4 AD9361s on a single board. Need device tree help

Hello,

    I am trying to use the kernel driver for configuring the spi interface easily.  I don't necessarily want to use the RX and TX DMAs that are standard in the Vivado design.  I have my own custom DMA with custom blocks beforehand that filter and decimate the data.  Can I just use the SPI interface portion of the driver or do I need the TX and RX DMAs present in my device tree regardless if I don't use them.  Additionally, If I do need to use the DMAs I don't understand the relationship between the mastercore and slavecore and the 2x designation in the compatible property.  In my vivado design I have 1 RX DMA that is 256 wide and 1 TX DMA that is 256 wide.  Again, I don't plan on using them.  Can I remove them?  My device trees are attached.  

/ {
	clocks {
		ad9361_clkin: clock@0 {
			#clock-cells = <0>;
			compatible = "adjustable-clock";
			clock-frequency = <80000000>;
			clock-accuracy = <200000>; /* 200 ppm (ppb) */
			clock-output-names = "ad9361_ext_refclk";
		};
	};
};

&spi0 {
    /* ad9361_0_L1Ant0_L1Ant1*/
	adc0_ad9361: ad9361-phy@0 {
		#address-cells = <1>;
		#size-cells = <0>;
		#clock-cells = <1>;
		compatible = "adi,ad9361-2x";

		/* SPI Setup */
		reg = <0>;
		spi-cpha;
		spi-max-frequency = <10000000>;

		/* Clocks */
		clocks = <&ad9361_clkin>;
		clock-names = "ad9361_ext_refclk";
		clock-output-names = "rx_sampl_clk", "tx_sampl_clk";


		//adi,debug-mode-enable;
		/* Digital Interface Control */

		adi,pp-tx-swap-enable;
		adi,pp-rx-swap-enable;
		adi,rx-frame-pulse-mode-enable;
		adi,lvds-mode-enable;
		adi,lvds-bias-mV = <150>;
		adi,lvds-rx-onchip-termination-enable;

		adi,rx-data-clock-delay = <0>;
		adi,rx-data-delay = <9>;
		adi,tx-fb-clock-delay = <4>;
		adi,tx-data-delay = <0>;

		//adi,fdd-rx-rate-2tx-enable;

		//adi,dcxo-coarse-and-fine-tune = <8 5920>;
		adi,xo-disable-use-ext-refclk-enable;

		/* Mode Setup */

		adi,2rx-2tx-mode-enable;
		//adi,split-gain-table-mode-enable;

		/* ENSM Mode */
		//adi,frequency-division-duplex-mode-enable = <0>;
		//adi,ensm-enable-pin-pulse-mode-enable;
		//adi,ensm-enable-txnrx-control-enable;


		adi,rx1-rx2-phase-inversion-enable;

		/* adi,rx-rf-port-input-select:
		 * 0 = (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced
		 * 1 = (RX1B_N &  RX1B_P) and (RX2B_N & RX2B_P) enabled; balanced
		 * 2 = (RX1C_N &  RX1C_P) and (RX2C_N & RX2C_P) enabled; balanced
		 *
		 * 3 = RX1A_N and RX2A_N enabled; unbalanced
		 * 4 = RX1A_P and RX2A_P enabled; unbalanced
		 * 5 = RX1B_N and RX2B_N enabled; unbalanced
		 * 6 = RX1B_P and RX2B_P enabled; unbalanced
		 * 7 = RX1C_N and RX2C_N enabled; unbalanced
		 * 8 = RX1C_P and RX2C_P enabled; unbalanced
		 */

		adi,rx-rf-port-input-select = <0>; /* (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced */

		/* adi,tx-rf-port-input-select:
		 * 0	TX1A, TX2A
		 * 1	TX1B, TX2B
		 */

		adi,tx-rf-port-input-select = <0>; /* TX1A, TX2A */
		//adi,update-tx-gain-in-alert-enable;
		adi,tx-attenuation-mdB = <10000>;
		adi,tx-lo-powerdown-managed-enable;

		adi,rf-rx-bandwidth-hz = <22000000>;
		adi,rf-tx-bandwidth-hz = <18000000>;
		adi,rx-synthesizer-frequency-hz = /bits/ 64 <1570420000>;
		adi,tx-synthesizer-frequency-hz = /bits/ 64 <2400000000>;

		/*				BBPLL     ADC        R2CLK     R1CLK    CLKRF    RSAMPL  */
		adi,rx-path-clock-frequencies = <960000000 480000000 240000000 120000000 60000000 60000000>;
		/*				BBPLL     DAC        T2CLK     T1CLK    CLKTF    TSAMPL  */
		adi,tx-path-clock-frequencies = <960000000 240000000 120000000 60000000 60000000 60000000>;

		/* Gain Control */

		/* adi,gc-rx[1|2]-mode:
		 * 0 = RF_GAIN_MGC
		 * 1 = RF_GAIN_FASTATTACK_AGC
		 * 2 = RF_GAIN_SLOWATTACK_AGC
		 * 3 = RF_GAIN_HYBRID_AGC
		 */

		adi,gc-rx1-mode = <0>;
		adi,gc-rx2-mode = <0>;
		adi,gc-adc-ovr-sample-size = <4>; /* sum 4 samples */
		adi,gc-adc-small-overload-thresh = <47>; /* sum of squares */
		adi,gc-adc-large-overload-thresh = <58>; /* sum of squares */
		adi,gc-lmt-overload-high-thresh = <800>; /* mV */
		adi,gc-lmt-overload-low-thresh = <704>; /* mV */
		adi,gc-dec-pow-measurement-duration = <8192>; /* 0..524288 Samples */
		adi,gc-low-power-thresh = <24>; /* 0..-64 dBFS vals are set pos */
		//adi,gc-dig-gain-enable;
		//adi,gc-max-dig-gain = <15>;

		/* Manual Gain Control Setup */

		//adi,mgc-rx1-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		//adi,mgc-rx2-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		adi,mgc-inc-gain-step = <2>;
		adi,mgc-dec-gain-step = <2>;

		/* adi,mgc-split-table-ctrl-inp-gain-mode:
		 * (relevant if adi,split-gain-table-mode-enable is set)
		 * 0 = AGC determine this
		 * 1 = only in LPF
		 * 2 = only in LMT
		 */

		adi,mgc-split-table-ctrl-inp-gain-mode = <0>;

		/* Automatic Gain Control Setup */

		adi,agc-attack-delay-extra-margin-us= <1>; /* us */
		adi,agc-outer-thresh-high = <5>; /* -dBFS */
		adi,agc-outer-thresh-high-dec-steps = <2>; /* 0..15 */
		adi,agc-inner-thresh-high = <10>; /* -dBFS */
		adi,agc-inner-thresh-high-dec-steps = <1>; /* 0..7 */
		adi,agc-inner-thresh-low = <12>; /* -dBFS */
		adi,agc-inner-thresh-low-inc-steps = <1>; /* 0..7 */
		adi,agc-outer-thresh-low = <18>; /* -dBFS */
		adi,agc-outer-thresh-low-inc-steps = <2>; /* 0..15 */

		adi,agc-adc-small-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-inc-steps = <2>; /* 0..15 */
		//adi,agc-adc-lmt-small-overload-prevent-gain-inc-enable;
		adi,agc-lmt-overload-large-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-small-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-large-inc-steps = <2>; /* 0..7 */
		//adi,agc-dig-saturation-exceed-counter = <3>; /* 0..15 */
		//adi,agc-dig-gain-step-size = <4>; /* 1..8 */

		//adi,agc-sync-for-gain-counter-enable;
		adi,agc-gain-update-interval-us = <1000>;  /* 1ms */
		//adi,agc-immed-gain-change-if-large-adc-overload-enable;
		//adi,agc-immed-gain-change-if-large-lmt-overload-enable;

		/* Fast AGC */

		adi,fagc-dec-pow-measurement-duration = <64>; /* 64 Samples */
		//adi,fagc-allow-agc-gain-increase-enable;
		adi,fagc-lp-thresh-increment-steps = <1>;
		adi,fagc-lp-thresh-increment-time = <5>;

		adi,fagc-energy-lost-stronger-sig-gain-lock-exit-cnt = <8>;
		adi,fagc-final-overrange-count = <3>;
		//adi,fagc-gain-increase-after-gain-lock-enable;
		adi,fagc-gain-index-type-after-exit-rx-mode = <0>;
		adi,fagc-lmt-final-settling-steps = <1>;
		adi,fagc-lock-level = <10>;
		adi,fagc-lock-level-gain-increase-upper-limit = <5>;
		adi,fagc-lock-level-lmt-gain-increase-enable;

		adi,fagc-lpf-final-settling-steps = <1>;
		adi,fagc-optimized-gain-offset = <5>;
		adi,fagc-power-measurement-duration-in-state5 = <64>;
		adi,fagc-rst-gla-engergy-lost-goto-optim-gain-enable;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-below-ll = <10>;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-exceeded-enable;
		adi,fagc-rst-gla-if-en-agc-pulled-high-mode = <0>;
		adi,fagc-rst-gla-large-adc-overload-enable;
		adi,fagc-rst-gla-large-lmt-overload-enable;
		adi,fagc-rst-gla-stronger-sig-thresh-above-ll = <10>;
		adi,fagc-rst-gla-stronger-sig-thresh-exceeded-enable;
		adi,fagc-state-wait-time-ns = <260>;
		adi,fagc-use-last-lock-level-for-set-gain-enable;

		/* RSSI */

		/* adi,rssi-restart-mode:
		 * 0 = AGC_IN_FAST_ATTACK_MODE_LOCKS_THE_GAIN,
		 * 1 = EN_AGC_PIN_IS_PULLED_HIGH,
		 * 2 = ENTERS_RX_MODE,
		 * 3 = GAIN_CHANGE_OCCURS,
		 * 4 = SPI_WRITE_TO_REGISTER,
		 * 5 = GAIN_CHANGE_OCCURS_OR_EN_AGC_PIN_PULLED_HIGH,
		 */
		adi,rssi-restart-mode = <3>;
		//adi,rssi-unit-is-rx-samples-enable;
		adi,rssi-delay = <1>; /* 1us */
		adi,rssi-wait = <1>; /* 1us */
		adi,rssi-duration = <1000>; /* 1ms */

		/* Control Outputs */
		adi,ctrl-outs-index = <0>;
		adi,ctrl-outs-enable-mask = <0xFF>;

		/* AuxADC Temp Sense Control */

		adi,temp-sense-measurement-interval-ms = <1000>;
		adi,temp-sense-offset-signed = <0xCE>;
		adi,temp-sense-periodic-measurement-enable;

		/* AuxDAC Control */

		adi,aux-dac-manual-mode-enable;

		adi,aux-dac1-default-value-mV = <0>;
		//adi,aux-dac1-active-in-rx-enable;
		//adi,aux-dac1-active-in-tx-enable;
		//adi,aux-dac1-active-in-alert-enable;
		adi,aux-dac1-rx-delay-us = <0>;
		adi,aux-dac1-tx-delay-us = <0>;

		adi,aux-dac2-default-value-mV = <0>;
		//adi,aux-dac2-active-in-rx-enable;
		//adi,aux-dac2-active-in-tx-enable;
		//adi,aux-dac2-active-in-alert-enable;
		adi,aux-dac2-rx-delay-us = <0>;
		adi,aux-dac2-tx-delay-us = <0>;
	};

	/* ad9361_1_L1Ant2 */
	adc1_ad9361: ad9361-phy-B@1 {
		#address-cells = <1>;
		#size-cells = <0>;
		#clock-cells = <1>;
		compatible = "adi,ad9361";

		/* SPI Setup */
		reg = <1>;
		spi-cpha;
		spi-max-frequency = <10000000>;

		/* Clocks */
		clocks = <&ad9361_clkin>;
		clock-names = "ad9361_ext_refclk";
		clock-output-names = "rx_sampl_clk", "tx_sampl_clk";


		//adi,debug-mode-enable;
		/* Digital Interface Control */

		adi,pp-tx-swap-enable;
		adi,pp-rx-swap-enable;
		adi,rx-frame-pulse-mode-enable;
		adi,lvds-mode-enable;
		adi,lvds-bias-mV = <150>;
		adi,lvds-rx-onchip-termination-enable;

		adi,rx-data-clock-delay = <0>;
		adi,rx-data-delay = <9>;
		adi,tx-fb-clock-delay = <4>;
		adi,tx-data-delay = <0>;

		//adi,fdd-rx-rate-2tx-enable;

		//adi,dcxo-coarse-and-fine-tune = <8 5920>;
		adi,xo-disable-use-ext-refclk-enable;

		/* Mode Setup */

		adi,2rx-2tx-mode-enable;
		//adi,split-gain-table-mode-enable;

		/* ENSM Mode */
		//adi,frequency-division-duplex-mode-enable = <0>;
		//adi,ensm-enable-pin-pulse-mode-enable;
		//adi,ensm-enable-txnrx-control-enable;


		adi,rx1-rx2-phase-inversion-enable;

		/* adi,rx-rf-port-input-select:
		 * 0 = (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced
		 * 1 = (RX1B_N &  RX1B_P) and (RX2B_N & RX2B_P) enabled; balanced
		 * 2 = (RX1C_N &  RX1C_P) and (RX2C_N & RX2C_P) enabled; balanced
		 *
		 * 3 = RX1A_N and RX2A_N enabled; unbalanced
		 * 4 = RX1A_P and RX2A_P enabled; unbalanced
		 * 5 = RX1B_N and RX2B_N enabled; unbalanced
		 * 6 = RX1B_P and RX2B_P enabled; unbalanced
		 * 7 = RX1C_N and RX2C_N enabled; unbalanced
		 * 8 = RX1C_P and RX2C_P enabled; unbalanced
		 */

		adi,rx-rf-port-input-select = <0>; /* (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced */

		/* adi,tx-rf-port-input-select:
		 * 0	TX1A, TX2A
		 * 1	TX1B, TX2B
		 */

		adi,tx-rf-port-input-select = <0>; /* TX1A, TX2A */
		//adi,update-tx-gain-in-alert-enable;
		adi,tx-attenuation-mdB = <10000>;
		adi,tx-lo-powerdown-managed-enable;

		adi,rf-rx-bandwidth-hz = <22000000>;
		adi,rf-tx-bandwidth-hz = <18000000>;
		adi,rx-synthesizer-frequency-hz = /bits/ 64 <1570420000>;
		adi,tx-synthesizer-frequency-hz = /bits/ 64 <2400000000>;

		/*				BBPLL     ADC        R2CLK     R1CLK    CLKRF    RSAMPL  */
		adi,rx-path-clock-frequencies = <960000000 480000000 240000000 120000000 60000000 60000000>;
		/*				BBPLL     DAC        T2CLK     T1CLK    CLKTF    TSAMPL  */
		adi,tx-path-clock-frequencies = <960000000 240000000 120000000 60000000 60000000 60000000>;

		/* Gain Control */

		/* adi,gc-rx[1|2]-mode:
		 * 0 = RF_GAIN_MGC
		 * 1 = RF_GAIN_FASTATTACK_AGC
		 * 2 = RF_GAIN_SLOWATTACK_AGC
		 * 3 = RF_GAIN_HYBRID_AGC
		 */

		adi,gc-rx1-mode = <0>;
		adi,gc-rx2-mode = <0>;
		adi,gc-adc-ovr-sample-size = <4>; /* sum 4 samples */
		adi,gc-adc-small-overload-thresh = <47>; /* sum of squares */
		adi,gc-adc-large-overload-thresh = <58>; /* sum of squares */
		adi,gc-lmt-overload-high-thresh = <800>; /* mV */
		adi,gc-lmt-overload-low-thresh = <704>; /* mV */
		adi,gc-dec-pow-measurement-duration = <8192>; /* 0..524288 Samples */
		adi,gc-low-power-thresh = <24>; /* 0..-64 dBFS vals are set pos */
		//adi,gc-dig-gain-enable;
		//adi,gc-max-dig-gain = <15>;

		/* Manual Gain Control Setup */

		//adi,mgc-rx1-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		//adi,mgc-rx2-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		adi,mgc-inc-gain-step = <2>;
		adi,mgc-dec-gain-step = <2>;

		/* adi,mgc-split-table-ctrl-inp-gain-mode:
		 * (relevant if adi,split-gain-table-mode-enable is set)
		 * 0 = AGC determine this
		 * 1 = only in LPF
		 * 2 = only in LMT
		 */

		adi,mgc-split-table-ctrl-inp-gain-mode = <0>;

		/* Automatic Gain Control Setup */

		adi,agc-attack-delay-extra-margin-us= <1>; /* us */
		adi,agc-outer-thresh-high = <5>; /* -dBFS */
		adi,agc-outer-thresh-high-dec-steps = <2>; /* 0..15 */
		adi,agc-inner-thresh-high = <10>; /* -dBFS */
		adi,agc-inner-thresh-high-dec-steps = <1>; /* 0..7 */
		adi,agc-inner-thresh-low = <12>; /* -dBFS */
		adi,agc-inner-thresh-low-inc-steps = <1>; /* 0..7 */
		adi,agc-outer-thresh-low = <18>; /* -dBFS */
		adi,agc-outer-thresh-low-inc-steps = <2>; /* 0..15 */

		adi,agc-adc-small-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-inc-steps = <2>; /* 0..15 */
		//adi,agc-adc-lmt-small-overload-prevent-gain-inc-enable;
		adi,agc-lmt-overload-large-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-small-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-large-inc-steps = <2>; /* 0..7 */
		//adi,agc-dig-saturation-exceed-counter = <3>; /* 0..15 */
		//adi,agc-dig-gain-step-size = <4>; /* 1..8 */

		//adi,agc-sync-for-gain-counter-enable;
		adi,agc-gain-update-interval-us = <1000>;  /* 1ms */
		//adi,agc-immed-gain-change-if-large-adc-overload-enable;
		//adi,agc-immed-gain-change-if-large-lmt-overload-enable;

		/* Fast AGC */

		adi,fagc-dec-pow-measurement-duration = <64>; /* 64 Samples */
		//adi,fagc-allow-agc-gain-increase-enable;
		adi,fagc-lp-thresh-increment-steps = <1>;
		adi,fagc-lp-thresh-increment-time = <5>;

		adi,fagc-energy-lost-stronger-sig-gain-lock-exit-cnt = <8>;
		adi,fagc-final-overrange-count = <3>;
		//adi,fagc-gain-increase-after-gain-lock-enable;
		adi,fagc-gain-index-type-after-exit-rx-mode = <0>;
		adi,fagc-lmt-final-settling-steps = <1>;
		adi,fagc-lock-level = <10>;
		adi,fagc-lock-level-gain-increase-upper-limit = <5>;
		adi,fagc-lock-level-lmt-gain-increase-enable;

		adi,fagc-lpf-final-settling-steps = <1>;
		adi,fagc-optimized-gain-offset = <5>;
		adi,fagc-power-measurement-duration-in-state5 = <64>;
		adi,fagc-rst-gla-engergy-lost-goto-optim-gain-enable;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-below-ll = <10>;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-exceeded-enable;
		adi,fagc-rst-gla-if-en-agc-pulled-high-mode = <0>;
		adi,fagc-rst-gla-large-adc-overload-enable;
		adi,fagc-rst-gla-large-lmt-overload-enable;
		adi,fagc-rst-gla-stronger-sig-thresh-above-ll = <10>;
		adi,fagc-rst-gla-stronger-sig-thresh-exceeded-enable;
		adi,fagc-state-wait-time-ns = <260>;
		adi,fagc-use-last-lock-level-for-set-gain-enable;

		/* RSSI */

		/* adi,rssi-restart-mode:
		 * 0 = AGC_IN_FAST_ATTACK_MODE_LOCKS_THE_GAIN,
		 * 1 = EN_AGC_PIN_IS_PULLED_HIGH,
		 * 2 = ENTERS_RX_MODE,
		 * 3 = GAIN_CHANGE_OCCURS,
		 * 4 = SPI_WRITE_TO_REGISTER,
		 * 5 = GAIN_CHANGE_OCCURS_OR_EN_AGC_PIN_PULLED_HIGH,
		 */
		adi,rssi-restart-mode = <3>;
		//adi,rssi-unit-is-rx-samples-enable;
		adi,rssi-delay = <1>; /* 1us */
		adi,rssi-wait = <1>; /* 1us */
		adi,rssi-duration = <1000>; /* 1ms */

		/* Control Outputs */
		adi,ctrl-outs-index = <0>;
		adi,ctrl-outs-enable-mask = <0xFF>;

		/* AuxADC Temp Sense Control */

		adi,temp-sense-measurement-interval-ms = <1000>;
		adi,temp-sense-offset-signed = <0xCE>;
		adi,temp-sense-periodic-measurement-enable;

		/* AuxDAC Control */

		adi,aux-dac-manual-mode-enable;

		adi,aux-dac1-default-value-mV = <0>;
		//adi,aux-dac1-active-in-rx-enable;
		//adi,aux-dac1-active-in-tx-enable;
		//adi,aux-dac1-active-in-alert-enable;
		adi,aux-dac1-rx-delay-us = <0>;
		adi,aux-dac1-tx-delay-us = <0>;

		adi,aux-dac2-default-value-mV = <0>;
		//adi,aux-dac2-active-in-rx-enable;
		//adi,aux-dac2-active-in-tx-enable;
		//adi,aux-dac2-active-in-alert-enable;
		adi,aux-dac2-rx-delay-us = <0>;
		adi,aux-dac2-tx-delay-us = <0>;
	};

	/* ad9361_2_L2Ant0_L2Ant1 */
	adc2_ad9361: ad9361-phy-C@2 {
		#address-cells = <1>;
		#size-cells = <0>;
		#clock-cells = <1>;
		compatible = "adi,ad9361";

		/* SPI Setup */
		reg = <2>;
		spi-cpha;
		spi-max-frequency = <10000000>;

		/* Clocks */
		clocks = <&ad9361_clkin>;
		clock-names = "ad9361_ext_refclk";
		clock-output-names = "rx_sampl_clk", "tx_sampl_clk";


		//adi,debug-mode-enable;
		/* Digital Interface Control */

		adi,pp-tx-swap-enable;
		adi,pp-rx-swap-enable;
		adi,rx-frame-pulse-mode-enable;
		adi,lvds-mode-enable;
		adi,lvds-bias-mV = <150>;
		adi,lvds-rx-onchip-termination-enable;

		adi,rx-data-clock-delay = <0>;
		adi,rx-data-delay = <9>;
		adi,tx-fb-clock-delay = <4>;
		adi,tx-data-delay = <0>;

		//adi,fdd-rx-rate-2tx-enable;

		//adi,dcxo-coarse-and-fine-tune = <8 5920>;
		adi,xo-disable-use-ext-refclk-enable;

		/* Mode Setup */

		adi,2rx-2tx-mode-enable;
		//adi,split-gain-table-mode-enable;

		/* ENSM Mode */
		//adi,frequency-division-duplex-mode-enable = <0>;
		//adi,ensm-enable-pin-pulse-mode-enable;
		//adi,ensm-enable-txnrx-control-enable;

		adi,rx1-rx2-phase-inversion-enable;

		/* adi,rx-rf-port-input-select:
		 * 0 = (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced
		 * 1 = (RX1B_N &  RX1B_P) and (RX2B_N & RX2B_P) enabled; balanced
		 * 2 = (RX1C_N &  RX1C_P) and (RX2C_N & RX2C_P) enabled; balanced
		 *
		 * 3 = RX1A_N and RX2A_N enabled; unbalanced
		 * 4 = RX1A_P and RX2A_P enabled; unbalanced
		 * 5 = RX1B_N and RX2B_N enabled; unbalanced
		 * 6 = RX1B_P and RX2B_P enabled; unbalanced
		 * 7 = RX1C_N and RX2C_N enabled; unbalanced
		 * 8 = RX1C_P and RX2C_P enabled; unbalanced
		 */

		adi,rx-rf-port-input-select = <0>; /* (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced */

		/* adi,tx-rf-port-input-select:
		 * 0	TX1A, TX2A
		 * 1	TX1B, TX2B
		 */

		adi,tx-rf-port-input-select = <0>; /* TX1A, TX2A */
		//adi,update-tx-gain-in-alert-enable;
		adi,tx-attenuation-mdB = <10000>;
		adi,tx-lo-powerdown-managed-enable;

		adi,rf-rx-bandwidth-hz = <22000000>;
		adi,rf-tx-bandwidth-hz = <18000000>;
		adi,rx-synthesizer-frequency-hz = /bits/ 64 <1222600000>;
		adi,tx-synthesizer-frequency-hz = /bits/ 64 <2400000000>;

		/*				BBPLL     ADC        R2CLK     R1CLK    CLKRF    RSAMPL  */
		adi,rx-path-clock-frequencies = <960000000 480000000 240000000 120000000 60000000 60000000>;
		/*				BBPLL     DAC        T2CLK     T1CLK    CLKTF    TSAMPL  */
		adi,tx-path-clock-frequencies = <960000000 240000000 120000000 60000000 60000000 60000000>;

		/* Gain Control */

		/* adi,gc-rx[1|2]-mode:
		 * 0 = RF_GAIN_MGC
		 * 1 = RF_GAIN_FASTATTACK_AGC
		 * 2 = RF_GAIN_SLOWATTACK_AGC
		 * 3 = RF_GAIN_HYBRID_AGC
		 */

		adi,gc-rx1-mode = <0>;
		adi,gc-rx2-mode = <0>;
		adi,gc-adc-ovr-sample-size = <4>; /* sum 4 samples */
		adi,gc-adc-small-overload-thresh = <47>; /* sum of squares */
		adi,gc-adc-large-overload-thresh = <58>; /* sum of squares */
		adi,gc-lmt-overload-high-thresh = <800>; /* mV */
		adi,gc-lmt-overload-low-thresh = <704>; /* mV */
		adi,gc-dec-pow-measurement-duration = <8192>; /* 0..524288 Samples */
		adi,gc-low-power-thresh = <24>; /* 0..-64 dBFS vals are set pos */
		//adi,gc-dig-gain-enable;
		//adi,gc-max-dig-gain = <15>;

		/* Manual Gain Control Setup */

		//adi,mgc-rx1-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		//adi,mgc-rx2-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		adi,mgc-inc-gain-step = <2>;
		adi,mgc-dec-gain-step = <2>;

		/* adi,mgc-split-table-ctrl-inp-gain-mode:
		 * (relevant if adi,split-gain-table-mode-enable is set)
		 * 0 = AGC determine this
		 * 1 = only in LPF
		 * 2 = only in LMT
		 */

		adi,mgc-split-table-ctrl-inp-gain-mode = <0>;

		/* Automatic Gain Control Setup */

		adi,agc-attack-delay-extra-margin-us= <1>; /* us */
		adi,agc-outer-thresh-high = <5>; /* -dBFS */
		adi,agc-outer-thresh-high-dec-steps = <2>; /* 0..15 */
		adi,agc-inner-thresh-high = <10>; /* -dBFS */
		adi,agc-inner-thresh-high-dec-steps = <1>; /* 0..7 */
		adi,agc-inner-thresh-low = <12>; /* -dBFS */
		adi,agc-inner-thresh-low-inc-steps = <1>; /* 0..7 */
		adi,agc-outer-thresh-low = <18>; /* -dBFS */
		adi,agc-outer-thresh-low-inc-steps = <2>; /* 0..15 */

		adi,agc-adc-small-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-inc-steps = <2>; /* 0..15 */
		//adi,agc-adc-lmt-small-overload-prevent-gain-inc-enable;
		adi,agc-lmt-overload-large-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-small-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-large-inc-steps = <2>; /* 0..7 */
		//adi,agc-dig-saturation-exceed-counter = <3>; /* 0..15 */
		//adi,agc-dig-gain-step-size = <4>; /* 1..8 */

		//adi,agc-sync-for-gain-counter-enable;
		adi,agc-gain-update-interval-us = <1000>;  /* 1ms */
		//adi,agc-immed-gain-change-if-large-adc-overload-enable;
		//adi,agc-immed-gain-change-if-large-lmt-overload-enable;

		/* Fast AGC */

		adi,fagc-dec-pow-measurement-duration = <64>; /* 64 Samples */
		//adi,fagc-allow-agc-gain-increase-enable;
		adi,fagc-lp-thresh-increment-steps = <1>;
		adi,fagc-lp-thresh-increment-time = <5>;

		adi,fagc-energy-lost-stronger-sig-gain-lock-exit-cnt = <8>;
		adi,fagc-final-overrange-count = <3>;
		//adi,fagc-gain-increase-after-gain-lock-enable;
		adi,fagc-gain-index-type-after-exit-rx-mode = <0>;
		adi,fagc-lmt-final-settling-steps = <1>;
		adi,fagc-lock-level = <10>;
		adi,fagc-lock-level-gain-increase-upper-limit = <5>;
		adi,fagc-lock-level-lmt-gain-increase-enable;

		adi,fagc-lpf-final-settling-steps = <1>;
		adi,fagc-optimized-gain-offset = <5>;
		adi,fagc-power-measurement-duration-in-state5 = <64>;
		adi,fagc-rst-gla-engergy-lost-goto-optim-gain-enable;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-below-ll = <10>;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-exceeded-enable;
		adi,fagc-rst-gla-if-en-agc-pulled-high-mode = <0>;
		adi,fagc-rst-gla-large-adc-overload-enable;
		adi,fagc-rst-gla-large-lmt-overload-enable;
		adi,fagc-rst-gla-stronger-sig-thresh-above-ll = <10>;
		adi,fagc-rst-gla-stronger-sig-thresh-exceeded-enable;
		adi,fagc-state-wait-time-ns = <260>;
		adi,fagc-use-last-lock-level-for-set-gain-enable;

		/* RSSI */

		/* adi,rssi-restart-mode:
		 * 0 = AGC_IN_FAST_ATTACK_MODE_LOCKS_THE_GAIN,
		 * 1 = EN_AGC_PIN_IS_PULLED_HIGH,
		 * 2 = ENTERS_RX_MODE,
		 * 3 = GAIN_CHANGE_OCCURS,
		 * 4 = SPI_WRITE_TO_REGISTER,
		 * 5 = GAIN_CHANGE_OCCURS_OR_EN_AGC_PIN_PULLED_HIGH,
		 */
		adi,rssi-restart-mode = <3>;
		//adi,rssi-unit-is-rx-samples-enable;
		adi,rssi-delay = <1>; /* 1us */
		adi,rssi-wait = <1>; /* 1us */
		adi,rssi-duration = <1000>; /* 1ms */

		/* Control Outputs */
		adi,ctrl-outs-index = <0>;
		adi,ctrl-outs-enable-mask = <0xFF>;

		/* AuxADC Temp Sense Control */

		adi,temp-sense-measurement-interval-ms = <1000>;
		adi,temp-sense-offset-signed = <0xCE>;
		adi,temp-sense-periodic-measurement-enable;

		/* AuxDAC Control */

		adi,aux-dac-manual-mode-enable;

		adi,aux-dac1-default-value-mV = <0>;
		//adi,aux-dac1-active-in-rx-enable;
		//adi,aux-dac1-active-in-tx-enable;
		//adi,aux-dac1-active-in-alert-enable;
		adi,aux-dac1-rx-delay-us = <0>;
		adi,aux-dac1-tx-delay-us = <0>;

		adi,aux-dac2-default-value-mV = <0>;
		//adi,aux-dac2-active-in-rx-enable;
		//adi,aux-dac2-active-in-tx-enable;
		//adi,aux-dac2-active-in-alert-enable;
		adi,aux-dac2-rx-delay-us = <0>;
		adi,aux-dac2-tx-delay-us = <0>;
	};
};

&spi1 {
	/* ad9361_3_L2Ant2 */
	adc3_ad9361: ad9361-phy-D@0 {
		#address-cells = <1>;
		#size-cells = <0>;
		#clock-cells = <1>;
		compatible = "adi,ad9361";

		/* SPI Setup */
		reg = <0>;
		spi-cpha;
		spi-max-frequency = <10000000>;

		/* Clocks */
		clocks = <&ad9361_clkin>;
		clock-names = "ad9361_ext_refclk";
		clock-output-names = "rx_sampl_clk", "tx_sampl_clk";


		//adi,debug-mode-enable;
		/* Digital Interface Control */

		adi,pp-tx-swap-enable;
		adi,pp-rx-swap-enable;
		adi,rx-frame-pulse-mode-enable;
		adi,lvds-mode-enable;
		adi,lvds-bias-mV = <150>;
		adi,lvds-rx-onchip-termination-enable;

		adi,rx-data-clock-delay = <0>;
		adi,rx-data-delay = <9>;
		adi,tx-fb-clock-delay = <4>;
		adi,tx-data-delay = <0>;

		//adi,fdd-rx-rate-2tx-enable;

		//adi,dcxo-coarse-and-fine-tune = <8 5920>;
		adi,xo-disable-use-ext-refclk-enable;

		/* Mode Setup */

		adi,2rx-2tx-mode-enable;
		//adi,split-gain-table-mode-enable;

		/* ENSM Mode */
		//adi,frequency-division-duplex-mode-enable = <0>;
		//adi,ensm-enable-pin-pulse-mode-enable;
		//adi,ensm-enable-txnrx-control-enable;

		adi,rx1-rx2-phase-inversion-enable;

		/* adi,rx-rf-port-input-select:
		 * 0 = (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced
		 * 1 = (RX1B_N &  RX1B_P) and (RX2B_N & RX2B_P) enabled; balanced
		 * 2 = (RX1C_N &  RX1C_P) and (RX2C_N & RX2C_P) enabled; balanced
		 *
		 * 3 = RX1A_N and RX2A_N enabled; unbalanced
		 * 4 = RX1A_P and RX2A_P enabled; unbalanced
		 * 5 = RX1B_N and RX2B_N enabled; unbalanced
		 * 6 = RX1B_P and RX2B_P enabled; unbalanced
		 * 7 = RX1C_N and RX2C_N enabled; unbalanced
		 * 8 = RX1C_P and RX2C_P enabled; unbalanced
		 */

		adi,rx-rf-port-input-select = <0>; /* (RX1A_N &  RX1A_P) and (RX2A_N & RX2A_P) enabled; balanced */

		/* adi,tx-rf-port-input-select:
		 * 0	TX1A, TX2A
		 * 1	TX1B, TX2B
		 */

		adi,tx-rf-port-input-select = <0>; /* TX1A, TX2A */
		//adi,update-tx-gain-in-alert-enable;
		adi,tx-attenuation-mdB = <10000>;
		adi,tx-lo-powerdown-managed-enable;

		adi,rf-rx-bandwidth-hz = <22000000>;
		adi,rf-tx-bandwidth-hz = <18000000>;
		adi,rx-synthesizer-frequency-hz = /bits/ 64 <1222600000>;
		adi,tx-synthesizer-frequency-hz = /bits/ 64 <2400000000>;

		/*				BBPLL     ADC        R2CLK     R1CLK    CLKRF    RSAMPL  */
		adi,rx-path-clock-frequencies = <960000000 480000000 240000000 120000000 60000000 60000000>;
		/*				BBPLL     DAC        T2CLK     T1CLK    CLKTF    TSAMPL  */
		adi,tx-path-clock-frequencies = <960000000 240000000 120000000 60000000 60000000 60000000>;

		/* Gain Control */

		/* adi,gc-rx[1|2]-mode:
		 * 0 = RF_GAIN_MGC
		 * 1 = RF_GAIN_FASTATTACK_AGC
		 * 2 = RF_GAIN_SLOWATTACK_AGC
		 * 3 = RF_GAIN_HYBRID_AGC
		 */

		adi,gc-rx1-mode = <0>;
		adi,gc-rx2-mode = <0>;
		adi,gc-adc-ovr-sample-size = <4>; /* sum 4 samples */
		adi,gc-adc-small-overload-thresh = <47>; /* sum of squares */
		adi,gc-adc-large-overload-thresh = <58>; /* sum of squares */
		adi,gc-lmt-overload-high-thresh = <800>; /* mV */
		adi,gc-lmt-overload-low-thresh = <704>; /* mV */
		adi,gc-dec-pow-measurement-duration = <8192>; /* 0..524288 Samples */
		adi,gc-low-power-thresh = <24>; /* 0..-64 dBFS vals are set pos */
		//adi,gc-dig-gain-enable;
		//adi,gc-max-dig-gain = <15>;

		/* Manual Gain Control Setup */

		//adi,mgc-rx1-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		//adi,mgc-rx2-ctrl-inp-enable; /* uncomment to use ctrl inputs */
		adi,mgc-inc-gain-step = <2>;
		adi,mgc-dec-gain-step = <2>;

		/* adi,mgc-split-table-ctrl-inp-gain-mode:
		 * (relevant if adi,split-gain-table-mode-enable is set)
		 * 0 = AGC determine this
		 * 1 = only in LPF
		 * 2 = only in LMT
		 */

		adi,mgc-split-table-ctrl-inp-gain-mode = <0>;

		/* Automatic Gain Control Setup */

		adi,agc-attack-delay-extra-margin-us= <1>; /* us */
		adi,agc-outer-thresh-high = <5>; /* -dBFS */
		adi,agc-outer-thresh-high-dec-steps = <2>; /* 0..15 */
		adi,agc-inner-thresh-high = <10>; /* -dBFS */
		adi,agc-inner-thresh-high-dec-steps = <1>; /* 0..7 */
		adi,agc-inner-thresh-low = <12>; /* -dBFS */
		adi,agc-inner-thresh-low-inc-steps = <1>; /* 0..7 */
		adi,agc-outer-thresh-low = <18>; /* -dBFS */
		adi,agc-outer-thresh-low-inc-steps = <2>; /* 0..15 */

		adi,agc-adc-small-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-exceed-counter = <10>; /* 0..15 */
		adi,agc-adc-large-overload-inc-steps = <2>; /* 0..15 */
		//adi,agc-adc-lmt-small-overload-prevent-gain-inc-enable;
		adi,agc-lmt-overload-large-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-small-exceed-counter = <10>; /* 0..15 */
		adi,agc-lmt-overload-large-inc-steps = <2>; /* 0..7 */
		//adi,agc-dig-saturation-exceed-counter = <3>; /* 0..15 */
		//adi,agc-dig-gain-step-size = <4>; /* 1..8 */

		//adi,agc-sync-for-gain-counter-enable;
		adi,agc-gain-update-interval-us = <1000>;  /* 1ms */
		//adi,agc-immed-gain-change-if-large-adc-overload-enable;
		//adi,agc-immed-gain-change-if-large-lmt-overload-enable;

		/* Fast AGC */

		adi,fagc-dec-pow-measurement-duration = <64>; /* 64 Samples */
		//adi,fagc-allow-agc-gain-increase-enable;
		adi,fagc-lp-thresh-increment-steps = <1>;
		adi,fagc-lp-thresh-increment-time = <5>;

		adi,fagc-energy-lost-stronger-sig-gain-lock-exit-cnt = <8>;
		adi,fagc-final-overrange-count = <3>;
		//adi,fagc-gain-increase-after-gain-lock-enable;
		adi,fagc-gain-index-type-after-exit-rx-mode = <0>;
		adi,fagc-lmt-final-settling-steps = <1>;
		adi,fagc-lock-level = <10>;
		adi,fagc-lock-level-gain-increase-upper-limit = <5>;
		adi,fagc-lock-level-lmt-gain-increase-enable;

		adi,fagc-lpf-final-settling-steps = <1>;
		adi,fagc-optimized-gain-offset = <5>;
		adi,fagc-power-measurement-duration-in-state5 = <64>;
		adi,fagc-rst-gla-engergy-lost-goto-optim-gain-enable;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-below-ll = <10>;
		adi,fagc-rst-gla-engergy-lost-sig-thresh-exceeded-enable;
		adi,fagc-rst-gla-if-en-agc-pulled-high-mode = <0>;
		adi,fagc-rst-gla-large-adc-overload-enable;
		adi,fagc-rst-gla-large-lmt-overload-enable;
		adi,fagc-rst-gla-stronger-sig-thresh-above-ll = <10>;
		adi,fagc-rst-gla-stronger-sig-thresh-exceeded-enable;
		adi,fagc-state-wait-time-ns = <260>;
		adi,fagc-use-last-lock-level-for-set-gain-enable;

		/* RSSI */

		/* adi,rssi-restart-mode:
		 * 0 = AGC_IN_FAST_ATTACK_MODE_LOCKS_THE_GAIN,
		 * 1 = EN_AGC_PIN_IS_PULLED_HIGH,
		 * 2 = ENTERS_RX_MODE,
		 * 3 = GAIN_CHANGE_OCCURS,
		 * 4 = SPI_WRITE_TO_REGISTER,
		 * 5 = GAIN_CHANGE_OCCURS_OR_EN_AGC_PIN_PULLED_HIGH,
		 */
		adi,rssi-restart-mode = <3>;
		//adi,rssi-unit-is-rx-samples-enable;
		adi,rssi-delay = <1>; /* 1us */
		adi,rssi-wait = <1>; /* 1us */
		adi,rssi-duration = <1000>; /* 1ms */

		/* Control Outputs */
		adi,ctrl-outs-index = <0>;
		adi,ctrl-outs-enable-mask = <0xFF>;

		/* AuxADC Temp Sense Control */

		adi,temp-sense-measurement-interval-ms = <1000>;
		adi,temp-sense-offset-signed = <0xCE>;
		adi,temp-sense-periodic-measurement-enable;

		/* AuxDAC Control */

		adi,aux-dac-manual-mode-enable;

		adi,aux-dac1-default-value-mV = <0>;
		//adi,aux-dac1-active-in-rx-enable;
		//adi,aux-dac1-active-in-tx-enable;
		//adi,aux-dac1-active-in-alert-enable;
		adi,aux-dac1-rx-delay-us = <0>;
		adi,aux-dac1-tx-delay-us = <0>;

		adi,aux-dac2-default-value-mV = <0>;
		//adi,aux-dac2-active-in-rx-enable;
		//adi,aux-dac2-active-in-tx-enable;
		//adi,aux-dac2-active-in-alert-enable;
		adi,aux-dac2-rx-delay-us = <0>;
		adi,aux-dac2-tx-delay-us = <0>;
	};
};

/include/ "system-conf.dtsi"
/ {
    /* reducing memory available by 0xA000 * 2 = 0x14000 */
    memory {
        device_type = "memory";
        reg = <0x0 0x0 0x0 0x3FEEC000>;
    };

    pod_dma_ctr: pod-dma-ctr@0 {
               compatible = "pod,prfi_dma";
                dmas = <&axi_dmac_0 0>;
               dma-names = "prfi_dma";
    }; 


    /* these are each of the AD9361 IP blocks in Vivado DAC*/
    cf_ad9361_dac_core_0: cf-ad9361-dds-core-lpc@99024000 {
            compatible = "adi,axi-ad9361-dds-6.00.a";
            reg = <0x99024000 0x1000>;
            clocks = <&adc0_ad9361 13>;
            clock-names = "sampl_clk";
            dmas = <&axi_ad9361_dac_dma 0>;
            dma-names = "tx";
            slavecore-reg = <0x99044000 0x1000>;
        };

    cf_ad9361_dac_core_1: cf-ad9361-dds-core-B@99044000 {
            compatible = "adi,axi-ad9361x2-dds-6.00.a";
            reg = <0x99044000 0x1000>;
            clocks = <&adc1_ad9361 13>;
            clock-names = "sampl_clk";
            mastercore-reg = <0x99024000 0x1000>;
        };
    cf_ad9361_dac_core_2: cf-ad9361-dds-core-C@99064000 {
            compatible = "adi,axi-ad9361-dds-6.00.a";
            reg = <0x99064000 0x1000>;
            clocks = <&adc2_ad9361 13>;
            clock-names = "sampl_clk";
            mastercore-reg = <0x99024000 0x1000>;
        };
    cf_ad9361_dac_core_3: cf-ad9361-dds-core-D@99084000 {
            compatible = "adi,axi-ad9361-dds-6.00.a";
            reg = <0x99084000 0x1000>;
            clocks = <&adc3_ad9361 13>;
            clock-names = "sampl_clk";
            mastercore-reg = <0x99024000 0x1000>;
        };

};     
&tsu_ext_clk {
    clock-frequency = <250000000>;
};
&gem0 {
    phy-handle = <&phy9>;
    phy9: phy@9 {
        reg = <0x9>;
        xlnx,phy-type = <0x5>;
    };
};

&i2c0 {
status = "okay";
clock-frequency = <400000>;

    lm87@2e {
        compatible = "ti,lm87";
        reg = <0x2e>;
        has-in6;
        has-in7;
    };  

    ad7291@20 {
        compatible = "adi,ad7291";
        reg = <0x20>;
    };  
};    
/* PRFI DMA */
&axi_dmac_0 {
    compatible = "adi,axi-dmac-1.00.a";

    adi,channels {
        #size-cells = <0>;
        #address-cells = <1>;

        dma-channel@0 {
            reg = <0>;
            adi,source-bus-width = <128>;
            adi,source-bus-type = <1>;
            adi,destination-bus-width = <32>;
            adi,destination-bus-type = <0>;
            adi,length-width = <24>;
        };
    };
};

/* This is the ADI default RX DMA */
&axi_ad9361_adc_dma {
    compatible = "adi,axi-dmac-1.00.a";
    adi,channels {
        #size-cells = <0>;
        #address-cells = <1>;

        dma-channel@0 {
            reg = <0>;
            adi,source-bus-width = <256>;
            adi,source-bus-type = <2>;
            adi,destination-bus-width = <64>;
            adi,destination-bus-type = <0>;
        };
    };
};

/* This is the ADI default TX DMA */
&axi_ad9361_dac_dma {
    compatible = "adi,axi-dmac-1.00.a";
    adi,channels {
            #size-cells = <0>;
            #address-cells = <1>;

        dma-channel@0 {
            reg = <0>;
            adi,source-bus-width = <64>;
            adi,source-bus-type = <0>;
            adi,destination-bus-width = <256>;
            adi,destination-bus-type = <2>;
        };
    };
};
/* these are each of the AD9361 IP blocks in Vivado A2D*/
&axi_ad9361_0_L1Ant0_L1Ant1 {            
            compatible = "adi,axi-ad9361-6.00.a";
            dmas = <&axi_ad9361_adc_dma 0>;
            dma-names = "rx";
            spibus-connected = <&adc0_ad9361>;
            slavecore-reg = <0x99040000 0x6000>;
        };

&axi_ad9361_1_L1Ant2 {            
            compatible = "adi,axi-ad9361-6.00.a";
            spibus-connected = <&adc1_ad9361>;       
        };

&axi_ad9361_2_L2Ant0_L2Ant1 {            
            compatible = "adi,axi-ad9361-6.00.a";
            spibus-connected = <&adc2_ad9361>;           
        };

&axi_ad9361_3_L2Ant2 {            
            compatible = "adi,axi-ad9361-6.00.a";            
            spibus-connected = <&adc3_ad9361>;
        };



#include "ad9361_spi_and_clock.dtsi"

&adc0_ad9361 {
    reset-gpios = <&gpio 130 0>;
    sync-gpios = <&gpio 129 0>;   
    enable-gpios = <&gpio 132 0>;
};

&adc1_ad9361 {
    reset-gpios = <&gpio 130 0>;
    enable-gpios = <&gpio 135 0>;
};

&adc2_ad9361 {
    reset-gpios = <&gpio 130 0>;
    enable-gpios = <&gpio 125 0>;
};

&adc3_ad9361 {
    reset-gpios = <&gpio 130 0>;
    enable-gpios = <&gpio 124 0>;
};