PLFM_RADAR

FlintyLemming/PLFM_RADAR

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Author	SHA1	Message	Date
Jason	3f47d1ef71	fix(pre-bringup): resolve P0 + quick-win P1 findings from 2026-04-19 audit Addresses findings from docs/DEVELOP_AUDIT_2026-04-19.md: P0 source-level: - F-4.3 ADAR1000_Manager::adarSetTxPhase now writes REG_LOAD_WORKING with LD_WRK_REGS_LDTX_OVERRIDE (0x02) instead of 0x01. Previous value toggled the LDRX latch on a TX-phase write, so host TX phase updates never reached the working registers. - F-6.1 DDC mixer_saturation / filter_overflow / diagnostics were deleted at the receiver boundary. Now plumbed to new outputs on radar_receiver_final (ddc_overflow_any, ddc_saturation_count) and aggregated into gpio_dig5 in radar_system_top. Added mark_debug attributes for ILA visibility. Test/debug inputs tied low explicitly. - F-0.8 adc_clk_mmcm.xdc set_clock_uncertainty: removed invalid -add flag (Vivado silently rejected it, applying zero guardband). Now uses absolute 0.150 ns which covers 53 ps jitter + ~100 ps PVT margin. P1: - F-4.2 adarSetBit / adarResetBit reject broadcast=ON — the RMW sampled a single device but wrote to all four, clobbering the other three's state. - F-4.4 initializeSingleDevice returns false and leaves initialized=false when scratchpad verification fails; previously marked the device initialized anyway so downstream PA enable could drive a dead bus. - F-6.2 FIR I/Q filter_overflow ports, previously unconnected, now OR'd into the module-level filter_overflow output. - F-6.3 mti_canceller exposes 8-bit saturation counter. Saturation was previously invisible and produces spurious Doppler harmonics. Verification: - 27/27 iverilog testbenches pass - 228/228 pytest pass (cross-layer contract + cosim) - MCU unit tests 51/51 + 24/24 pass - Remote Vivado 2025.2 build: bitstream writes; 400 MHz mixer pipeline now shows WNS -0.109 ns which MATCHES the audit's F-0.9 prediction that the design only closed because F-0.8's guardband was silently dropped. ft_clkout F-0.9 remains a show-stopper (requires MRCC pin move), tracked separately. Not addressed in this PR (larger scope, follow-up tickets): F-0.4, F-0.5, F-0.6, F-0.7, F-0.9, F-1.1, F-1.2, F-2.2, F-3.2, F-4.1, F-4.7, F-6.4, F-6.5.	2026-04-20 13:48:36 +05:45
Jason	ed629e7559	Integrate MTI canceller and DC notch filter for ground clutter removal MTI canceller (2-pulse, H(z)=1-z^{-1}) between range decimator and Doppler processor. Subtracts previous chirp from current, nulling DC Doppler (stationary clutter). Pass-through when host_mti_enable=0. DC notch filter (post-Doppler, pre-CFAR) zeros bins within +/-host_dc_notch_width of DC. Complements MTI for residual clutter. New host registers: 0x26 (mti_enable), 0x27 (dc_notch_width). Both default to 0 (disabled) - fully backward-compatible. Verification: 23/23 regression, 29/29 MTI standalone, 3/3 real-data co-sim (5137/5137 exact match) all PASS.	2026-03-20 16:39:17 +02:00

Author

SHA1

Message

Date

Jason

3f47d1ef71

fix(pre-bringup): resolve P0 + quick-win P1 findings from 2026-04-19 audit

Addresses findings from docs/DEVELOP_AUDIT_2026-04-19.md:

P0 source-level:
- F-4.3 ADAR1000_Manager::adarSetTxPhase now writes REG_LOAD_WORKING
  with LD_WRK_REGS_LDTX_OVERRIDE (0x02) instead of 0x01. Previous value
  toggled the LDRX latch on a TX-phase write, so host TX phase updates
  never reached the working registers.
- F-6.1 DDC mixer_saturation / filter_overflow / diagnostics were deleted
  at the receiver boundary. Now plumbed to new outputs on
  radar_receiver_final (ddc_overflow_any, ddc_saturation_count) and
  aggregated into gpio_dig5 in radar_system_top. Added mark_debug
  attributes for ILA visibility. Test/debug inputs tied low explicitly.
- F-0.8 adc_clk_mmcm.xdc set_clock_uncertainty: removed invalid -add
  flag (Vivado silently rejected it, applying zero guardband). Now uses
  absolute 0.150 ns which covers 53 ps jitter + ~100 ps PVT margin.

P1:
- F-4.2 adarSetBit / adarResetBit reject broadcast=ON — the RMW sampled
  a single device but wrote to all four, clobbering the other three's
  state.
- F-4.4 initializeSingleDevice returns false and leaves initialized=false
  when scratchpad verification fails; previously marked the device
  initialized anyway so downstream PA enable could drive a dead bus.
- F-6.2 FIR I/Q filter_overflow ports, previously unconnected, now OR'd
  into the module-level filter_overflow output.
- F-6.3 mti_canceller exposes 8-bit saturation counter. Saturation was
  previously invisible and produces spurious Doppler harmonics.

Verification:
- 27/27 iverilog testbenches pass
- 228/228 pytest pass (cross-layer contract + cosim)
- MCU unit tests 51/51 + 24/24 pass
- Remote Vivado 2025.2 build: bitstream writes; 400 MHz mixer pipeline
  now shows WNS -0.109 ns which MATCHES the audit's F-0.9 prediction
  that the design only closed because F-0.8's guardband was silently
  dropped. ft_clkout F-0.9 remains a show-stopper (requires MRCC pin
  move), tracked separately.

Not addressed in this PR (larger scope, follow-up tickets):
F-0.4, F-0.5, F-0.6, F-0.7, F-0.9, F-1.1, F-1.2, F-2.2, F-3.2, F-4.1,
F-4.7, F-6.4, F-6.5.

2026-04-20 13:48:36 +05:45

Jason

ed629e7559

Integrate MTI canceller and DC notch filter for ground clutter removal

MTI canceller (2-pulse, H(z)=1-z^{-1}) between range decimator and
Doppler processor. Subtracts previous chirp from current, nulling DC
Doppler (stationary clutter). Pass-through when host_mti_enable=0.

DC notch filter (post-Doppler, pre-CFAR) zeros bins within
+/-host_dc_notch_width of DC. Complements MTI for residual clutter.

New host registers: 0x26 (mti_enable), 0x27 (dc_notch_width).
Both default to 0 (disabled) - fully backward-compatible.

Verification: 23/23 regression, 29/29 MTI standalone, 3/3 real-data
co-sim (5137/5137 exact match) all PASS.

2026-03-20 16:39:17 +02:00

2 Commits