Mirrors/NawfalMotii79-PLFM_RADAR
1
0
Fork 0
mirror of https://github.com/NawfalMotii79/PLFM_RADAR.git synced 2026-06-09 15:07:14 +00:00
Code Issues Packages Projects Releases Wiki Activity
374 Commits 20 Branches 6 Tags
cc6691dec91d114b6d0da98df88d4e69adf5e2e7
Commit Graph

4 Commits

Author SHA1 Message Date
Jason 9d1eb4b11c fix(radar): RX chain corrections, GUI bin alignment, MCU boot ordering 
FPGA — RX chain
  matched_filter_multi_segment.v: drop the gratuitous /4 scaling on
    DDC sign-extended input (was ddc_i[17:2] + ddc_i[1]); use
    ddc_i[15:0] directly. fft_engine has INTERNAL_W=32 with
    saturating 16-bit output, so full 16-bit input is safe. Restores
    ~12 dB of MF input dynamic range.
  radar_receiver_final.v: remove latency_buffer (count-N-pulses-then-
    prime FIFO that left frame 1 with all-zero ref). Replaced with
    a single-FF alignment register on ref_i/ref_q that matches the
    1-FF stage multi_segment ST_PROCESSING uses on adc_data.
    Verified by tb/tb_rxb_fullchain_latency.v — autocorrelation peak
    at bin 0 with peak/mean ~88x.
  doppler_processor.v / mti_canceller.v / cfar_ca.v /
    range_bin_decimator.v / radar_receiver_final.v / radar_system_top.v
    / usb_data_interface_ft2232h.v: switch port and parameter widths
    from RP_NUM_RANGE_BINS / RP_RANGE_BIN_BITS (always 512 / 9-bit)
    to RP_MAX_OUTPUT_BINS / RP_RANGE_BIN_WIDTH_MAX (auto-scales:
    50T 512 / 9-bit, 200T 4096 / 12-bit). Unblocks 200T 20 km mode
    at the RX module boundary; USB wire-protocol extension still
    pending.
  radar_receiver_final.v: doppler_frame_done_prev reset value 0 -> 1
    to prevent false done pulse on cycle 1 when level signal is
    HIGH at reset.
  matched_filter_processing_chain.v: delete the broken `ifdef
    SIMULATION inline behavioural FFT (482 lines removed). It
    produced wrong-bin peaks and 100-1000x weak magnitudes. Chain
    now uses production fft_engine.v + frequency_matched_filter.v
    in both iverilog and Vivado. Iverilog tests are ~38x slower per
    chain pass but produce correct results. Misleading "OK with
    Xilinx IP" comments at three test sites updated since the FFT
    is in-house, not an IP placeholder.

FPGA — testbenches
  tb/tb_rxb_latency_measure.v (new): measures chain internal pipeline
    depth (~2057 cycles, chirp-agnostic).
  tb/tb_rxb_fullchain_latency.v (new): full-chain autocorrelation
    verification — drives ddc with the same chirp samples the loader
    serves as ref, finds peak position and peak/mean.
  tb/tb_matched_filter_processing_chain.v: wait timeouts bumped
    50000 -> 500000 cycles to accommodate production FFT pipeline.

MCU
  main.cpp checkSystemHealthStatus: latch system_emergency_state on
    the error_count > 10 path so the SAFE-MODE blink loop in main()
    actually engages (was bypassed because predicate was false).
  main.cpp: move FPGA reset BEFORE the if(PowerAmplifier) block so
    adar_tr_x is driven LOW (RX commanded externally) before PA Vdd
    reaches 22 V. Old reset block at the original location removed.
  main.cpp MX_GPIO_Init: add GPIO_PIN_12 (FPGA reset) to the
    explicit WritePin(LOW) list so the safe initial state is no
    longer implicit.
  main.cpp checkSystemHealth: rate-limit ADAR1000
    verifyDeviceCommunication (HAL_Delay 1ms x 4 devices = 4 ms
    blocking SPI burst per main-loop iteration) from every-loop to
    every 2 s. readTemperature stays per-loop so over-temp
    detection latency is unchanged.
  USBHandler.cpp processSettingsData: dispatch threshold bumped
    74 -> 82 (matches parser minimum); buffer drained after parse
    attempt (slide remaining bytes left) so a false END find no
    longer sticks the buffer until 256-byte overflow.

GUI
  radar_protocol.py: NUM_RANGE_BINS 64 -> 512 (matches FPGA
    RP_NUM_RANGE_BINS); NUM_CELLS 2048 -> 16384.
  radar_protocol.py _ingest_sample: honor FPGA frame_start bit for
    resync after a USB drop; capture range_profile[rbin] once per
    range bin at dbin == 0 (FPGA emits the same range_i/range_q for
    all 32 Doppler cells of a given range bin; previous accumulator
    inflated the profile 32x).
  v7/models.py RadarSettings: range_resolution 24 -> 6 m (matches
    c/(2*100MHz)*4); max_distance and coverage_radius 1536 -> 3072 m;
    map_size 2000 -> 4000.
  v7/models.py WaveformConfig: n_range_bins 64 -> 512, fft_size
    1024 -> 2048, decimation_factor 16 -> 4.
  GUI_V65_Tk.py: _RANGE_PER_BIN math and stale "~24 m / ~1536 m"
    comments updated.
  test_v7.py: assertion values updated to match new defaults.

Tests
  test_ddc_cosim_fuzz.py: remove unused os/tempfile imports, wrap
    three long lines for ruff E501 compliance.
 2026-04-23 05:56:52 +05:45
Jason 60e49c7da6 feat(fpga): integrate 2048-pt FFT upgrade — non-conflicting RTL (wave 1/3) 
File-scoped cherry-pick from feat/fft-2048-upgrade (e9705e4) for modules
that only the fft branch modified:

  RTL:
    cfar_ca.v                        512-row CFAR
    chirp_memory_loader_param.v      2-segment × 2048-sample loader
    doppler_processor.v              16384-deep doppler memory
    fft_engine.v                     2048-pt FFT
    matched_filter_multi_segment.v   2-seg overlap-save, BRAM overlap_cache
    matched_filter_processing_chain.v
    radar_mode_controller.v          XOR edge detector
    radar_params.vh                  (new) single source of truth
    range_bin_decimator.v            2048 -> 512 output bins
    rx_gain_control.v

  Memory:
    fft_twiddle_2048.mem             (new) 2048-pt FFT twiddles
    long_chirp_seg0_{i,q}.mem        2048-sample seg 0 (was 1024)
    long_chirp_seg1_{i,q}.mem        2048-sample seg 1 (was 1024)
    long_chirp_seg{2,3}_{i,q}.mem    deleted (4-seg -> 2-seg collapse)

  Gen:
    tb/cosim/gen_chirp_mem.py        regen script for mem files above

Waves 2 and 3 follow: manual merge for dual-modified files
(radar_system_top, usb_data_interface_ft2232h, mti_canceller,
radar_receiver_final), and CFAR pipeline from 2401f5f keeping p0's
CIC/DDC reset strategy.
 2026-04-21 01:52:32 +05:45
Jason 0745cc4f48 Pipeline CFAR noise computation: break critical path for timing closure 
Split ST_CFAR_THR into two pipeline stages (THR + MUL) to fix Build 23
timing violation (WNS = -0.309 ns). The combinational path from
leading_sum through GO/SO cross-multiply into alpha*noise DSP was too
long for 10 ns.

New pipeline:
  ST_CFAR_THR: register noise_sum_comb (mode select + cross-multiply)
  ST_CFAR_MUL: compute alpha * noise_sum_reg in DSP
  ST_CFAR_CMP: compare + update window (unchanged)

3 cycles per CUT instead of 2 (~85 us vs 70 us per frame, negligible).
All detection results identical: 23/23 CFAR standalone, 22/22 full
regression, 3/3 real-data co-sim (5137/5137 exact match) PASS.
 2026-03-20 05:24:08 +02:00
Jason f71923b67d Integrate CA-CFAR detector: replace fixed-threshold comparator with adaptive sliding-window CFAR engine (22/22 regression PASS) 
- Add cfar_ca.v: CA/GO/SO-CFAR with BRAM magnitude buffer, host-configurable
  guard cells, training cells, alpha multiplier, and mode selection
- Replace old threshold detector block in radar_system_top.v with cfar_ca
  instantiation; backward-compatible (cfar_enable defaults to 0)
- Add 5 new host registers: guard (0x21), train (0x22), alpha (0x23),
  mode (0x24), enable (0x25)
- Expose doppler_frame_done_out from radar_receiver_final for CFAR frame sync
- Add tb_cfar_ca.v standalone testbench (14 tests, 24 checks)
- Add Group 14 E2E tests: 13 checks covering range-mode (0x20) and all
  CFAR config registers (0x21-0x25) through full USB command path
- Update run_regression.sh with CFAR in lint, Phase 1, and integration compiles
 2026-03-20 04:57:34 +02:00