Add ddr pdm mics

examples/xua_lite_example/Makefile

@@ -4,12 +4,13 @@ TARGET = RPI_HAT_60QFN.xn
 
 # The flags passed to xcc when building the application
 XCC_FLAGS	= -fcomment-asm -Xmapper --map -Xmapper MAPFILE -Os -report \
-			  -g -Wno-unused-function -Wno-timing -DXUD_SERIES_SUPPORT=XUD_X200_SERIES -DUSB_TILE=tile[1] 
+			  -g -Wno-unused-function -Wno-timing -DXUD_SERIES_SUPPORT=XUD_X200_SERIES -DUSB_TILE=tile[1] \
+			  -D MIC_ARRAY_CH0=PIN0 -D MIC_ARRAY_CH1=PIN4
 			  
 # The USED_MODULES variable lists other module used by the application. These
 # modules will extend the SOURCE_DIRS, INCLUDE_DIRS and LIB_DIRS variables.
 # Modules are expected to be in the directory above the BASE_DIR directory.
-USED_MODULES = lib_xua lib_i2s lib_xud lib_i2c lib_gpio
+USED_MODULES = lib_xua lib_i2s lib_xud lib_i2c lib_mic_array_ddr
 
 #=============================================================================
 # The following part of the Makefile includes the common build infrastructure

examples/xua_lite_example/src/app_xua_lite.xc

@@ -11,6 +11,7 @@
 #include "i2s.h"
 #include "i2c.h"
 #include "gpio.h"
+#include "mic_array.h"
 
 #define DEBUG_UNIT XUA_APP
 #define DEBUG_PRINT_ENABLE_XUA_APP 1
@@ -37,12 +38,19 @@ on tile[1]: in port p_mclk_in_usb   = XS1_PORT_1A;
 on tile[1]: in port p_for_mclk_count= XS1_PORT_16A;   // Extra port for counting master clock ticks 
 on tile[1]: clock clk_usb_mclk      = XS1_CLKBLK_3;   // Master clock 
 
-
 // Clock-block declarations 
-on tile[0]:clock clk_audio_bclk     = XS1_CLKBLK_2;   // Bit clock     
-on tile[0]:clock clk_audio_mclk     = XS1_CLKBLK_3;   // Master clock 
+on tile[0]: clock clk_audio_bclk    = XS1_CLKBLK_2;   // Bit clock     
+on tile[0]: clock clk_audio_mclk    = XS1_CLKBLK_3;   // Master clock 
 //XUD uses XS1_CLKBLK_4, XS1_CLKBLK_5 on tile[1]
 
+//Mic array resources
+on tile[0]: out port p_pdm_clk               = XS1_PORT_1L;
+on tile[0]: in buffered port:32 p_pdm_mics   = XS1_PORT_4E;
+
+on tile[0]: clock pdmclk                     = XS1_CLKBLK_4;
+on tile[0]: clock pdmclk6                    = XS1_CLKBLK_5;
+
+
 // Endpoint type tables - informs XUD what the transfer types for each Endpoint in use and also
 // if the endpoint wishes to be informed of USB bus resets 
 
@@ -51,10 +59,12 @@ XUD_EpType epTypeTableIn[]    = {XUD_EPTYPE_CTL | XUD_STATUS_ENABLE, XUD_EPTYPE_
 
 void XUA_Buffer_lite(chanend c_ep0_out, chanend c_ep0_in, chanend c_aud_out, chanend c_feedback, chanend c_aud_in, chanend c_sof, in port p_for_mclk_count, streaming chanend c_aud_host);
 [[distributable]]
-void AudioHub(server i2s_frame_callback_if i2s, streaming chanend c_aud, client i2c_master_if ?i2c, client output_gpio_if dac_reset);
+void AudioHub(server i2s_frame_callback_if i2s, streaming chanend c_audio, streaming chanend (&?c_ds_output)[1]);
+void setup_audio_gpio(out port p_gpio);
 void AudioHwConfigure(unsigned samFreq, client i2c_master_if i_i2c);
 void XUA_Endpoint0_select(chanend c_ep0_out, chanend c_ep0_in, chanend c_audioControl,
     chanend ?c_mix_ctl, chanend ?c_clk_ctl, chanend ?c_EANativeTransport_ctrl, CLIENT_INTERFACE(i_dfu, ?dfuInterface) VENDOR_REQUESTS_PARAMS_DEC_);
+void pdm_mic(streaming chanend c_ds_output, in buffered port:32 p_pdm_mics);
 
 int main()
 {
@@ -67,17 +77,26 @@ int main()
 
     interface i2s_frame_callback_if i_i2s;
     interface i2c_master_if i_i2c[1];
-    interface output_gpio_if i_gpio[1];
 
     streaming chan c_audio; //We use the channel buffering (48B across switch each way)
+    streaming chan c_ds_output[1];
 
     par
     {
         on tile[0]: {
+            //Set the GPIOs needed for audio
+            setup_audio_gpio(p_gpio);
+            c_audio <: 0;       //Signal that we can now do i2c setup
+            c_audio :> int _;   //Now wait until i2c has finished mclk setup
+            
+            const unsigned micDiv = MCLK_48/3072000;
+            mic_array_setup_ddr(pdmclk, pdmclk6, p_mclk_in, p_pdm_clk, p_pdm_mics, micDiv);
+
             par {
                 i2s_frame_master(i_i2s, p_i2s_dac, 1, p_i2s_adc, 1, p_bclk, p_lrclk, p_mclk_in, clk_audio_bclk);
-                [[distribute]]AudioHub(i_i2s, c_audio, null, i_gpio[0]);
-                [[distribute]]output_gpio(i_gpio, 1, p_gpio, null);
+                [[distribute]]AudioHub(i_i2s, c_audio, c_ds_output);
+                pdm_mic(c_ds_output[0], p_pdm_mics);
+
             }
         }
         on tile[1]:{
@@ -86,11 +105,13 @@ int main()
             set_port_clock(p_for_mclk_count, clk_usb_mclk);       // Clock the "count" port from the clock block 
             start_clock(clk_usb_mclk);                            // Set the clock off running 
 
-            //Setup DAC and then return so we do not use a thread
+            //Setup DAC over i2c and then return so we do not use a thread
+            c_audio :> int _; //Wait for reset asserted from other tile to complete
             par{
                 i2c_master(i_i2c, 1, p_scl, p_sda, 100);
                 AudioHwConfigure(DEFAULT_FREQ, i_i2c[0]);
             }
+            c_audio <: 0; //Signal to tile[0] that clock is good
 
             debug_printf("XUD SPEED: %d\n", (AUDIO_CLASS == 1) ? XUD_SPEED_FS : XUD_SPEED_HS); //FS = 1, HS = 2
             par{

examples/xua_lite_example/src/audio_hub.xc

@@ -5,21 +5,47 @@
 #define DEBUG_UNIT XUA_AUDIO_HUB
 #define DEBUG_PRINT_ENABLE_XUA_AUDIO_HUB 1
 #include "debug_print.h"
+#include "mic_array.h"
 
 
+void mic_array_decimator_set_samprate(const unsigned samplerate, int fir_gain_compen[], int * unsafe fir_coefs[], int mic_decimator_fir_data_array[], mic_array_decimator_conf_common_t *dcc, mic_array_decimator_config_t dc[]);
+
+
+void setup_audio_gpio(out port p_gpio){
+  // Reset DAC and disable MUTE
+  p_gpio <: 0x0;
+  delay_milliseconds(1);
+  p_gpio <: 0x1;
+  delay_milliseconds(1);
+}
+
+
+//Globally declared for 64b alignment
+int mic_decimator_fir_data_array[8][THIRD_STAGE_COEFS_PER_STAGE * PDM_MAX_DECIMATION] = {{0}};
+mic_array_frame_time_domain mic_audio_frame[2];
+
 [[distributable]]
 void AudioHub(server i2s_frame_callback_if i2s,
-                  streaming chanend c_audio_hub,
-                  client i2c_master_if ?i_i2c,
-                  client output_gpio_if dac_reset)
+                  streaming chanend c_audio,
+                  streaming chanend (&?c_ds_output)[1])
 {
   int32_t samples_out[NUM_USB_CHAN_OUT] = {0};
   int32_t samples_in[NUM_USB_CHAN_IN] = {0};
 
-  // Reset DAC
-  dac_reset.output(0);
-  delay_milliseconds(1);
-  dac_reset.output(1);
+#if XUA_NUM_PDM_MICS > 0
+  unsigned buffer;
+  int output[XUA_NUM_PDM_MICS] = {0};
+  const unsigned decimatorCount = 1; // Supports up to 4 mics
+  mic_array_decimator_conf_common_t dcc;
+  int * unsafe fir_coefs[7];
+  mic_array_decimator_config_t dc[1];
+  int fir_gain_compen[7];
+  mic_array_frame_time_domain * unsafe current;
+
+  mic_array_decimator_set_samprate(DEFAULT_FREQ, fir_gain_compen, fir_coefs, mic_decimator_fir_data_array[0], &dcc, dc);
+  mic_array_decimator_configure(c_ds_output, decimatorCount, dc);
+  mic_array_init_time_domain_frame(c_ds_output, decimatorCount, buffer, mic_audio_frame, dc);
+#endif
 
 
   while (1) {
@@ -42,10 +68,16 @@ void AudioHub(server i2s_frame_callback_if i2s,
     case i2s.restart_check() -> i2s_restart_t restart:
       restart = I2S_NO_RESTART; // Keep on looping
       timer tmr; int t0, t1; tmr :> t0;
-      for (int i = 0; i < NUM_USB_CHAN_OUT; i++) c_audio_hub :> samples_out[i];
-      for (int i = 0; i < NUM_USB_CHAN_IN; i++) c_audio_hub <: samples_in[i];
+      // for (int i = 0; i < NUM_USB_CHAN_OUT; i++) c_audio :> samples_out[i];
+      // for (int i = 0; i < NUM_USB_CHAN_IN; i++) c_audio <: samples_in[i];
       //tmr :> t1; debug_printf("%d\n", t1 - t0);
-      //delay_microseconds(10); //Test backpressure tolerance
+      //delay_microseconds(15); //Test backpressure tolerance
+
+      current = mic_array_get_next_time_domain_frame(c_ds_output, decimatorCount, buffer, mic_audio_frame, dc);
+      unsafe {
+          samples_out[0] = current->data[0][0];
+          samples_out[1] = current->data[1][0];
+      }
     break;
     }
   }

examples/xua_lite_example/src/pdm_mic.xc

@@ -0,0 +1,75 @@
+#include "xua.h"
+#if (XUA_NUM_PDM_MICS > 0)
+
+#include <platform.h>
+#include <xs1.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <xclib.h>
+#include <stdint.h>
+#include <assert.h>
+
+#include "mic_array.h"
+
+
+void mic_array_decimator_set_samprate(const unsigned samplerate, int fir_gain_compen[], int * unsafe fir_coefs[], int mic_decimator_fir_data_array[], mic_array_decimator_conf_common_t *dcc, mic_array_decimator_config_t dc[])
+{
+    unsigned decimationfactor = 96000/samplerate;
+    unsafe
+    {
+        fir_gain_compen[0] = 0;
+        fir_gain_compen[1] = FIR_COMPENSATOR_DIV_2; //48kHz
+        fir_gain_compen[2] = FIR_COMPENSATOR_DIV_4;
+        fir_gain_compen[3] = FIR_COMPENSATOR_DIV_6; //16kHz
+        fir_gain_compen[4] = FIR_COMPENSATOR_DIV_8;
+        fir_gain_compen[5] = 0;
+        fir_gain_compen[6] = FIR_COMPENSATOR_DIV_12;
+
+        fir_coefs[0] = 0;
+        fir_coefs[1] = (int * unsafe)g_third_stage_div_2_fir;
+        fir_coefs[2] = (int * unsafe)g_third_stage_div_4_fir;
+        fir_coefs[3] = (int * unsafe)g_third_stage_div_6_fir;
+        fir_coefs[4] = (int * unsafe)g_third_stage_div_8_fir;
+        fir_coefs[5] = 0;
+        fir_coefs[6] = (int * unsafe)g_third_stage_div_12_fir;
+
+        //dcc = {MIC_ARRAY_MAX_FRAME_SIZE_LOG2, 1, 0, 0, decimationfactor, fir_coefs[decimationfactor/2], 0, 0, DECIMATOR_NO_FRAME_OVERLAP, 2};
+        dcc->frame_size_log2 = MIC_ARRAY_MAX_FRAME_SIZE_LOG2;
+        dcc->apply_dc_offset_removal = 1;
+        dcc->index_bit_reversal = 0;
+        dcc->windowing_function = null;
+        dcc->output_decimation_factor = decimationfactor;
+        dcc->coefs = fir_coefs[decimationfactor/2];
+        dcc->apply_mic_gain_compensation = 0;
+        dcc->fir_gain_compensation = fir_gain_compen[decimationfactor/2];
+        dcc->buffering_type = DECIMATOR_NO_FRAME_OVERLAP;
+        dcc->number_of_frame_buffers = 2;
+
+        //dc[0] = {&dcc, mic_decimator_fir_data[0], {0, 0, 0, 0}, 4};
+        dc[0].dcc = dcc;
+        dc[0].data = mic_decimator_fir_data_array;
+        dc[0].mic_gain_compensation[0]=0;
+        dc[0].mic_gain_compensation[1]=0;
+        dc[0].mic_gain_compensation[2]=0;
+        dc[0].mic_gain_compensation[3]=0;
+        dc[0].channel_count = 4;
+    }
+}
+
+#if MAX_FREQ > 48000
+#error MAX_FREQ > 48000 NOT CURRENTLY SUPPORTED
+#endif
+
+void pdm_mic(streaming chanend c_ds_output, in buffered port:32 p_pdm_mics)
+{
+    streaming chan c_4x_pdm_mic_0;
+    assert((MCLK_48 / 3072000) == (MCLK_441 / 2822400));
+    par
+    {
+        mic_array_pdm_rx(p_pdm_mics, c_4x_pdm_mic_0, null);
+        mic_array_decimate_to_pcm_4ch(c_4x_pdm_mic_0, c_ds_output, MIC_ARRAY_NO_INTERNAL_CHANS);
+
+    }
+}
+#endif

examples/xua_lite_example/src/xua_conf.h

@@ -20,15 +20,21 @@
 #define PRODUCT_STR_A1        "XUA Lite Class 1"
 #define PID_AUDIO_1           1   
 #define PID_AUDIO_2           2
-#define XUA_DFU_EN            0           /* Disable DFU (for simplicity of example) */
+#define XUA_DFU_EN            0      /* Disable DFU (for simplicity of example) */
 
 #define INPUT_FORMAT_COUNT    1
 #define STREAM_FORMAT_INPUT_1_RESOLUTION_BITS     16
 #define OUTPUT_FORMAT_COUNT   1
 #define STREAM_FORMAT_OUTPUT_1_RESOLUTION_BITS    16
 
+#define OUTPUT_VOLUME_CONTROL 0
+#define INPUT_VOLUME_CONTROL  0 
+
 #define UAC_FORCE_FEEDBACK_EP 1
-#define XUA_LITE              1           // Use simple/optimised USB buffer tasks
+#define XUA_LITE              1       // Use simple/optimised USB buffer tasks
 #define AUDIO_CLASS           1
 
+#define XUA_NUM_PDM_MICS      4       // It's actually 2 but we run 4ch and ignore 2
+#define PDM_MAX_DECIMATION    (96000/(MIN_FREQ))
+
 #endif