//
// Copyright 2012-2013 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
//
#ifndef INCLUDED_B200_REGS_HPP
#define INCLUDED_B200_REGS_HPP
#include
#define TOREG(x) ((x)*4)
#define localparam static const int
localparam SR_CORE_SPI = 8;
localparam SR_CORE_MISC = 16;
localparam SR_CORE_COMPAT = 24;
localparam SR_CORE_GPSDO_ST = 40;
localparam SR_CORE_SYNC = 48;
localparam RB32_CORE_SPI = 8;
localparam RB32_CORE_MISC = 16;
localparam RB32_CORE_STATUS = 20;
localparam RB32_CORE_PLL = 24;
localparam SR_SPI = 8;
localparam SR_ATR = 12;
localparam SR_TEST = 21;
localparam SR_CODEC_IDLE = 22;
localparam SR_READBACK = 32;
localparam SR_TX_CTRL = 64;
localparam SR_RX_CTRL = 96;
localparam SR_RX_DSP = 144;
localparam SR_TX_DSP = 184;
localparam SR_TIME = 128;
localparam SR_RX_FMT = 136;
localparam SR_TX_FMT = 138;
localparam SR_FP_GPIO = 200;
localparam RB32_TEST = 0;
localparam RB64_TIME_NOW = 8;
localparam RB64_TIME_PPS = 16;
localparam RB64_CODEC_READBACK = 24;
localparam RB32_FP_GPIO = 32;
//pll constants
static const int AD9361_SLAVENO = (1 << 0);
static const int ADF4001_SLAVENO = (1 << 1);
static const double AD9361_SPI_RATE = 1e6;
static const double ADF4001_SPI_RATE = 10e3; //slow for large time constant on spi lines
/* ATR Control Bits */
static const uint32_t TX_ENABLE1 = (1 << 7);
static const uint32_t SFDX1_RX = (1 << 6);
static const uint32_t SFDX1_TX = (1 << 5);
static const uint32_t SRX1_RX = (1 << 4);
static const uint32_t SRX1_TX = (1 << 3);
static const uint32_t LED_RX1 = (1 << 2);
static const uint32_t LED_TXRX_RX1 = (1 << 1);
static const uint32_t LED_TXRX_TX1 = (1 << 0);
static const uint32_t TX_ENABLE2 = (1 << 7);
static const uint32_t SFDX2_RX = (1 << 6);
static const uint32_t SFDX2_TX = (1 << 5);
static const uint32_t SRX2_RX = (1 << 4);
static const uint32_t SRX2_TX = (1 << 3);
static const uint32_t LED_RX2 = (1 << 2);
static const uint32_t LED_TXRX_RX2 = (1 << 1);
static const uint32_t LED_TXRX_TX2 = (1 << 0);
/* ATR State Definitions. */
static const uint32_t STATE_OFF = 0x00;
///////////////////////// side 1 ///////////////////////////////////
static const uint32_t STATE_RX1_RX2 = (SFDX1_RX
| SFDX1_TX
| LED_RX1);
static const uint32_t STATE_RX1_TXRX = (SRX1_RX
| SRX1_TX
| LED_TXRX_RX1);
static const uint32_t STATE_FDX1_TXRX = (TX_ENABLE1
| SFDX1_RX
| SFDX1_TX
| LED_TXRX_TX1
| LED_RX1);
static const uint32_t STATE_TX1_TXRX = (TX_ENABLE1
| SFDX1_RX
| SFDX1_TX
| LED_TXRX_TX1);
///////////////////////// side 2 ///////////////////////////////////
static const uint32_t STATE_RX2_RX2 = (SFDX2_RX
| SRX2_TX
| LED_RX2);
static const uint32_t STATE_RX2_TXRX = (SRX2_TX
| SRX2_RX
| LED_TXRX_RX2);
static const uint32_t STATE_FDX2_TXRX = (TX_ENABLE2
| SFDX2_RX
| SFDX2_TX
| LED_TXRX_TX2
| LED_RX2);
static const uint32_t STATE_TX2_TXRX = (TX_ENABLE2
| SFDX2_RX
| SFDX2_TX
| LED_TXRX_TX2);
#endif /* INCLUDED_B200_REGS_HPP */