_WAIT_CTRL_HI: begin + if (cpu_out_hs_ctrl == 1'b1) begin + cpu_out_state <= CPU_OUT_STATE_WAIT_CTRL_LO; end end - CPU_INP_STATE_WAIT_CTRL_LO: begin - if (cpu_inp_hs_ctrl == 1'b0) begin - cpu_inp_state <= CPU_INP_STATE_WAIT_SOF; + CPU_OUT_STATE_WAIT_CTRL_LO: begin + if (cpu_out_hs_ctrl == 1'b0) begin + cpu_out_state <= CPU_OUT_STATE_WAIT_SOF; end - cpu_inp_addr <= 0; //reset the address counter + cpu_out_addr <= 0; //reset the address counter end - endcase //cpu_inp_state + endcase //cpu_out_state end //////////////////////////////////////////////////////////////////// - // Interface CPU output interface to memory mapped wishbone + // Interface CPU input to memory mapped wishbone //////////////////////////////////////////////////////////////////// - localparam CPU_OUT_STATE_WAIT_CTRL_HI = 0; - localparam CPU_OUT_STATE_WAIT_CTRL_LO = 1; - localparam CPU_OUT_STATE_UNLOAD = 2; + localparam CPU_INP_STATE_WAIT_CTRL_HI = 0; + localparam CPU_INP_STATE_WAIT_CTRL_LO = 1; + localparam CPU_INP_STATE_UNLOAD = 2; - reg [1:0] cpu_out_state; - reg [BUF_SIZE-1:0] cpu_out_addr; - wire [BUF_SIZE-1:0] cpu_out_addr_next = cpu_out_addr + 1'b1; + reg [1:0] cpu_inp_state; + reg [BUF_SIZE-1:0] cpu_inp_addr; + wire [BUF_SIZE-1:0] cpu_inp_addr_next = cpu_inp_addr + 1'b1; - reg [BUF_SIZE-1:0] cpu_out_line_count_reg; + reg [BUF_SIZE-1:0] cpu_inp_line_count_reg; - reg cpu_out_flag_sof; - reg cpu_out_flag_eof; - assign cpu_out_data[35:32] = {2'b0, cpu_out_flag_eof, cpu_out_flag_sof}; + reg cpu_inp_flag_sof; + reg cpu_inp_flag_eof; + assign cpu_inp_data[35:32] = {2'b0, cpu_inp_flag_eof, cpu_inp_flag_sof}; - assign cpu_out_valid = (cpu_out_state == CPU_OUT_STATE_UNLOAD)? 1'b1 : 1'b0; - assign cpu_out_hs_stat = (cpu_out_state == CPU_OUT_STATE_WAIT_CTRL_HI)? 1'b1 : 1'b0; + assign cpu_inp_valid = (cpu_inp_state == CPU_INP_STATE_UNLOAD)? 1'b1 : 1'b0; + assign cpu_inp_hs_stat = (cpu_inp_state == CPU_INP_STATE_WAIT_CTRL_HI)? 1'b1 : 1'b0; - RAMB16_S36_S36 cpu_out_buff( + RAMB16_S36_S36 cpu_inp_buff( //port A = wishbone memory mapped address space (input only) .DOA(),.ADDRA(wb_adr_i[BUF_SIZE+1:2]),.CLKA(wb_clk_i),.DIA(wb_dat_i),.DIPA(4'h0), .ENA(wb_stb_i & (which_buf == 1'b1)),.SSRA(0),.WEA(wb_we_i), //port B = packet router interface from CPU (output only) - .DOB(cpu_out_data[31:0]),.ADDRB(cpu_out_addr),.CLKB(stream_clk),.DIB(36'b0),.DIPB(4'h0), + .DOB(cpu_inp_data[31:0]),.ADDRB(cpu_inp_addr),.CLKB(stream_clk),.DIB(36'b0),.DIPB(4'h0), .ENB(1'b1),.SSRB(0),.WEB(1'b0) ); always @(posedge stream_clk) if(stream_rst) begin - cpu_out_state <= CPU_OUT_STATE_WAIT_CTRL_HI; - cpu_out_addr <= 0; + cpu_inp_state <= CPU_INP_STATE_WAIT_CTRL_HI; + cpu_inp_addr <= 0; end else begin - case(cpu_out_state) - CPU_OUT_STATE_WAIT_CTRL_HI: begin - if (cpu_out_hs_ctrl == 1'b1) begin - cpu_out_state <= CPU_OUT_STATE_WAIT_CTRL_LO; + case(cpu_inp_state) + CPU_INP_STATE_WAIT_CTRL_HI: begin + if (cpu_inp_hs_ctrl == 1'b1) begin + cpu_inp_state <= CPU_INP_STATE_WAIT_CTRL_LO; end - cpu_out_line_count_reg <= cpu_out_line_count; - cpu_out_addr <= 0; //reset the address counter + cpu_inp_line_count_reg <= cpu_inp_line_count; + cpu_inp_addr <= 0; //reset the address counter end - CPU_OUT_STATE_WAIT_CTRL_LO: begin - if (cpu_out_hs_ctrl == 1'b0) begin - cpu_out_state <= CPU_OUT_STATE_UNLOAD; - cpu_out_addr <= cpu_out_addr_next; + CPU_INP_STATE_WAIT_CTRL_LO: begin + if (cpu_inp_hs_ctrl == 1'b0) begin + cpu_inp_state <= CPU_INP_STATE_UNLOAD; + cpu_inp_addr <= cpu_inp_addr_next; end - cpu_out_flag_sof <= 1'b1; - cpu_out_flag_eof <= 1'b0; + cpu_inp_flag_sof <= 1'b1; + cpu_inp_flag_eof <= 1'b0; end - CPU_OUT_STATE_UNLOAD: begin - if (cpu_out_ready & cpu_out_valid) begin - cpu_out_addr <= cpu_out_addr_next; - cpu_out_flag_sof <= 1'b0; - if (cpu_out_addr == cpu_out_line_count_reg) begin - cpu_out_flag_eof <= 1'b1; + CPU_INP_STATE_UNLOAD: begin + if (cpu_inp_ready & cpu_inp_valid) begin + cpu_inp_addr <= cpu_inp_addr_next; + cpu_inp_flag_sof <= 1'b0; + if (cpu_inp_addr == cpu_inp_line_count_reg) begin + cpu_inp_flag_eof <= 1'b1; end else begin - cpu_out_flag_eof <= 1'b0; + cpu_inp_flag_eof <= 1'b0; end - if (cpu_out_flag_eof) begin - cpu_out_state <= CPU_OUT_STATE_WAIT_CTRL_HI; + if (cpu_inp_flag_eof) begin + cpu_inp_state <= CPU_INP_STATE_WAIT_CTRL_HI; end end end - endcase //cpu_out_state + endcase //cpu_inp_state end //////////////////////////////////////////////////////////////////// // Communication input inspector // - inspect com input and send it to CPU, DSP, or COM //////////////////////////////////////////////////////////////////// - localparam COM_INSP_READ_COM_PRE = 0; - localparam COM_INSP_READ_COM = 1; - localparam COM_INSP_WRITE_DSP_REGS = 2; - localparam COM_INSP_WRITE_DSP_LIVE = 3; - localparam COM_INSP_WRITE_CPU_REGS = 4; - localparam COM_INSP_WRITE_CPU_LIVE = 5; - //FIXME collapse the write dsp/cpu states and use another register - - localparam COM_INSP_MAX_NUM_DREGS = 13; //padded_eth + ip + udp + vrt_hdr + extra cycle + localparam COM_INSP_STATE_READ_COM_PRE = 0; + localparam COM_INSP_STATE_READ_COM = 1; + localparam COM_INSP_STATE_WRITE_REGS = 2; + localparam COM_INSP_STATE_WRITE_LIVE = 3; + + localparam COM_INSP_DEST_DSP = 0; + localparam COM_INSP_DEST_COM = 1; + localparam COM_INSP_DEST_CPU = 2; + + localparam COM_INSP_MAX_NUM_DREGS = 12; //padded_eth + ip + udp + vrt_hdr localparam COM_INSP_DREGS_DSP_OFFSET = 11; //offset to start dsp at - reg [2:0] com_insp_state; + reg [1:0] com_insp_state; + reg [1:0] com_insp_dest; reg [3:0] com_insp_dreg_count; //data registers to buffer headers wire [3:0] com_insp_dreg_count_next = com_insp_dreg_count + 1'b1; + wire com_insp_dreg_counter_done = (com_insp_dreg_count_next == COM_INSP_MAX_NUM_DREGS)? 1'b1 : 1'b0; reg [35:0] com_insp_dregs [COM_INSP_MAX_NUM_DREGS-1:0]; - wire com_inp_dregs_is_data = 1'b1 //FIXME bit inspection is wrong (representation) + //Inspection logic: + wire com_inp_dregs_is_data = 1'b1 & (com_insp_dregs[3][15:0] == 16'h800) //ethertype IPv4 & (com_insp_dregs[6][23:16] == 8'h11) //protocol UDP & (com_insp_dregs[9][15:0] == 16'd49153) //UDP data port - & (com_insp_dregs[11][31:0] != 32'h0) //VRT hdr non-zero + & (com_inp_data[31:0] != 32'h0) //VRT hdr non-zero ; - ///////////////////////////////////// - //assign output signals to CPU input - ///////////////////////////////////// - assign cpu_inp_data = (com_insp_state == COM_INSP_WRITE_CPU_REGS)? - com_insp_dregs[com_insp_dreg_count] : com_inp_data + //Inspector output flags special case: + //Inject SOF into flags at first DSP line. + wire [3:0] com_insp_out_flags = ((com_insp_dreg_count == COM_INSP_DREGS_DSP_OFFSET) & (com_insp_dest == COM_INSP_DEST_DSP))? + 4'b0001 : com_insp_dregs[com_insp_dreg_count][35:32] ; - assign cpu_inp_valid = - (com_insp_state == COM_INSP_WRITE_CPU_REGS)? 1'b1 : ( - (com_insp_state == COM_INSP_WRITE_CPU_LIVE)? com_inp_valid : ( - 1'b0)); - ///////////////////////////////////// - //assign output signals to DSP output - ///////////////////////////////////// - wire [3:0] com_insp_dsp_flags = (com_insp_dreg_count == COM_INSP_DREGS_DSP_OFFSET)? - 4'b0001 : 4'b0000 - ; - assign dsp_out_data = (com_insp_state == COM_INSP_WRITE_DSP_REGS)? - {com_insp_dsp_flags, com_insp_dregs[com_insp_dreg_count][31:0]} : com_inp_data + //The communication inspector ouput data and valid signals: + //Mux between com input and data registers based on the state. + wire [35:0] com_insp_out_data = (com_insp_state == COM_INSP_STATE_WRITE_REGS)? + {com_insp_out_flags, com_insp_dregs[com_insp_dreg_count][31:0]} : com_inp_data ; - assign dsp_out_valid = - (com_insp_state == COM_INSP_WRITE_DSP_REGS)? 1'b1 : ( - (com_insp_state == COM_INSP_WRITE_DSP_LIVE)? com_inp_valid : ( + wire com_insp_out_valid = + (com_insp_state == COM_INSP_STATE_WRITE_REGS)? 1'b1 : ( + (com_insp_state == COM_INSP_STATE_WRITE_LIVE)? com_inp_valid : ( 1'b0)); - ///////////////////////////////////// - //assign output signal to COM input - ///////////////////////////////////// + //The communication inspector ouput ready signal: + //Mux between the various destination ready signals. + wire com_insp_out_ready = + (com_insp_dest == COM_INSP_DEST_CPU)? cpu_out_ready : ( + (com_insp_dest == COM_INSP_DEST_DSP)? dsp_out_ready : ( + 1'b0)); + + //Always connected output data lines. + assign cpu_out_data = com_insp_out_data; + assign dsp_out_data = com_insp_out_data; + + //Destination output valid signals: + //Comes from inspector valid when destination is selected, and otherwise low. + assign cpu_out_valid = (com_insp_dest == COM_INSP_DEST_CPU)? com_insp_out_valid : 1'b0; + assign dsp_out_valid = (com_insp_dest == COM_INSP_DEST_DSP)? com_insp_out_valid : 1'b0; + + //The communication inspector ouput ready signal: + //Always ready when storing to data registers, + //comes from inspector ready output when live, + //and otherwise low. assign com_inp_ready = - (com_insp_state == COM_INSP_READ_COM_PRE) ? 1'b1 : ( - (com_insp_state == COM_INSP_READ_COM) ? 1'b1 : ( - (com_insp_state == COM_INSP_WRITE_DSP_LIVE)? dsp_out_ready : ( - (com_insp_state == COM_INSP_WRITE_CPU_LIVE)? cpu_inp_ready : ( - 1'b0)))); + (com_insp_state == COM_INSP_STATE_READ_COM_PRE) ? 1'b1 : ( + (com_insp_state == COM_INSP_STATE_READ_COM) ? 1'b1 : ( + (com_insp_state == COM_INSP_STATE_WRITE_LIVE) ? com_insp_out_ready : ( + 1'b0))); always @(posedge stream_clk) if(stream_rst) begin - com_insp_state <= COM_INSP_READ_COM_PRE; + com_insp_state <= COM_INSP_STATE_READ_COM_PRE; com_insp_dreg_count <= 0; end else begin case(com_insp_state) - COM_INSP_READ_COM_PRE: begin + COM_INSP_STATE_READ_COM_PRE: begin if (com_inp_ready & com_inp_valid & com_inp_data[32]) begin - com_insp_state <= COM_INSP_READ_COM; + com_insp_state <= COM_INSP_STATE_READ_COM; com_insp_dreg_count <= com_insp_dreg_count_next; com_insp_dregs[com_insp_dreg_count] <= com_inp_data; end end - COM_INSP_READ_COM: begin + COM_INSP_STATE_READ_COM: begin if (com_inp_ready & com_inp_valid) begin com_insp_dregs[com_insp_dreg_count] <= com_inp_data; - if (com_inp_dregs_is_data & (com_insp_dreg_count_next == COM_INSP_MAX_NUM_DREGS)) begin - com_insp_state <= COM_INSP_WRITE_DSP_REGS; + if (com_inp_dregs_is_data & com_insp_dreg_counter_done) begin + com_insp_dest <= COM_INSP_DEST_DSP; + com_insp_state <= COM_INSP_STATE_WRITE_REGS; com_insp_dreg_count <= COM_INSP_DREGS_DSP_OFFSET; end - else if (com_inp_data[33] | (com_insp_dreg_count_next == COM_INSP_MAX_NUM_DREGS)) begin - com_insp_state <= COM_INSP_WRITE_CPU_REGS; + else if (com_inp_data[33] | com_insp_dreg_counter_done) begin + com_insp_dest <= COM_INSP_DEST_CPU; + com_insp_state <= COM_INSP_STATE_WRITE_REGS; com_insp_dreg_count <= 0; end else begin @@ -352,40 +365,25 @@ module packet_router end end - COM_INSP_WRITE_DSP_REGS: begin - if (dsp_out_ready & dsp_out_valid) begin - com_insp_dreg_count <= com_insp_dreg_count_next; - if (com_insp_dreg_count_next == COM_INSP_MAX_NUM_DREGS) begin - com_insp_state <= COM_INSP_WRITE_DSP_LIVE; + COM_INSP_STATE_WRITE_REGS: begin + if (com_insp_out_ready & com_insp_out_valid) begin + if (com_insp_out_data[33]) begin + com_insp_state <= COM_INSP_STATE_READ_COM_PRE; com_insp_dreg_count <= 0; end - end - - end - - COM_INSP_WRITE_DSP_LIVE: begin - if (dsp_out_ready & dsp_out_valid & com_inp_data[33]) begin - com_insp_state <= COM_INSP_READ_COM_PRE; - end - end - - COM_INSP_WRITE_CPU_REGS: begin - if (cpu_inp_ready & cpu_inp_valid) begin - com_insp_dreg_count <= com_insp_dreg_count_next; - if (cpu_inp_data[33]) begin - com_insp_state <= COM_INSP_READ_COM_PRE; + else if (com_insp_dreg_counter_done) begin + com_insp_state <= COM_INSP_STATE_WRITE_LIVE; com_insp_dreg_count <= 0; end - else if (com_insp_dreg_count_next == COM_INSP_MAX_NUM_DREGS) begin - com_insp_state <= COM_INSP_WRITE_CPU_LIVE; - com_insp_dreg_count <= 0; + else begin + com_insp_dreg_count <= com_insp_dreg_count_next; end end end - COM_INSP_WRITE_CPU_LIVE: begin - if (cpu_inp_ready & cpu_inp_valid & com_inp_data[33]) begin - com_insp_state <= COM_INSP_READ_COM_PRE; + COM_INSP_STATE_WRITE_LIVE: begin + if (com_insp_out_ready & com_insp_out_valid & com_insp_out_data[33]) begin + com_insp_state <= COM_INSP_STATE_READ_COM_PRE; end end |