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author | michael-west <michael.west@ettus.com> | 2021-07-26 13:48:34 -0700 |
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committer | Aaron Rossetto <aaron.rossetto@ni.com> | 2021-08-10 15:19:32 -0500 |
commit | 1fecf446e0358aa2b6a2d1f73a0daeac516435a0 (patch) | |
tree | 26570f0483adc70fc3e4f521284943dee9f311b6 /fpga/usrp3 | |
parent | 807987361f2ba3df3562c24f579d02010ca47172 (diff) | |
download | uhd-1fecf446e0358aa2b6a2d1f73a0daeac516435a0.tar.gz uhd-1fecf446e0358aa2b6a2d1f73a0daeac516435a0.tar.bz2 uhd-1fecf446e0358aa2b6a2d1f73a0daeac516435a0.zip |
fpga: Fix sc16 to sc12 converter
Re-wrote converter to remove clock cycle delay on i_tready when handling
residual output and fixed improper handling of tlast during residual
data processing. Resolves some USB overflow issues when using sc12 data
type on B200 devices.
Signed-off-by: michael-west <michael.west@ettus.com>
Diffstat (limited to 'fpga/usrp3')
-rw-r--r-- | fpga/usrp3/lib/vita_200/chdr_16sc_to_12sc.v | 142 |
1 files changed, 80 insertions, 62 deletions
diff --git a/fpga/usrp3/lib/vita_200/chdr_16sc_to_12sc.v b/fpga/usrp3/lib/vita_200/chdr_16sc_to_12sc.v index 7f595ee12..23c66accf 100644 --- a/fpga/usrp3/lib/vita_200/chdr_16sc_to_12sc.v +++ b/fpga/usrp3/lib/vita_200/chdr_16sc_to_12sc.v @@ -22,7 +22,7 @@ module chdr_16sc_to_12sc input i_tvalid, output i_tready, // Output CHDR bus - output reg [63:0] o_tdata, + output [63:0] o_tdata, output o_tlast, output o_tvalid, input o_tready, @@ -46,17 +46,21 @@ module chdr_16sc_to_12sc wire [16:0] round_q2; wire [16:0] round_i2; + reg [63:0] curr_word; + // Pipeline register - reg [63:0] line_buff; + reg [63:0] buff; + reg buff_tvalid; + reg buff_tlast; // CHDR has either 8 bytes of header or 16 if VITA time is included. - wire [15:0] chdr_header_lines = chdr_has_time? 16 : 8; + wire [15:0] chdr_header_bytes = chdr_has_time? 16 : 8; // Calculate size of samples input in bytes by taking CHDR size filed and subtracting header length. - wire [15:0] sample_byte_count_in = i_tdata[47:32] - chdr_header_lines; + wire [15:0] sample_byte_count_in = i_tdata[47:32] - chdr_header_bytes; // Calculate size of samples to be output by taking input size and scaling by 3/4 wire [15:0] sample_byte_count_out = (sample_byte_count_in*3) >> 2; // Calculate size of output CHDR packet by adding back header size to new payload size. - wire [15:0] output_chdr_pkt_size = sample_byte_count_out + chdr_header_lines; + wire [15:0] output_chdr_pkt_size = sample_byte_count_out + chdr_header_bytes; reg odd; @@ -75,36 +79,64 @@ module chdr_16sc_to_12sc localparam SAMPLE2 = 3'd3; localparam SAMPLE3 = 3'd4; localparam SAMPLE4 = 3'd5; - localparam RESIDUAL = 3'd6; reg [2:0] state; always @(posedge clk) if (reset) begin state <= HEADER; - line_buff <= 0; + buff <= 64'd0; + buff_tvalid <= 1'd0; + buff_tlast <= 1'd0; end else begin case(state) + // // Process header // Check for timestamp. Byte count conversion is done above. + // If there is residual data in the buffer, store the header and + // output the line in the buffer. If not, output the header. // HEADER: begin if (i_tvalid & i_tready) begin odd <= sample_byte_count_in [2]; - // If the input packet had time, then add time to output packet - state <= (i_tdata[61])? TIME: SAMPLE1; + if (buff_tvalid) begin + buff <= curr_word; + buff_tvalid <= i_tvalid; + buff_tlast <= i_tlast; + end else begin + buff <= 64'd0; + buff_tvalid <= 1'd0; + buff_tlast <= 1'd0; + end + state <= i_tlast ? HEADER : (i_tdata[61]) ? TIME : SAMPLE1; + end else if (buff_tvalid & o_tready) begin + buff <= 64'd0; + buff_tvalid <= 1'd0; + buff_tlast <= 1'd0; end end + // // Process time field + // If the header is in the buffer, output the header and + // store the timestamp. If not, output the timestamp. // TIME: begin if (i_tvalid & i_tready) begin - // If we get a premature end of line go back to searching for start of new packet. - state <= (i_tlast) ? HEADER: SAMPLE1; + if (buff_tvalid) begin + buff <= curr_word; + buff_tvalid <= i_tvalid; + buff_tlast <= i_tlast; + end else begin + buff <= 64'd0; + buff_tvalid <= 1'd0; + buff_tlast <= 1'd0; + end + state <= i_tlast ? HEADER: SAMPLE1; end end + // // There are 3 lines of output data for each 4 lines of input data. // The 4 sample states below represent the 4 lines of input. @@ -113,20 +145,17 @@ module chdr_16sc_to_12sc // Process first line // The 8 bytes are converted to 6 bytes, so there is not enough for an // 8-byte output line. Store the data unless this is the last line in - // the packet. + // the packet. If the timestamp is in the buffer, output it. // SAMPLE1: begin if (i_tvalid & i_tready) begin - if (i_tlast) begin - line_buff <= 0; - state <= HEADER; - end else begin - // Save data to buffer - no output - line_buff <= {q0,i0,q1,i1,16'd0}; - state <= SAMPLE2; - end + buff <= curr_word; + buff_tvalid <= i_tlast; + buff_tlast <= i_tlast; + state <= i_tlast ? HEADER : SAMPLE2; end end + // // Process second line // Output a line comprised of the 6 bytes from the fist line and @@ -134,10 +163,13 @@ module chdr_16sc_to_12sc // SAMPLE2: begin if (i_tvalid & i_tready) begin - line_buff <= {i0[7:0],q1,i1,32'd0}; - state <= i_tlast ? RESIDUAL : SAMPLE3; + buff <= {i0[7:0],q1,i1,32'd0}; + buff_tvalid <= i_tlast; + buff_tlast <= i_tlast; + state <= i_tlast ? HEADER : SAMPLE3; end end + // // Process third line // Output line comprised of the 4 remaining bytes from the second line @@ -146,13 +178,13 @@ module chdr_16sc_to_12sc // SAMPLE3: begin if (i_tvalid & i_tready) begin - line_buff <= (i_tlast & odd) ? 0 : {q1[3:0],i1,48'd0}; - if (i_tlast) - state <= odd ? HEADER : RESIDUAL; - else - state <= SAMPLE4; + buff <= {q1[3:0],i1,48'd0}; + buff_tvalid <= i_tlast & ~odd; + buff_tlast <= i_tlast & ~odd; + state <= i_tlast ? HEADER : SAMPLE4; end end + // // Process fourth line // Output line comprised of the remaining 2 bytes from the third line @@ -160,19 +192,13 @@ module chdr_16sc_to_12sc // SAMPLE4: begin if (i_tvalid & i_tready) begin - line_buff <= 0; + buff <= 64'd0; + buff_tvalid <= 1'd0; + buff_tlast <= 1'd0; state <= i_tlast ? HEADER : SAMPLE1; end end - // - // Pause input to output residual data in buffer - // - RESIDUAL: begin - if (o_tvalid & o_tready) begin - line_buff <= 0; - state <= HEADER; - end - end + // // Should never get here. // @@ -196,32 +222,24 @@ module chdr_16sc_to_12sc assign i1 = (round_i1[16:15] == 2'b01) ? 12'h3FF : ((round_i1[16:15] == 2'b10) ? 12'h800 : round_i1[15:4]); // - // Mux Output data + // Mux for current word // - always @(*) + always @(*) case(state) - // Populate header with CHDR fields - HEADER: o_tdata = {i_tdata[63:48], output_chdr_pkt_size, - set_sid ? {i_tdata[15:0], new_sid_dst[15:0]}:i_tdata[31:0]}; - // Add 64bit VITA time to packet - TIME: o_tdata = i_tdata; - // Only output if i_tlast in SAMPLE1 state - SAMPLE1: o_tdata = {q0,i0,q1, i1, 16'b0}; - SAMPLE2: o_tdata = {line_buff[63:16], q0, i0[11:8]}; - SAMPLE3: o_tdata = {line_buff[63:32], q0, i0,q1[11:4]}; - SAMPLE4: o_tdata = {line_buff[63:48], q0, i0, q1, i1}; - RESIDUAL: o_tdata = line_buff; - default : o_tdata = i_tdata; - endcase // case(state) - - - assign o_tvalid = state == RESIDUAL || (i_tvalid && - (state != SAMPLE1 || state == SAMPLE1 && i_tlast)); - - assign i_tready = (o_tready && state != RESIDUAL); - - wire need_extra_line = state == SAMPLE1 || state == SAMPLE2 || - (state == SAMPLE3 && ~odd); - assign o_tlast = state == RESIDUAL || (i_tlast & ~need_extra_line); + HEADER: curr_word <= {i_tdata[63:48], output_chdr_pkt_size, set_sid ? + {i_tdata[15:0], new_sid_dst[15:0]}:i_tdata[31:0]}; + TIME: curr_word <= i_tdata; + SAMPLE1: curr_word <= {q0,i0,q1, i1, 16'b0}; + SAMPLE2: curr_word <= {buff[63:16], q0, i0[11:8]}; + SAMPLE3: curr_word <= {buff[63:32], q0, i0,q1[11:4]}; + SAMPLE4: curr_word <= {buff[63:48], q0, i0, q1, i1}; + endcase + + assign o_tdata = buff_tvalid ? buff : curr_word; + assign o_tvalid = (state == HEADER && buff_tvalid) || (i_tvalid && + (state != SAMPLE1 || (state == SAMPLE1 && buff_tvalid))); + assign o_tlast = buff_tvalid ? buff_tlast : i_tlast && (state == HEADER || + state == TIME || (state == SAMPLE3 && odd) || state == SAMPLE4); + assign i_tready = o_tready; endmodule |