Commit d8258888 authored by Andrey Filippov's avatar Andrey Filippov

adding trigger decimation

parent 44928b65
......@@ -35,7 +35,8 @@
* contains all the components and scripts required to completely simulate it
* with at least one of the Free Software programs.
*/
parameter FPGA_VERSION = 32'h03931001; // parallel, fixing delays
parameter FPGA_VERSION = 32'h03931002; // parallel, adding camsync trigger decimation
// parameter FPGA_VERSION = 32'h03931001; // parallel, fixing delays // git commit
// parameter FPGA_VERSION = 32'h03930220; // pull down ot serial in to detect sensor presense NOT created
// parameter FPGA_VERSION = 32'h0393021f; // (ext resistor) low_pwr, DIFF_SSTL18_I pclk phase 0.0 mmcm phase -22.5 (multiple of 1.5)
// parameter FPGA_VERSION = 32'h0393021e; // internal 100ohm, low_pwr, LVDS_25 pclk phase 0.0 mmcm phase -22.5 (multiple of 1.5)
......
......@@ -958,6 +958,9 @@
parameter RTC_SEC_USEC_ADDR = 'h32, // ..'h33 address where seconds of the snapshot can be read (microseconds - next address)
parameter RTC_MASK = 'h7fc,
parameter CAMSYNC_MASK = 'h7f8,
parameter CAMSYNC_DECIMATE_ADDR = 'h714,
parameter CAMSYNC_DECIMATE_MASK = 'h7fc,
parameter CAMSYNC_DECIMATE_BITS = 16,
parameter CAMSYNC_MODE = 'h0,
parameter CAMSYNC_TRIG_SRC = 'h1, // setup trigger source
parameter CAMSYNC_TRIG_DST = 'h2, // setup trigger destination line(s)
......
......@@ -217,6 +217,15 @@ CAMSYNC_ADDR__TYPE = str
CAMSYNC_CHN_EN_BIT = int
CAMSYNC_CHN_EN_BIT__RAW = str
CAMSYNC_CHN_EN_BIT__TYPE = str
CAMSYNC_DECIMATE_ADDR = int
CAMSYNC_DECIMATE_ADDR__RAW = str
CAMSYNC_DECIMATE_ADDR__TYPE = str
CAMSYNC_DECIMATE_BITS = int
CAMSYNC_DECIMATE_BITS__RAW = str
CAMSYNC_DECIMATE_BITS__TYPE = str
CAMSYNC_DECIMATE_MASK = int
CAMSYNC_DECIMATE_MASK__RAW = str
CAMSYNC_DECIMATE_MASK__TYPE = str
CAMSYNC_DELAY = int
CAMSYNC_DELAY__RAW = str
CAMSYNC_DELAY__TYPE = str
......
......@@ -1113,6 +1113,13 @@ class X393ExportC(object):
(("X393_CAMSYNC_TRIG_PERIOD", c, vrlg.CAMSYNC_TRIG_PERIOD + ba, 0, z3, "u32*", "rw", "CAMSYNC trigger period")),
(("X393_CAMSYNC_TRIG_DELAY", c, vrlg.CAMSYNC_TRIG_DELAY0 + ba, 1, z3, "u32*", "rw", "CAMSYNC trigger delay"))]
ba = vrlg.CAMSYNC_DECIMATE_ADDR
ia = 0
c = "sens_chn"
sdefines +=[
(('CAMSYNC trigger decimation',)),
(("X393_CAMSYNC_TRIG_DECIMATION", c, 0 + ba, 1, z3, "u32*", "rw", "CAMSYNC trigger decimation"))]
ba = vrlg.CMDFRAMESEQ_ADDR_BASE
ia = vrlg.CMDFRAMESEQ_ADDR_INC
c = "sens_chn"
......
......@@ -50,6 +50,9 @@
module camsync393 #(
parameter CAMSYNC_ADDR = 'h708, //TODO: assign valid address
parameter CAMSYNC_MASK = 'h7f8,
parameter CAMSYNC_DECIMATE_ADDR = 'h714,
parameter CAMSYNC_DECIMATE_MASK = 'h7fc,
parameter CAMSYNC_DECIMATE_BITS = 16,
parameter CAMSYNC_MODE = 'h0,
parameter CAMSYNC_TRIG_SRC = 'h1, // setup trigger source
parameter CAMSYNC_TRIG_DST = 'h2, // setup trigger destination line(s)
......@@ -221,6 +224,9 @@ module camsync393 #(
wire [2:0] cmd_a; // command address
wire [31:0] cmd_data; // command data TODO: trim
wire cmd_we; // command write enable
wire decimate_we; // write trigger decimate (per-cnannel)
wire [3:0] set_decimate; // @mclk per channel - set decimate value (0 - every trigger, 1 - every second, 2 - every third, ...)
wire [3:0] reset_decimate; // @pclk - reset decimate counter, so next pulse will go through
wire set_mode_reg_w;
wire set_trig_src_w;
......@@ -233,6 +239,23 @@ module camsync393 #(
wire [9:0] pre_input_use;
wire [9:0] pre_input_pattern;
reg [3:0] dis_trig; // disable trigger propagation per channel (for decimation)
reg [2:0] pre_dec0; // registered/delayed pre-decimated trigger
reg [2:0] pre_dec1; // registered/delayed pre-decimated trigger
reg [2:0] pre_dec2; // registered/delayed pre-decimated trigger
reg [2:0] pre_dec3; // registered/delayed pre-decimated trigger
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_val0;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_val1;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_val2;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_val3;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_cnt0;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_cnt1;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_cnt2;
reg [CAMSYNC_DECIMATE_BITS-1:0] decim_cnt3;
// delaying everything by 1 clock to reduce data fan in
reg high_zero; // 24 MSBs are zero
reg [9:0] input_use; // 1 - use this bit
......@@ -271,6 +294,7 @@ module camsync393 #(
reg trigger_condition_filtered_d; // trigger condition filtered delayed (to detect leading edge)
reg [6:0] trigger_filter_cntr;
reg [3:0] trig_r;
wire [3:0] trig_w;
wire [3:0] trig_r_mclk;
// wire trig_dly16; // trigger1 delayed by 16 clk cycles to get local timestamp
`ifdef GENERATE_TRIG_OVERDUE
......@@ -437,6 +461,11 @@ module camsync393 #(
assign set_trig_delay2_w = cmd_we && (cmd_a == CAMSYNC_TRIG_DELAY2);
assign set_trig_delay3_w = cmd_we && (cmd_a == CAMSYNC_TRIG_DELAY3);
assign set_decimate[0] = decimate_we && (cmd_a == 0);
assign set_decimate[1] = decimate_we && (cmd_a == 1);
assign set_decimate[2] = decimate_we && (cmd_a == 2);
assign set_decimate[3] = decimate_we && (cmd_a == 3);
assign pre_input_use = {cmd_data[19],cmd_data[17],cmd_data[15],cmd_data[13],cmd_data[11],
cmd_data[9],cmd_data[7],cmd_data[5],cmd_data[3],cmd_data[1]};
assign pre_input_pattern = {cmd_data[18],cmd_data[16],cmd_data[14],cmd_data[12],cmd_data[10],
......@@ -458,6 +487,14 @@ module camsync393 #(
wire [9:0] gpio_active_w = ((gpio_active ^ pre_gpio_active) & output_mask) ^ gpio_active;
always @(posedge mclk) begin
if (mrst) decim_val0 <= 0;
else if (set_decimate[0]) decim_val0 <= cmd_data[CAMSYNC_DECIMATE_BITS - 1 : 0];
if (mrst) decim_val1 <= 0;
else if (set_decimate[1]) decim_val1 <= cmd_data[CAMSYNC_DECIMATE_BITS - 1 : 0];
if (mrst) decim_val2 <= 0;
else if (set_decimate[2]) decim_val2 <= cmd_data[CAMSYNC_DECIMATE_BITS - 1 : 0];
if (mrst) decim_val3 <= 0;
else if (set_decimate[3]) decim_val3 <= cmd_data[CAMSYNC_DECIMATE_BITS - 1 : 0];
if (mrst) begin
en <= 0;
......@@ -567,7 +604,6 @@ module camsync393 #(
ts_master_snap_pclk <= ts_snd_en_pclk? start_pclk2_masked: rcv_done;
ts_snd_en_pclk<=ts_snd_en;
// input_use_intern <= pre_input_use_intern;
input_use_intern <= pre_input_use_intern || !triggered_mode_pclk;
ts_external_pclk<= ts_external; // && !input_use_intern;
......@@ -580,7 +616,6 @@ module camsync393 #(
if (restart_cntr_run[0]) begin
if (!ext_int_arm[0]) restart_cntr[31:0] <= restart_cntr[31:0] - 1;
// end else if (!restart_cntr_run[0]) restart_cntr[31:0] <= repeat_period[31:0];
end else restart_cntr[31:0] <= repeat_period[31:0];
ext_int_pre_pause <= !(|restart_cntr[31:3]);
......@@ -618,18 +653,7 @@ module camsync393 #(
ext_int_mode_pclk <= ext_int_mode_mclk;
end
/*
always @ (posedge pclk) begin
if (eprst) dly_cntr_run <= 0;
else if (!triggered_mode_pclk) dly_cntr_run <= 0;
else if (start_dly) dly_cntr_run <= 4'hf;
else dly_cntr_run <= dly_cntr_run &
{(dly_cntr_chn3[31:0]!=0)?1'b1:1'b0,
(dly_cntr_chn2[31:0]!=0)?1'b1:1'b0,
(dly_cntr_chn1[31:0]!=0)?1'b1:1'b0,
(dly_cntr_chn0[31:0]!=0)?1'b1:1'b0};
end
*/
always @ (posedge pclk) begin
if (eprst) dly_cntr_run <= 0;
else dly_cntr_run <= dly_cntr_start | (dly_cntr_run & dly_cntr_non_zero);
......@@ -662,6 +686,12 @@ module camsync393 #(
assign pre_rcv_error= (sr_rcv_first[31:26]!=CAMSYNC_PRE_MAGIC) || (sr_rcv_second[5:0]!=CAMSYNC_POST_MAGIC);
assign trigger_condition_mask_w = input_use[9:0] & ~(ext_int_mode_pclk?(10'b1 << CAMSYNC_GPIO_EXT_IN):10'b0);
// preparing to divide trigger frequency
assign trig_w[0] = (input_use_intern && (master_chn == 0)) ? (start_late_first && start_en): dly_cntr_end[0];
assign trig_w[1] = (input_use_intern && (master_chn == 1)) ? (start_late_first && start_en): dly_cntr_end[1];
assign trig_w[2] = (input_use_intern && (master_chn == 2)) ? (start_late_first && start_en): dly_cntr_end[2];
assign trig_w[3] = (input_use_intern && (master_chn == 3)) ? (start_late_first && start_en): dly_cntr_end[3];
always @ (posedge pclk) begin
triggered_mode_pclk<= triggered_mode_r;
......@@ -724,10 +754,10 @@ module camsync393 #(
else dly_cntr_chn3[31:0] <= input_dly_chn3[31:0];
/// bypass delay to trig_r in internal trigger mode
trig_r[0] <= (input_use_intern && (master_chn ==0)) ? (start_late_first && start_en): dly_cntr_end[0];
trig_r[1] <= (input_use_intern && (master_chn ==1)) ? (start_late_first && start_en): dly_cntr_end[1];
trig_r[2] <= (input_use_intern && (master_chn ==2)) ? (start_late_first && start_en): dly_cntr_end[2];
trig_r[3] <= (input_use_intern && (master_chn ==3)) ? (start_late_first && start_en): dly_cntr_end[3];
trig_r[0] <= trig_w[0] & ~dis_trig[0]; // (input_use_intern && (master_chn ==0)) ? (start_late_first && start_en): dly_cntr_end[0];
trig_r[1] <= trig_w[1] & ~dis_trig[1]; // (input_use_intern && (master_chn ==1)) ? (start_late_first && start_en): dly_cntr_end[1];
trig_r[2] <= trig_w[2] & ~dis_trig[2]; // (input_use_intern && (master_chn ==2)) ? (start_late_first && start_en): dly_cntr_end[2];
trig_r[3] <= trig_w[3] & ~dis_trig[3]; // (input_use_intern && (master_chn ==3)) ? (start_late_first && start_en): dly_cntr_end[3];
/// 64-bit serial receiver (52 bit payload, 6 pre magic and 6 bits post magic for error checking
if (!rcv_run_or_deaf) bit_rcv_duration[7:0] <= bit_length_short[7:0]; // 3/4 bit length-1
......@@ -790,9 +820,35 @@ module camsync393 #(
ts_rcv_usec_chn3[19:0] <= ts_snd_usec_chn3[19:0];
end
end
// Trigger decimation
pre_dec0 <= eprst? 0 : {pre_dec0[1:0], trig_w[0]}; // trig_w should be single-cycle
pre_dec1 <= eprst? 0 : {pre_dec1[1:0], trig_w[1]};
pre_dec2 <= eprst? 0 : {pre_dec2[1:0], trig_w[2]};
pre_dec3 <= eprst? 0 : {pre_dec3[1:0], trig_w[3]};
if (eprst || reset_decimate[0]) dis_trig[0] <= 0;
else if (pre_dec0[0]) dis_trig[0] <= 1;
else if (pre_dec0[2]) dis_trig[0] <= (decim_cnt0 == 0);
end
if (eprst || reset_decimate[1]) dis_trig[1] <= 0;
else if (pre_dec1[0]) dis_trig[1] <= 1;
else if (pre_dec1[2]) dis_trig[1] <= (decim_cnt1 == 0);
if (eprst || reset_decimate[2]) dis_trig[2] <= 0;
else if (pre_dec2[0]) dis_trig[2] <= 1;
else if (pre_dec2[2]) dis_trig[2] <= (decim_cnt2 == 0);
if (eprst || reset_decimate[3]) dis_trig[3] <= 0;
else if (pre_dec3[0]) dis_trig[3] <= 1;
else if (pre_dec3[2]) dis_trig[3] <= (decim_cnt3 == 0);
if (pre_dec0[0]) decim_cnt0 <= dis_trig[0] ? (decim_cnt0 - 1) : decim_val0;
if (pre_dec1[0]) decim_cnt1 <= dis_trig[1] ? (decim_cnt1 - 1) : decim_val1;
if (pre_dec2[0]) decim_cnt2 <= dis_trig[2] ? (decim_cnt2 - 1) : decim_val2;
if (pre_dec3[0]) decim_cnt3 <= dis_trig[3] ? (decim_cnt3 - 1) : decim_val3;
end // always @ (posedge pclk) begin
// Making delayed start that waits for timestamp use timestamp_got, otherwise - nothing to wait
......@@ -802,6 +858,8 @@ module camsync393 #(
cmd_deser #(
.ADDR (CAMSYNC_ADDR),
.ADDR_MASK (CAMSYNC_MASK),
.ADDR1 (CAMSYNC_DECIMATE_ADDR),
.ADDR_MASK1 (CAMSYNC_DECIMATE_MASK),
.NUM_CYCLES (6),
.ADDR_WIDTH (3),
.DATA_WIDTH (32)
......@@ -813,7 +871,7 @@ module camsync393 #(
.stb (cmd_stb), // input
.addr (cmd_a), // output[3:0]
.data (cmd_data), // output[31:0]
.we (cmd_we) // output
.we ({decimate_we, cmd_we}) // output
);
timestamp_to_parallel timestamp_to_parallel0_i (
......@@ -943,6 +1001,11 @@ module camsync393 #(
pulse_cross_clock i_suppress_immediate_set_pclk(.rst(!en), .src_clk(mclk), .dst_clk(pclk), .in_pulse(suppress_immediate_set_mclk), .out_pulse(suppress_immediate_set_pclk),.busy());
pulse_cross_clock i_rdecim_to_pclk0 (.rst(mrst), .src_clk(mclk), .dst_clk(pclk), .in_pulse(set_decimate[0]), .out_pulse(reset_decimate[0]),.busy());
pulse_cross_clock i_rdecim_to_pclk1 (.rst(mrst), .src_clk(mclk), .dst_clk(pclk), .in_pulse(set_decimate[1]), .out_pulse(reset_decimate[1]),.busy());
pulse_cross_clock i_rdecim_to_pclk2 (.rst(mrst), .src_clk(mclk), .dst_clk(pclk), .in_pulse(set_decimate[2]), .out_pulse(reset_decimate[2]),.busy());
pulse_cross_clock i_rdecim_to_pclk3 (.rst(mrst), .src_clk(mclk), .dst_clk(pclk), .in_pulse(set_decimate[3]), .out_pulse(reset_decimate[3]),.busy());
endmodule
......@@ -45,6 +45,9 @@ module timing393 #(
parameter RTC_SEC_USEC_ADDR = 'h32, // ..'h33 address where seconds of the snapshot can be read (microseconds - next address)
parameter RTC_MASK = 'h7fc,
parameter CAMSYNC_MASK = 'h7f8,
parameter CAMSYNC_DECIMATE_ADDR = 'h714,
parameter CAMSYNC_DECIMATE_MASK = 'h7fc,
parameter CAMSYNC_DECIMATE_BITS = 16,
parameter CAMSYNC_MODE = 'h0,
parameter CAMSYNC_TRIG_SRC = 'h1, // setup trigger source
parameter CAMSYNC_TRIG_DST = 'h2, // setup trigger destination line(s)
......@@ -261,6 +264,9 @@ module timing393 #(
camsync393 #(
.CAMSYNC_ADDR (CAMSYNC_ADDR),
.CAMSYNC_MASK (CAMSYNC_MASK),
.CAMSYNC_DECIMATE_ADDR (CAMSYNC_DECIMATE_ADDR),
.CAMSYNC_DECIMATE_MASK (CAMSYNC_DECIMATE_MASK),
.CAMSYNC_DECIMATE_BITS (CAMSYNC_DECIMATE_BITS),
.CAMSYNC_MODE (CAMSYNC_MODE),
.CAMSYNC_TRIG_SRC (CAMSYNC_TRIG_SRC),
.CAMSYNC_TRIG_DST (CAMSYNC_TRIG_DST),
......
......@@ -2512,6 +2512,9 @@ assign axi_grst = axi_rst_pre;
.RTC_SEC_USEC_ADDR (RTC_SEC_USEC_ADDR),
.RTC_MASK (RTC_MASK),
.CAMSYNC_MASK (CAMSYNC_MASK),
.CAMSYNC_DECIMATE_ADDR (CAMSYNC_DECIMATE_ADDR),
.CAMSYNC_DECIMATE_MASK (CAMSYNC_DECIMATE_MASK),
.CAMSYNC_DECIMATE_BITS (CAMSYNC_DECIMATE_BITS),
.CAMSYNC_MODE (CAMSYNC_MODE),
.CAMSYNC_TRIG_SRC (CAMSYNC_TRIG_SRC),
.CAMSYNC_TRIG_DST (CAMSYNC_TRIG_DST),
......
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