rtt-f030/bsp/frdm-k64f/device/MK64F12/MK64F12_fmc.h

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2014-06-29 00:34:20 +08:00
/*
* Copyright (c) 2014, Freescale Semiconductor, Inc.
* All rights reserved.
*
* THIS SOFTWARE IS PROVIDED BY FREESCALE "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
* SHALL FREESCALE BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*/
/*
* WARNING! DO NOT EDIT THIS FILE DIRECTLY!
*
* This file was generated automatically and any changes may be lost.
*/
#ifndef __HW_FMC_REGISTERS_H__
#define __HW_FMC_REGISTERS_H__
#include "regs.h"
/*
* MK64F12 FMC
*
* Flash Memory Controller
*
* Registers defined in this header file:
* - HW_FMC_PFAPR - Flash Access Protection Register
* - HW_FMC_PFB0CR - Flash Bank 0 Control Register
* - HW_FMC_PFB1CR - Flash Bank 1 Control Register
* - HW_FMC_TAGVDW0Sn - Cache Tag Storage
* - HW_FMC_TAGVDW1Sn - Cache Tag Storage
* - HW_FMC_TAGVDW2Sn - Cache Tag Storage
* - HW_FMC_TAGVDW3Sn - Cache Tag Storage
* - HW_FMC_DATAW0SnU - Cache Data Storage (upper word)
* - HW_FMC_DATAW0SnL - Cache Data Storage (lower word)
* - HW_FMC_DATAW1SnU - Cache Data Storage (upper word)
* - HW_FMC_DATAW1SnL - Cache Data Storage (lower word)
* - HW_FMC_DATAW2SnU - Cache Data Storage (upper word)
* - HW_FMC_DATAW2SnL - Cache Data Storage (lower word)
* - HW_FMC_DATAW3SnU - Cache Data Storage (upper word)
* - HW_FMC_DATAW3SnL - Cache Data Storage (lower word)
*
* - hw_fmc_t - Struct containing all module registers.
*/
//! @name Module base addresses
//@{
#ifndef REGS_FMC_BASE
#define HW_FMC_INSTANCE_COUNT (1U) //!< Number of instances of the FMC module.
#define REGS_FMC_BASE (0x4001F000U) //!< Base address for FMC.
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_PFAPR - Flash Access Protection Register
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_PFAPR - Flash Access Protection Register (RW)
*
* Reset value: 0x00F8003FU
*/
typedef union _hw_fmc_pfapr
{
uint32_t U;
struct _hw_fmc_pfapr_bitfields
{
uint32_t M0AP : 2; //!< [1:0] Master 0 Access Protection
uint32_t M1AP : 2; //!< [3:2] Master 1 Access Protection
uint32_t M2AP : 2; //!< [5:4] Master 2 Access Protection
uint32_t M3AP : 2; //!< [7:6] Master 3 Access Protection
uint32_t M4AP : 2; //!< [9:8] Master 4 Access Protection
uint32_t M5AP : 2; //!< [11:10] Master 5 Access Protection
uint32_t M6AP : 2; //!< [13:12] Master 6 Access Protection
uint32_t M7AP : 2; //!< [15:14] Master 7 Access Protection
uint32_t M0PFD : 1; //!< [16] Master 0 Prefetch Disable
uint32_t M1PFD : 1; //!< [17] Master 1 Prefetch Disable
uint32_t M2PFD : 1; //!< [18] Master 2 Prefetch Disable
uint32_t M3PFD : 1; //!< [19] Master 3 Prefetch Disable
uint32_t M4PFD : 1; //!< [20] Master 4 Prefetch Disable
uint32_t M5PFD : 1; //!< [21] Master 5 Prefetch Disable
uint32_t M6PFD : 1; //!< [22] Master 6 Prefetch Disable
uint32_t M7PFD : 1; //!< [23] Master 7 Prefetch Disable
uint32_t RESERVED0 : 8; //!< [31:24]
} B;
} hw_fmc_pfapr_t;
#endif
/*!
* @name Constants and macros for entire FMC_PFAPR register
*/
//@{
#define HW_FMC_PFAPR_ADDR (REGS_FMC_BASE + 0x0U)
#ifndef __LANGUAGE_ASM__
#define HW_FMC_PFAPR (*(__IO hw_fmc_pfapr_t *) HW_FMC_PFAPR_ADDR)
#define HW_FMC_PFAPR_RD() (HW_FMC_PFAPR.U)
#define HW_FMC_PFAPR_WR(v) (HW_FMC_PFAPR.U = (v))
#define HW_FMC_PFAPR_SET(v) (HW_FMC_PFAPR_WR(HW_FMC_PFAPR_RD() | (v)))
#define HW_FMC_PFAPR_CLR(v) (HW_FMC_PFAPR_WR(HW_FMC_PFAPR_RD() & ~(v)))
#define HW_FMC_PFAPR_TOG(v) (HW_FMC_PFAPR_WR(HW_FMC_PFAPR_RD() ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_PFAPR bitfields
*/
/*!
* @name Register FMC_PFAPR, field M0AP[1:0] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M0AP (0U) //!< Bit position for FMC_PFAPR_M0AP.
#define BM_FMC_PFAPR_M0AP (0x00000003U) //!< Bit mask for FMC_PFAPR_M0AP.
#define BS_FMC_PFAPR_M0AP (2U) //!< Bit field size in bits for FMC_PFAPR_M0AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M0AP field.
#define BR_FMC_PFAPR_M0AP (HW_FMC_PFAPR.B.M0AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M0AP.
#define BF_FMC_PFAPR_M0AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M0AP), uint32_t) & BM_FMC_PFAPR_M0AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M0AP field to a new value.
#define BW_FMC_PFAPR_M0AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M0AP) | BF_FMC_PFAPR_M0AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M1AP[3:2] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M1AP (2U) //!< Bit position for FMC_PFAPR_M1AP.
#define BM_FMC_PFAPR_M1AP (0x0000000CU) //!< Bit mask for FMC_PFAPR_M1AP.
#define BS_FMC_PFAPR_M1AP (2U) //!< Bit field size in bits for FMC_PFAPR_M1AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M1AP field.
#define BR_FMC_PFAPR_M1AP (HW_FMC_PFAPR.B.M1AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M1AP.
#define BF_FMC_PFAPR_M1AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M1AP), uint32_t) & BM_FMC_PFAPR_M1AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M1AP field to a new value.
#define BW_FMC_PFAPR_M1AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M1AP) | BF_FMC_PFAPR_M1AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M2AP[5:4] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M2AP (4U) //!< Bit position for FMC_PFAPR_M2AP.
#define BM_FMC_PFAPR_M2AP (0x00000030U) //!< Bit mask for FMC_PFAPR_M2AP.
#define BS_FMC_PFAPR_M2AP (2U) //!< Bit field size in bits for FMC_PFAPR_M2AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M2AP field.
#define BR_FMC_PFAPR_M2AP (HW_FMC_PFAPR.B.M2AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M2AP.
#define BF_FMC_PFAPR_M2AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M2AP), uint32_t) & BM_FMC_PFAPR_M2AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M2AP field to a new value.
#define BW_FMC_PFAPR_M2AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M2AP) | BF_FMC_PFAPR_M2AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M3AP[7:6] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M3AP (6U) //!< Bit position for FMC_PFAPR_M3AP.
#define BM_FMC_PFAPR_M3AP (0x000000C0U) //!< Bit mask for FMC_PFAPR_M3AP.
#define BS_FMC_PFAPR_M3AP (2U) //!< Bit field size in bits for FMC_PFAPR_M3AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M3AP field.
#define BR_FMC_PFAPR_M3AP (HW_FMC_PFAPR.B.M3AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M3AP.
#define BF_FMC_PFAPR_M3AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M3AP), uint32_t) & BM_FMC_PFAPR_M3AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M3AP field to a new value.
#define BW_FMC_PFAPR_M3AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M3AP) | BF_FMC_PFAPR_M3AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M4AP[9:8] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M4AP (8U) //!< Bit position for FMC_PFAPR_M4AP.
#define BM_FMC_PFAPR_M4AP (0x00000300U) //!< Bit mask for FMC_PFAPR_M4AP.
#define BS_FMC_PFAPR_M4AP (2U) //!< Bit field size in bits for FMC_PFAPR_M4AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M4AP field.
#define BR_FMC_PFAPR_M4AP (HW_FMC_PFAPR.B.M4AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M4AP.
#define BF_FMC_PFAPR_M4AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M4AP), uint32_t) & BM_FMC_PFAPR_M4AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M4AP field to a new value.
#define BW_FMC_PFAPR_M4AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M4AP) | BF_FMC_PFAPR_M4AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M5AP[11:10] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M5AP (10U) //!< Bit position for FMC_PFAPR_M5AP.
#define BM_FMC_PFAPR_M5AP (0x00000C00U) //!< Bit mask for FMC_PFAPR_M5AP.
#define BS_FMC_PFAPR_M5AP (2U) //!< Bit field size in bits for FMC_PFAPR_M5AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M5AP field.
#define BR_FMC_PFAPR_M5AP (HW_FMC_PFAPR.B.M5AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M5AP.
#define BF_FMC_PFAPR_M5AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M5AP), uint32_t) & BM_FMC_PFAPR_M5AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M5AP field to a new value.
#define BW_FMC_PFAPR_M5AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M5AP) | BF_FMC_PFAPR_M5AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M6AP[13:12] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master
* - 01 - Only read accesses may be performed by this master
* - 10 - Only write accesses may be performed by this master
* - 11 - Both read and write accesses may be performed by this master
*/
//@{
#define BP_FMC_PFAPR_M6AP (12U) //!< Bit position for FMC_PFAPR_M6AP.
#define BM_FMC_PFAPR_M6AP (0x00003000U) //!< Bit mask for FMC_PFAPR_M6AP.
#define BS_FMC_PFAPR_M6AP (2U) //!< Bit field size in bits for FMC_PFAPR_M6AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M6AP field.
#define BR_FMC_PFAPR_M6AP (HW_FMC_PFAPR.B.M6AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M6AP.
#define BF_FMC_PFAPR_M6AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M6AP), uint32_t) & BM_FMC_PFAPR_M6AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M6AP field to a new value.
#define BW_FMC_PFAPR_M6AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M6AP) | BF_FMC_PFAPR_M6AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M7AP[15:14] (RW)
*
* This field controls whether read and write access to the flash are allowed
* based on the logical master number of the requesting crossbar switch master.
*
* Values:
* - 00 - No access may be performed by this master.
* - 01 - Only read accesses may be performed by this master.
* - 10 - Only write accesses may be performed by this master.
* - 11 - Both read and write accesses may be performed by this master.
*/
//@{
#define BP_FMC_PFAPR_M7AP (14U) //!< Bit position for FMC_PFAPR_M7AP.
#define BM_FMC_PFAPR_M7AP (0x0000C000U) //!< Bit mask for FMC_PFAPR_M7AP.
#define BS_FMC_PFAPR_M7AP (2U) //!< Bit field size in bits for FMC_PFAPR_M7AP.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M7AP field.
#define BR_FMC_PFAPR_M7AP (HW_FMC_PFAPR.B.M7AP)
#endif
//! @brief Format value for bitfield FMC_PFAPR_M7AP.
#define BF_FMC_PFAPR_M7AP(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M7AP), uint32_t) & BM_FMC_PFAPR_M7AP)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M7AP field to a new value.
#define BW_FMC_PFAPR_M7AP(v) (HW_FMC_PFAPR_WR((HW_FMC_PFAPR_RD() & ~BM_FMC_PFAPR_M7AP) | BF_FMC_PFAPR_M7AP(v)))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M0PFD[16] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M0PFD (16U) //!< Bit position for FMC_PFAPR_M0PFD.
#define BM_FMC_PFAPR_M0PFD (0x00010000U) //!< Bit mask for FMC_PFAPR_M0PFD.
#define BS_FMC_PFAPR_M0PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M0PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M0PFD field.
#define BR_FMC_PFAPR_M0PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M0PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M0PFD.
#define BF_FMC_PFAPR_M0PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M0PFD), uint32_t) & BM_FMC_PFAPR_M0PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M0PFD field to a new value.
#define BW_FMC_PFAPR_M0PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M0PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M1PFD[17] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M1PFD (17U) //!< Bit position for FMC_PFAPR_M1PFD.
#define BM_FMC_PFAPR_M1PFD (0x00020000U) //!< Bit mask for FMC_PFAPR_M1PFD.
#define BS_FMC_PFAPR_M1PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M1PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M1PFD field.
#define BR_FMC_PFAPR_M1PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M1PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M1PFD.
#define BF_FMC_PFAPR_M1PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M1PFD), uint32_t) & BM_FMC_PFAPR_M1PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M1PFD field to a new value.
#define BW_FMC_PFAPR_M1PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M1PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M2PFD[18] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M2PFD (18U) //!< Bit position for FMC_PFAPR_M2PFD.
#define BM_FMC_PFAPR_M2PFD (0x00040000U) //!< Bit mask for FMC_PFAPR_M2PFD.
#define BS_FMC_PFAPR_M2PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M2PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M2PFD field.
#define BR_FMC_PFAPR_M2PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M2PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M2PFD.
#define BF_FMC_PFAPR_M2PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M2PFD), uint32_t) & BM_FMC_PFAPR_M2PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M2PFD field to a new value.
#define BW_FMC_PFAPR_M2PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M2PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M3PFD[19] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M3PFD (19U) //!< Bit position for FMC_PFAPR_M3PFD.
#define BM_FMC_PFAPR_M3PFD (0x00080000U) //!< Bit mask for FMC_PFAPR_M3PFD.
#define BS_FMC_PFAPR_M3PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M3PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M3PFD field.
#define BR_FMC_PFAPR_M3PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M3PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M3PFD.
#define BF_FMC_PFAPR_M3PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M3PFD), uint32_t) & BM_FMC_PFAPR_M3PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M3PFD field to a new value.
#define BW_FMC_PFAPR_M3PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M3PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M4PFD[20] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M4PFD (20U) //!< Bit position for FMC_PFAPR_M4PFD.
#define BM_FMC_PFAPR_M4PFD (0x00100000U) //!< Bit mask for FMC_PFAPR_M4PFD.
#define BS_FMC_PFAPR_M4PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M4PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M4PFD field.
#define BR_FMC_PFAPR_M4PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M4PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M4PFD.
#define BF_FMC_PFAPR_M4PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M4PFD), uint32_t) & BM_FMC_PFAPR_M4PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M4PFD field to a new value.
#define BW_FMC_PFAPR_M4PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M4PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M5PFD[21] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M5PFD (21U) //!< Bit position for FMC_PFAPR_M5PFD.
#define BM_FMC_PFAPR_M5PFD (0x00200000U) //!< Bit mask for FMC_PFAPR_M5PFD.
#define BS_FMC_PFAPR_M5PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M5PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M5PFD field.
#define BR_FMC_PFAPR_M5PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M5PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M5PFD.
#define BF_FMC_PFAPR_M5PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M5PFD), uint32_t) & BM_FMC_PFAPR_M5PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M5PFD field to a new value.
#define BW_FMC_PFAPR_M5PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M5PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M6PFD[22] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M6PFD (22U) //!< Bit position for FMC_PFAPR_M6PFD.
#define BM_FMC_PFAPR_M6PFD (0x00400000U) //!< Bit mask for FMC_PFAPR_M6PFD.
#define BS_FMC_PFAPR_M6PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M6PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M6PFD field.
#define BR_FMC_PFAPR_M6PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M6PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M6PFD.
#define BF_FMC_PFAPR_M6PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M6PFD), uint32_t) & BM_FMC_PFAPR_M6PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M6PFD field to a new value.
#define BW_FMC_PFAPR_M6PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M6PFD) = (v))
#endif
//@}
/*!
* @name Register FMC_PFAPR, field M7PFD[23] (RW)
*
* These bits control whether prefetching is enabled based on the logical number
* of the requesting crossbar switch master. This field is further qualified by
* the PFBnCR[BxDPE,BxIPE] bits.
*
* Values:
* - 0 - Prefetching for this master is enabled.
* - 1 - Prefetching for this master is disabled.
*/
//@{
#define BP_FMC_PFAPR_M7PFD (23U) //!< Bit position for FMC_PFAPR_M7PFD.
#define BM_FMC_PFAPR_M7PFD (0x00800000U) //!< Bit mask for FMC_PFAPR_M7PFD.
#define BS_FMC_PFAPR_M7PFD (1U) //!< Bit field size in bits for FMC_PFAPR_M7PFD.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFAPR_M7PFD field.
#define BR_FMC_PFAPR_M7PFD (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M7PFD))
#endif
//! @brief Format value for bitfield FMC_PFAPR_M7PFD.
#define BF_FMC_PFAPR_M7PFD(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFAPR_M7PFD), uint32_t) & BM_FMC_PFAPR_M7PFD)
#ifndef __LANGUAGE_ASM__
//! @brief Set the M7PFD field to a new value.
#define BW_FMC_PFAPR_M7PFD(v) (BITBAND_ACCESS32(HW_FMC_PFAPR_ADDR, BP_FMC_PFAPR_M7PFD) = (v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_PFB0CR - Flash Bank 0 Control Register
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_PFB0CR - Flash Bank 0 Control Register (RW)
*
* Reset value: 0x3004001FU
*/
typedef union _hw_fmc_pfb0cr
{
uint32_t U;
struct _hw_fmc_pfb0cr_bitfields
{
uint32_t B0SEBE : 1; //!< [0] Bank 0 Single Entry Buffer Enable
uint32_t B0IPE : 1; //!< [1] Bank 0 Instruction Prefetch Enable
uint32_t B0DPE : 1; //!< [2] Bank 0 Data Prefetch Enable
uint32_t B0ICE : 1; //!< [3] Bank 0 Instruction Cache Enable
uint32_t B0DCE : 1; //!< [4] Bank 0 Data Cache Enable
uint32_t CRCb : 3; //!< [7:5] Cache Replacement Control
uint32_t RESERVED0 : 9; //!< [16:8]
uint32_t B0MW : 2; //!< [18:17] Bank 0 Memory Width
uint32_t S_B_INV : 1; //!< [19] Invalidate Prefetch Speculation Buffer
uint32_t CINV_WAY : 4; //!< [23:20] Cache Invalidate Way x
uint32_t CLCK_WAY : 4; //!< [27:24] Cache Lock Way x
uint32_t B0RWSC : 4; //!< [31:28] Bank 0 Read Wait State Control
} B;
} hw_fmc_pfb0cr_t;
#endif
/*!
* @name Constants and macros for entire FMC_PFB0CR register
*/
//@{
#define HW_FMC_PFB0CR_ADDR (REGS_FMC_BASE + 0x4U)
#ifndef __LANGUAGE_ASM__
#define HW_FMC_PFB0CR (*(__IO hw_fmc_pfb0cr_t *) HW_FMC_PFB0CR_ADDR)
#define HW_FMC_PFB0CR_RD() (HW_FMC_PFB0CR.U)
#define HW_FMC_PFB0CR_WR(v) (HW_FMC_PFB0CR.U = (v))
#define HW_FMC_PFB0CR_SET(v) (HW_FMC_PFB0CR_WR(HW_FMC_PFB0CR_RD() | (v)))
#define HW_FMC_PFB0CR_CLR(v) (HW_FMC_PFB0CR_WR(HW_FMC_PFB0CR_RD() & ~(v)))
#define HW_FMC_PFB0CR_TOG(v) (HW_FMC_PFB0CR_WR(HW_FMC_PFB0CR_RD() ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_PFB0CR bitfields
*/
/*!
* @name Register FMC_PFB0CR, field B0SEBE[0] (RW)
*
* This bit controls whether the single entry page buffer is enabled in response
* to flash read accesses. Its operation is independent from bank 1's cache. A
* high-to-low transition of this enable forces the page buffer to be invalidated.
*
* Values:
* - 0 - Single entry buffer is disabled.
* - 1 - Single entry buffer is enabled.
*/
//@{
#define BP_FMC_PFB0CR_B0SEBE (0U) //!< Bit position for FMC_PFB0CR_B0SEBE.
#define BM_FMC_PFB0CR_B0SEBE (0x00000001U) //!< Bit mask for FMC_PFB0CR_B0SEBE.
#define BS_FMC_PFB0CR_B0SEBE (1U) //!< Bit field size in bits for FMC_PFB0CR_B0SEBE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0SEBE field.
#define BR_FMC_PFB0CR_B0SEBE (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0SEBE))
#endif
//! @brief Format value for bitfield FMC_PFB0CR_B0SEBE.
#define BF_FMC_PFB0CR_B0SEBE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_B0SEBE), uint32_t) & BM_FMC_PFB0CR_B0SEBE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B0SEBE field to a new value.
#define BW_FMC_PFB0CR_B0SEBE(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0SEBE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0IPE[1] (RW)
*
* This bit controls whether prefetches (or speculative accesses) are initiated
* in response to instruction fetches.
*
* Values:
* - 0 - Do not prefetch in response to instruction fetches.
* - 1 - Enable prefetches in response to instruction fetches.
*/
//@{
#define BP_FMC_PFB0CR_B0IPE (1U) //!< Bit position for FMC_PFB0CR_B0IPE.
#define BM_FMC_PFB0CR_B0IPE (0x00000002U) //!< Bit mask for FMC_PFB0CR_B0IPE.
#define BS_FMC_PFB0CR_B0IPE (1U) //!< Bit field size in bits for FMC_PFB0CR_B0IPE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0IPE field.
#define BR_FMC_PFB0CR_B0IPE (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0IPE))
#endif
//! @brief Format value for bitfield FMC_PFB0CR_B0IPE.
#define BF_FMC_PFB0CR_B0IPE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_B0IPE), uint32_t) & BM_FMC_PFB0CR_B0IPE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B0IPE field to a new value.
#define BW_FMC_PFB0CR_B0IPE(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0IPE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0DPE[2] (RW)
*
* This bit controls whether prefetches (or speculative accesses) are initiated
* in response to data references.
*
* Values:
* - 0 - Do not prefetch in response to data references.
* - 1 - Enable prefetches in response to data references.
*/
//@{
#define BP_FMC_PFB0CR_B0DPE (2U) //!< Bit position for FMC_PFB0CR_B0DPE.
#define BM_FMC_PFB0CR_B0DPE (0x00000004U) //!< Bit mask for FMC_PFB0CR_B0DPE.
#define BS_FMC_PFB0CR_B0DPE (1U) //!< Bit field size in bits for FMC_PFB0CR_B0DPE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0DPE field.
#define BR_FMC_PFB0CR_B0DPE (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0DPE))
#endif
//! @brief Format value for bitfield FMC_PFB0CR_B0DPE.
#define BF_FMC_PFB0CR_B0DPE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_B0DPE), uint32_t) & BM_FMC_PFB0CR_B0DPE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B0DPE field to a new value.
#define BW_FMC_PFB0CR_B0DPE(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0DPE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0ICE[3] (RW)
*
* This bit controls whether instruction fetches are loaded into the cache.
*
* Values:
* - 0 - Do not cache instruction fetches.
* - 1 - Cache instruction fetches.
*/
//@{
#define BP_FMC_PFB0CR_B0ICE (3U) //!< Bit position for FMC_PFB0CR_B0ICE.
#define BM_FMC_PFB0CR_B0ICE (0x00000008U) //!< Bit mask for FMC_PFB0CR_B0ICE.
#define BS_FMC_PFB0CR_B0ICE (1U) //!< Bit field size in bits for FMC_PFB0CR_B0ICE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0ICE field.
#define BR_FMC_PFB0CR_B0ICE (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0ICE))
#endif
//! @brief Format value for bitfield FMC_PFB0CR_B0ICE.
#define BF_FMC_PFB0CR_B0ICE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_B0ICE), uint32_t) & BM_FMC_PFB0CR_B0ICE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B0ICE field to a new value.
#define BW_FMC_PFB0CR_B0ICE(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0ICE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0DCE[4] (RW)
*
* This bit controls whether data references are loaded into the cache.
*
* Values:
* - 0 - Do not cache data references.
* - 1 - Cache data references.
*/
//@{
#define BP_FMC_PFB0CR_B0DCE (4U) //!< Bit position for FMC_PFB0CR_B0DCE.
#define BM_FMC_PFB0CR_B0DCE (0x00000010U) //!< Bit mask for FMC_PFB0CR_B0DCE.
#define BS_FMC_PFB0CR_B0DCE (1U) //!< Bit field size in bits for FMC_PFB0CR_B0DCE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0DCE field.
#define BR_FMC_PFB0CR_B0DCE (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0DCE))
#endif
//! @brief Format value for bitfield FMC_PFB0CR_B0DCE.
#define BF_FMC_PFB0CR_B0DCE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_B0DCE), uint32_t) & BM_FMC_PFB0CR_B0DCE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B0DCE field to a new value.
#define BW_FMC_PFB0CR_B0DCE(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_B0DCE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field CRC[7:5] (RW)
*
* This 3-bit field defines the replacement algorithm for accesses that are
* cached.
*
* Values:
* - 000 - LRU replacement algorithm per set across all four ways
* - 001 - Reserved
* - 010 - Independent LRU with ways [0-1] for ifetches, [2-3] for data
* - 011 - Independent LRU with ways [0-2] for ifetches, [3] for data
* - 1xx - Reserved
*/
//@{
#define BP_FMC_PFB0CR_CRC (5U) //!< Bit position for FMC_PFB0CR_CRC.
#define BM_FMC_PFB0CR_CRC (0x000000E0U) //!< Bit mask for FMC_PFB0CR_CRC.
#define BS_FMC_PFB0CR_CRC (3U) //!< Bit field size in bits for FMC_PFB0CR_CRC.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_CRC field.
#define BR_FMC_PFB0CR_CRC (HW_FMC_PFB0CR.B.CRC)
#endif
//! @brief Format value for bitfield FMC_PFB0CR_CRC.
#define BF_FMC_PFB0CR_CRC(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_CRC), uint32_t) & BM_FMC_PFB0CR_CRC)
#ifndef __LANGUAGE_ASM__
//! @brief Set the CRC field to a new value.
#define BW_FMC_PFB0CR_CRC(v) (HW_FMC_PFB0CR_WR((HW_FMC_PFB0CR_RD() & ~BM_FMC_PFB0CR_CRC) | BF_FMC_PFB0CR_CRC(v)))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0MW[18:17] (RO)
*
* This read-only field defines the width of the bank 0 memory.
*
* Values:
* - 00 - 32 bits
* - 01 - 64 bits
* - 10 - 128 bits
* - 11 - Reserved
*/
//@{
#define BP_FMC_PFB0CR_B0MW (17U) //!< Bit position for FMC_PFB0CR_B0MW.
#define BM_FMC_PFB0CR_B0MW (0x00060000U) //!< Bit mask for FMC_PFB0CR_B0MW.
#define BS_FMC_PFB0CR_B0MW (2U) //!< Bit field size in bits for FMC_PFB0CR_B0MW.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0MW field.
#define BR_FMC_PFB0CR_B0MW (HW_FMC_PFB0CR.B.B0MW)
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field S_B_INV[19] (WORZ)
*
* This bit determines if the FMC's prefetch speculation buffer and the single
* entry page buffer are to be invalidated (cleared). When this bit is written,
* the speculation buffer and single entry buffer are immediately cleared. This bit
* always reads as zero.
*
* Values:
* - 0 - Speculation buffer and single entry buffer are not affected.
* - 1 - Invalidate (clear) speculation buffer and single entry buffer.
*/
//@{
#define BP_FMC_PFB0CR_S_B_INV (19U) //!< Bit position for FMC_PFB0CR_S_B_INV.
#define BM_FMC_PFB0CR_S_B_INV (0x00080000U) //!< Bit mask for FMC_PFB0CR_S_B_INV.
#define BS_FMC_PFB0CR_S_B_INV (1U) //!< Bit field size in bits for FMC_PFB0CR_S_B_INV.
//! @brief Format value for bitfield FMC_PFB0CR_S_B_INV.
#define BF_FMC_PFB0CR_S_B_INV(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_S_B_INV), uint32_t) & BM_FMC_PFB0CR_S_B_INV)
#ifndef __LANGUAGE_ASM__
//! @brief Set the S_B_INV field to a new value.
#define BW_FMC_PFB0CR_S_B_INV(v) (BITBAND_ACCESS32(HW_FMC_PFB0CR_ADDR, BP_FMC_PFB0CR_S_B_INV) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field CINV_WAY[23:20] (WORZ)
*
* These bits determine if the given cache way is to be invalidated (cleared).
* When a bit within this field is written, the corresponding cache way is
* immediately invalidated: the way's tag, data, and valid contents are cleared. This
* field always reads as zero. Cache invalidation takes precedence over locking.
* The cache is invalidated by system reset. System software is required to
* maintain memory coherency when any segment of the flash memory is programmed or
* erased. Accordingly, cache invalidations must occur after a programming or erase
* event is completed and before the new memory image is accessed. The bit setting
* definitions are for each bit in the field.
*
* Values:
* - 0 - No cache way invalidation for the corresponding cache
* - 1 - Invalidate cache way for the corresponding cache: clear the tag, data,
* and vld bits of ways selected
*/
//@{
#define BP_FMC_PFB0CR_CINV_WAY (20U) //!< Bit position for FMC_PFB0CR_CINV_WAY.
#define BM_FMC_PFB0CR_CINV_WAY (0x00F00000U) //!< Bit mask for FMC_PFB0CR_CINV_WAY.
#define BS_FMC_PFB0CR_CINV_WAY (4U) //!< Bit field size in bits for FMC_PFB0CR_CINV_WAY.
//! @brief Format value for bitfield FMC_PFB0CR_CINV_WAY.
#define BF_FMC_PFB0CR_CINV_WAY(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_CINV_WAY), uint32_t) & BM_FMC_PFB0CR_CINV_WAY)
#ifndef __LANGUAGE_ASM__
//! @brief Set the CINV_WAY field to a new value.
#define BW_FMC_PFB0CR_CINV_WAY(v) (HW_FMC_PFB0CR_WR((HW_FMC_PFB0CR_RD() & ~BM_FMC_PFB0CR_CINV_WAY) | BF_FMC_PFB0CR_CINV_WAY(v)))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field CLCK_WAY[27:24] (RW)
*
* These bits determine if the given cache way is locked such that its contents
* will not be displaced by future misses. The bit setting definitions are for
* each bit in the field.
*
* Values:
* - 0 - Cache way is unlocked and may be displaced
* - 1 - Cache way is locked and its contents are not displaced
*/
//@{
#define BP_FMC_PFB0CR_CLCK_WAY (24U) //!< Bit position for FMC_PFB0CR_CLCK_WAY.
#define BM_FMC_PFB0CR_CLCK_WAY (0x0F000000U) //!< Bit mask for FMC_PFB0CR_CLCK_WAY.
#define BS_FMC_PFB0CR_CLCK_WAY (4U) //!< Bit field size in bits for FMC_PFB0CR_CLCK_WAY.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_CLCK_WAY field.
#define BR_FMC_PFB0CR_CLCK_WAY (HW_FMC_PFB0CR.B.CLCK_WAY)
#endif
//! @brief Format value for bitfield FMC_PFB0CR_CLCK_WAY.
#define BF_FMC_PFB0CR_CLCK_WAY(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB0CR_CLCK_WAY), uint32_t) & BM_FMC_PFB0CR_CLCK_WAY)
#ifndef __LANGUAGE_ASM__
//! @brief Set the CLCK_WAY field to a new value.
#define BW_FMC_PFB0CR_CLCK_WAY(v) (HW_FMC_PFB0CR_WR((HW_FMC_PFB0CR_RD() & ~BM_FMC_PFB0CR_CLCK_WAY) | BF_FMC_PFB0CR_CLCK_WAY(v)))
#endif
//@}
/*!
* @name Register FMC_PFB0CR, field B0RWSC[31:28] (RO)
*
* This read-only field defines the number of wait states required to access the
* bank 0 flash memory. The relationship between the read access time of the
* flash array (expressed in system clock cycles) and RWSC is defined as: Access
* time of flash array [system clocks] = RWSC + 1 The FMC automatically calculates
* this value based on the ratio of the system clock speed to the flash clock
* speed. For example, when this ratio is 4:1, the field's value is 3h.
*/
//@{
#define BP_FMC_PFB0CR_B0RWSC (28U) //!< Bit position for FMC_PFB0CR_B0RWSC.
#define BM_FMC_PFB0CR_B0RWSC (0xF0000000U) //!< Bit mask for FMC_PFB0CR_B0RWSC.
#define BS_FMC_PFB0CR_B0RWSC (4U) //!< Bit field size in bits for FMC_PFB0CR_B0RWSC.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB0CR_B0RWSC field.
#define BR_FMC_PFB0CR_B0RWSC (HW_FMC_PFB0CR.B.B0RWSC)
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_PFB1CR - Flash Bank 1 Control Register
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_PFB1CR - Flash Bank 1 Control Register (RW)
*
* Reset value: 0x3004001FU
*
* This register has a format similar to that for PFB0CR, except it controls the
* operation of flash bank 1, and the "global" cache control fields are empty.
*/
typedef union _hw_fmc_pfb1cr
{
uint32_t U;
struct _hw_fmc_pfb1cr_bitfields
{
uint32_t B1SEBE : 1; //!< [0] Bank 1 Single Entry Buffer Enable
uint32_t B1IPE : 1; //!< [1] Bank 1 Instruction Prefetch Enable
uint32_t B1DPE : 1; //!< [2] Bank 1 Data Prefetch Enable
uint32_t B1ICE : 1; //!< [3] Bank 1 Instruction Cache Enable
uint32_t B1DCE : 1; //!< [4] Bank 1 Data Cache Enable
uint32_t RESERVED0 : 12; //!< [16:5]
uint32_t B1MW : 2; //!< [18:17] Bank 1 Memory Width
uint32_t RESERVED1 : 9; //!< [27:19]
uint32_t B1RWSC : 4; //!< [31:28] Bank 1 Read Wait State Control
} B;
} hw_fmc_pfb1cr_t;
#endif
/*!
* @name Constants and macros for entire FMC_PFB1CR register
*/
//@{
#define HW_FMC_PFB1CR_ADDR (REGS_FMC_BASE + 0x8U)
#ifndef __LANGUAGE_ASM__
#define HW_FMC_PFB1CR (*(__IO hw_fmc_pfb1cr_t *) HW_FMC_PFB1CR_ADDR)
#define HW_FMC_PFB1CR_RD() (HW_FMC_PFB1CR.U)
#define HW_FMC_PFB1CR_WR(v) (HW_FMC_PFB1CR.U = (v))
#define HW_FMC_PFB1CR_SET(v) (HW_FMC_PFB1CR_WR(HW_FMC_PFB1CR_RD() | (v)))
#define HW_FMC_PFB1CR_CLR(v) (HW_FMC_PFB1CR_WR(HW_FMC_PFB1CR_RD() & ~(v)))
#define HW_FMC_PFB1CR_TOG(v) (HW_FMC_PFB1CR_WR(HW_FMC_PFB1CR_RD() ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_PFB1CR bitfields
*/
/*!
* @name Register FMC_PFB1CR, field B1SEBE[0] (RW)
*
* This bit controls whether the single entry buffer is enabled in response to
* flash read accesses. Its operation is independent from bank 0's cache. A
* high-to-low transition of this enable forces the page buffer to be invalidated.
*
* Values:
* - 0 - Single entry buffer is disabled.
* - 1 - Single entry buffer is enabled.
*/
//@{
#define BP_FMC_PFB1CR_B1SEBE (0U) //!< Bit position for FMC_PFB1CR_B1SEBE.
#define BM_FMC_PFB1CR_B1SEBE (0x00000001U) //!< Bit mask for FMC_PFB1CR_B1SEBE.
#define BS_FMC_PFB1CR_B1SEBE (1U) //!< Bit field size in bits for FMC_PFB1CR_B1SEBE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1SEBE field.
#define BR_FMC_PFB1CR_B1SEBE (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1SEBE))
#endif
//! @brief Format value for bitfield FMC_PFB1CR_B1SEBE.
#define BF_FMC_PFB1CR_B1SEBE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB1CR_B1SEBE), uint32_t) & BM_FMC_PFB1CR_B1SEBE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B1SEBE field to a new value.
#define BW_FMC_PFB1CR_B1SEBE(v) (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1SEBE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1IPE[1] (RW)
*
* This bit controls whether prefetches (or speculative accesses) are initiated
* in response to instruction fetches.
*
* Values:
* - 0 - Do not prefetch in response to instruction fetches.
* - 1 - Enable prefetches in response to instruction fetches.
*/
//@{
#define BP_FMC_PFB1CR_B1IPE (1U) //!< Bit position for FMC_PFB1CR_B1IPE.
#define BM_FMC_PFB1CR_B1IPE (0x00000002U) //!< Bit mask for FMC_PFB1CR_B1IPE.
#define BS_FMC_PFB1CR_B1IPE (1U) //!< Bit field size in bits for FMC_PFB1CR_B1IPE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1IPE field.
#define BR_FMC_PFB1CR_B1IPE (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1IPE))
#endif
//! @brief Format value for bitfield FMC_PFB1CR_B1IPE.
#define BF_FMC_PFB1CR_B1IPE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB1CR_B1IPE), uint32_t) & BM_FMC_PFB1CR_B1IPE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B1IPE field to a new value.
#define BW_FMC_PFB1CR_B1IPE(v) (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1IPE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1DPE[2] (RW)
*
* This bit controls whether prefetches (or speculative accesses) are initiated
* in response to data references.
*
* Values:
* - 0 - Do not prefetch in response to data references.
* - 1 - Enable prefetches in response to data references.
*/
//@{
#define BP_FMC_PFB1CR_B1DPE (2U) //!< Bit position for FMC_PFB1CR_B1DPE.
#define BM_FMC_PFB1CR_B1DPE (0x00000004U) //!< Bit mask for FMC_PFB1CR_B1DPE.
#define BS_FMC_PFB1CR_B1DPE (1U) //!< Bit field size in bits for FMC_PFB1CR_B1DPE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1DPE field.
#define BR_FMC_PFB1CR_B1DPE (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1DPE))
#endif
//! @brief Format value for bitfield FMC_PFB1CR_B1DPE.
#define BF_FMC_PFB1CR_B1DPE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB1CR_B1DPE), uint32_t) & BM_FMC_PFB1CR_B1DPE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B1DPE field to a new value.
#define BW_FMC_PFB1CR_B1DPE(v) (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1DPE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1ICE[3] (RW)
*
* This bit controls whether instruction fetches are loaded into the cache.
*
* Values:
* - 0 - Do not cache instruction fetches.
* - 1 - Cache instruction fetches.
*/
//@{
#define BP_FMC_PFB1CR_B1ICE (3U) //!< Bit position for FMC_PFB1CR_B1ICE.
#define BM_FMC_PFB1CR_B1ICE (0x00000008U) //!< Bit mask for FMC_PFB1CR_B1ICE.
#define BS_FMC_PFB1CR_B1ICE (1U) //!< Bit field size in bits for FMC_PFB1CR_B1ICE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1ICE field.
#define BR_FMC_PFB1CR_B1ICE (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1ICE))
#endif
//! @brief Format value for bitfield FMC_PFB1CR_B1ICE.
#define BF_FMC_PFB1CR_B1ICE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB1CR_B1ICE), uint32_t) & BM_FMC_PFB1CR_B1ICE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B1ICE field to a new value.
#define BW_FMC_PFB1CR_B1ICE(v) (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1ICE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1DCE[4] (RW)
*
* This bit controls whether data references are loaded into the cache.
*
* Values:
* - 0 - Do not cache data references.
* - 1 - Cache data references.
*/
//@{
#define BP_FMC_PFB1CR_B1DCE (4U) //!< Bit position for FMC_PFB1CR_B1DCE.
#define BM_FMC_PFB1CR_B1DCE (0x00000010U) //!< Bit mask for FMC_PFB1CR_B1DCE.
#define BS_FMC_PFB1CR_B1DCE (1U) //!< Bit field size in bits for FMC_PFB1CR_B1DCE.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1DCE field.
#define BR_FMC_PFB1CR_B1DCE (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1DCE))
#endif
//! @brief Format value for bitfield FMC_PFB1CR_B1DCE.
#define BF_FMC_PFB1CR_B1DCE(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_PFB1CR_B1DCE), uint32_t) & BM_FMC_PFB1CR_B1DCE)
#ifndef __LANGUAGE_ASM__
//! @brief Set the B1DCE field to a new value.
#define BW_FMC_PFB1CR_B1DCE(v) (BITBAND_ACCESS32(HW_FMC_PFB1CR_ADDR, BP_FMC_PFB1CR_B1DCE) = (v))
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1MW[18:17] (RO)
*
* This read-only field defines the width of the bank 1 memory.
*
* Values:
* - 00 - 32 bits
* - 01 - 64 bits
* - 10 - 128 bits
* - 11 - Reserved
*/
//@{
#define BP_FMC_PFB1CR_B1MW (17U) //!< Bit position for FMC_PFB1CR_B1MW.
#define BM_FMC_PFB1CR_B1MW (0x00060000U) //!< Bit mask for FMC_PFB1CR_B1MW.
#define BS_FMC_PFB1CR_B1MW (2U) //!< Bit field size in bits for FMC_PFB1CR_B1MW.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1MW field.
#define BR_FMC_PFB1CR_B1MW (HW_FMC_PFB1CR.B.B1MW)
#endif
//@}
/*!
* @name Register FMC_PFB1CR, field B1RWSC[31:28] (RO)
*
* This read-only field defines the number of wait states required to access the
* bank 1 flash memory. The relationship between the read access time of the
* flash array (expressed in system clock cycles) and RWSC is defined as: Access
* time of flash array [system clocks] = RWSC + 1 The FMC automatically calculates
* this value based on the ratio of the system clock speed to the flash clock
* speed. For example, when this ratio is 4:1, the field's value is 3h.
*/
//@{
#define BP_FMC_PFB1CR_B1RWSC (28U) //!< Bit position for FMC_PFB1CR_B1RWSC.
#define BM_FMC_PFB1CR_B1RWSC (0xF0000000U) //!< Bit mask for FMC_PFB1CR_B1RWSC.
#define BS_FMC_PFB1CR_B1RWSC (4U) //!< Bit field size in bits for FMC_PFB1CR_B1RWSC.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_PFB1CR_B1RWSC field.
#define BR_FMC_PFB1CR_B1RWSC (HW_FMC_PFB1CR.B.B1RWSC)
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_TAGVDW0Sn - Cache Tag Storage
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_TAGVDW0Sn - Cache Tag Storage (RW)
*
* Reset value: 0x00000000U
*
* The cache is a 4-way, set-associative cache with 4 sets. The ways are
* numbered 0-3 and the sets are numbered 0-3. In TAGVDWxSy, x denotes the way, and y
* denotes the set. This section represents tag/vld information for all sets in the
* indicated way.
*/
typedef union _hw_fmc_tagvdw0sn
{
uint32_t U;
struct _hw_fmc_tagvdw0sn_bitfields
{
uint32_t valid : 1; //!< [0] 1-bit valid for cache entry
uint32_t RESERVED0 : 4; //!< [4:1]
uint32_t tag : 14; //!< [18:5] 14-bit tag for cache entry
uint32_t RESERVED1 : 13; //!< [31:19]
} B;
} hw_fmc_tagvdw0sn_t;
#endif
/*!
* @name Constants and macros for entire FMC_TAGVDW0Sn register
*/
//@{
#define HW_FMC_TAGVDW0Sn_COUNT (4U)
#define HW_FMC_TAGVDW0Sn_ADDR(n) (REGS_FMC_BASE + 0x100U + (0x4U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_TAGVDW0Sn(n) (*(__IO hw_fmc_tagvdw0sn_t *) HW_FMC_TAGVDW0Sn_ADDR(n))
#define HW_FMC_TAGVDW0Sn_RD(n) (HW_FMC_TAGVDW0Sn(n).U)
#define HW_FMC_TAGVDW0Sn_WR(n, v) (HW_FMC_TAGVDW0Sn(n).U = (v))
#define HW_FMC_TAGVDW0Sn_SET(n, v) (HW_FMC_TAGVDW0Sn_WR(n, HW_FMC_TAGVDW0Sn_RD(n) | (v)))
#define HW_FMC_TAGVDW0Sn_CLR(n, v) (HW_FMC_TAGVDW0Sn_WR(n, HW_FMC_TAGVDW0Sn_RD(n) & ~(v)))
#define HW_FMC_TAGVDW0Sn_TOG(n, v) (HW_FMC_TAGVDW0Sn_WR(n, HW_FMC_TAGVDW0Sn_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_TAGVDW0Sn bitfields
*/
/*!
* @name Register FMC_TAGVDW0Sn, field valid[0] (RW)
*/
//@{
#define BP_FMC_TAGVDW0Sn_valid (0U) //!< Bit position for FMC_TAGVDW0Sn_valid.
#define BM_FMC_TAGVDW0Sn_valid (0x00000001U) //!< Bit mask for FMC_TAGVDW0Sn_valid.
#define BS_FMC_TAGVDW0Sn_valid (1U) //!< Bit field size in bits for FMC_TAGVDW0Sn_valid.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW0Sn_valid field.
#define BR_FMC_TAGVDW0Sn_valid(n) (BITBAND_ACCESS32(HW_FMC_TAGVDW0Sn_ADDR(n), BP_FMC_TAGVDW0Sn_valid))
#endif
//! @brief Format value for bitfield FMC_TAGVDW0Sn_valid.
#define BF_FMC_TAGVDW0Sn_valid(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW0Sn_valid), uint32_t) & BM_FMC_TAGVDW0Sn_valid)
#ifndef __LANGUAGE_ASM__
//! @brief Set the valid field to a new value.
#define BW_FMC_TAGVDW0Sn_valid(n, v) (BITBAND_ACCESS32(HW_FMC_TAGVDW0Sn_ADDR(n), BP_FMC_TAGVDW0Sn_valid) = (v))
#endif
//@}
/*!
* @name Register FMC_TAGVDW0Sn, field tag[18:5] (RW)
*/
//@{
#define BP_FMC_TAGVDW0Sn_tag (5U) //!< Bit position for FMC_TAGVDW0Sn_tag.
#define BM_FMC_TAGVDW0Sn_tag (0x0007FFE0U) //!< Bit mask for FMC_TAGVDW0Sn_tag.
#define BS_FMC_TAGVDW0Sn_tag (14U) //!< Bit field size in bits for FMC_TAGVDW0Sn_tag.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW0Sn_tag field.
#define BR_FMC_TAGVDW0Sn_tag(n) (HW_FMC_TAGVDW0Sn(n).B.tag)
#endif
//! @brief Format value for bitfield FMC_TAGVDW0Sn_tag.
#define BF_FMC_TAGVDW0Sn_tag(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW0Sn_tag), uint32_t) & BM_FMC_TAGVDW0Sn_tag)
#ifndef __LANGUAGE_ASM__
//! @brief Set the tag field to a new value.
#define BW_FMC_TAGVDW0Sn_tag(n, v) (HW_FMC_TAGVDW0Sn_WR(n, (HW_FMC_TAGVDW0Sn_RD(n) & ~BM_FMC_TAGVDW0Sn_tag) | BF_FMC_TAGVDW0Sn_tag(v)))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_TAGVDW1Sn - Cache Tag Storage
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_TAGVDW1Sn - Cache Tag Storage (RW)
*
* Reset value: 0x00000000U
*
* The cache is a 4-way, set-associative cache with 4 sets. The ways are
* numbered 0-3 and the sets are numbered 0-3. In TAGVDWxSy, x denotes the way, and y
* denotes the set. This section represents tag/vld information for all sets in the
* indicated way.
*/
typedef union _hw_fmc_tagvdw1sn
{
uint32_t U;
struct _hw_fmc_tagvdw1sn_bitfields
{
uint32_t valid : 1; //!< [0] 1-bit valid for cache entry
uint32_t RESERVED0 : 4; //!< [4:1]
uint32_t tag : 14; //!< [18:5] 14-bit tag for cache entry
uint32_t RESERVED1 : 13; //!< [31:19]
} B;
} hw_fmc_tagvdw1sn_t;
#endif
/*!
* @name Constants and macros for entire FMC_TAGVDW1Sn register
*/
//@{
#define HW_FMC_TAGVDW1Sn_COUNT (4U)
#define HW_FMC_TAGVDW1Sn_ADDR(n) (REGS_FMC_BASE + 0x110U + (0x4U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_TAGVDW1Sn(n) (*(__IO hw_fmc_tagvdw1sn_t *) HW_FMC_TAGVDW1Sn_ADDR(n))
#define HW_FMC_TAGVDW1Sn_RD(n) (HW_FMC_TAGVDW1Sn(n).U)
#define HW_FMC_TAGVDW1Sn_WR(n, v) (HW_FMC_TAGVDW1Sn(n).U = (v))
#define HW_FMC_TAGVDW1Sn_SET(n, v) (HW_FMC_TAGVDW1Sn_WR(n, HW_FMC_TAGVDW1Sn_RD(n) | (v)))
#define HW_FMC_TAGVDW1Sn_CLR(n, v) (HW_FMC_TAGVDW1Sn_WR(n, HW_FMC_TAGVDW1Sn_RD(n) & ~(v)))
#define HW_FMC_TAGVDW1Sn_TOG(n, v) (HW_FMC_TAGVDW1Sn_WR(n, HW_FMC_TAGVDW1Sn_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_TAGVDW1Sn bitfields
*/
/*!
* @name Register FMC_TAGVDW1Sn, field valid[0] (RW)
*/
//@{
#define BP_FMC_TAGVDW1Sn_valid (0U) //!< Bit position for FMC_TAGVDW1Sn_valid.
#define BM_FMC_TAGVDW1Sn_valid (0x00000001U) //!< Bit mask for FMC_TAGVDW1Sn_valid.
#define BS_FMC_TAGVDW1Sn_valid (1U) //!< Bit field size in bits for FMC_TAGVDW1Sn_valid.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW1Sn_valid field.
#define BR_FMC_TAGVDW1Sn_valid(n) (BITBAND_ACCESS32(HW_FMC_TAGVDW1Sn_ADDR(n), BP_FMC_TAGVDW1Sn_valid))
#endif
//! @brief Format value for bitfield FMC_TAGVDW1Sn_valid.
#define BF_FMC_TAGVDW1Sn_valid(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW1Sn_valid), uint32_t) & BM_FMC_TAGVDW1Sn_valid)
#ifndef __LANGUAGE_ASM__
//! @brief Set the valid field to a new value.
#define BW_FMC_TAGVDW1Sn_valid(n, v) (BITBAND_ACCESS32(HW_FMC_TAGVDW1Sn_ADDR(n), BP_FMC_TAGVDW1Sn_valid) = (v))
#endif
//@}
/*!
* @name Register FMC_TAGVDW1Sn, field tag[18:5] (RW)
*/
//@{
#define BP_FMC_TAGVDW1Sn_tag (5U) //!< Bit position for FMC_TAGVDW1Sn_tag.
#define BM_FMC_TAGVDW1Sn_tag (0x0007FFE0U) //!< Bit mask for FMC_TAGVDW1Sn_tag.
#define BS_FMC_TAGVDW1Sn_tag (14U) //!< Bit field size in bits for FMC_TAGVDW1Sn_tag.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW1Sn_tag field.
#define BR_FMC_TAGVDW1Sn_tag(n) (HW_FMC_TAGVDW1Sn(n).B.tag)
#endif
//! @brief Format value for bitfield FMC_TAGVDW1Sn_tag.
#define BF_FMC_TAGVDW1Sn_tag(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW1Sn_tag), uint32_t) & BM_FMC_TAGVDW1Sn_tag)
#ifndef __LANGUAGE_ASM__
//! @brief Set the tag field to a new value.
#define BW_FMC_TAGVDW1Sn_tag(n, v) (HW_FMC_TAGVDW1Sn_WR(n, (HW_FMC_TAGVDW1Sn_RD(n) & ~BM_FMC_TAGVDW1Sn_tag) | BF_FMC_TAGVDW1Sn_tag(v)))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_TAGVDW2Sn - Cache Tag Storage
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_TAGVDW2Sn - Cache Tag Storage (RW)
*
* Reset value: 0x00000000U
*
* The cache is a 4-way, set-associative cache with 4 sets. The ways are
* numbered 0-3 and the sets are numbered 0-3. In TAGVDWxSy, x denotes the way, and y
* denotes the set. This section represents tag/vld information for all sets in the
* indicated way.
*/
typedef union _hw_fmc_tagvdw2sn
{
uint32_t U;
struct _hw_fmc_tagvdw2sn_bitfields
{
uint32_t valid : 1; //!< [0] 1-bit valid for cache entry
uint32_t RESERVED0 : 4; //!< [4:1]
uint32_t tag : 14; //!< [18:5] 14-bit tag for cache entry
uint32_t RESERVED1 : 13; //!< [31:19]
} B;
} hw_fmc_tagvdw2sn_t;
#endif
/*!
* @name Constants and macros for entire FMC_TAGVDW2Sn register
*/
//@{
#define HW_FMC_TAGVDW2Sn_COUNT (4U)
#define HW_FMC_TAGVDW2Sn_ADDR(n) (REGS_FMC_BASE + 0x120U + (0x4U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_TAGVDW2Sn(n) (*(__IO hw_fmc_tagvdw2sn_t *) HW_FMC_TAGVDW2Sn_ADDR(n))
#define HW_FMC_TAGVDW2Sn_RD(n) (HW_FMC_TAGVDW2Sn(n).U)
#define HW_FMC_TAGVDW2Sn_WR(n, v) (HW_FMC_TAGVDW2Sn(n).U = (v))
#define HW_FMC_TAGVDW2Sn_SET(n, v) (HW_FMC_TAGVDW2Sn_WR(n, HW_FMC_TAGVDW2Sn_RD(n) | (v)))
#define HW_FMC_TAGVDW2Sn_CLR(n, v) (HW_FMC_TAGVDW2Sn_WR(n, HW_FMC_TAGVDW2Sn_RD(n) & ~(v)))
#define HW_FMC_TAGVDW2Sn_TOG(n, v) (HW_FMC_TAGVDW2Sn_WR(n, HW_FMC_TAGVDW2Sn_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_TAGVDW2Sn bitfields
*/
/*!
* @name Register FMC_TAGVDW2Sn, field valid[0] (RW)
*/
//@{
#define BP_FMC_TAGVDW2Sn_valid (0U) //!< Bit position for FMC_TAGVDW2Sn_valid.
#define BM_FMC_TAGVDW2Sn_valid (0x00000001U) //!< Bit mask for FMC_TAGVDW2Sn_valid.
#define BS_FMC_TAGVDW2Sn_valid (1U) //!< Bit field size in bits for FMC_TAGVDW2Sn_valid.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW2Sn_valid field.
#define BR_FMC_TAGVDW2Sn_valid(n) (BITBAND_ACCESS32(HW_FMC_TAGVDW2Sn_ADDR(n), BP_FMC_TAGVDW2Sn_valid))
#endif
//! @brief Format value for bitfield FMC_TAGVDW2Sn_valid.
#define BF_FMC_TAGVDW2Sn_valid(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW2Sn_valid), uint32_t) & BM_FMC_TAGVDW2Sn_valid)
#ifndef __LANGUAGE_ASM__
//! @brief Set the valid field to a new value.
#define BW_FMC_TAGVDW2Sn_valid(n, v) (BITBAND_ACCESS32(HW_FMC_TAGVDW2Sn_ADDR(n), BP_FMC_TAGVDW2Sn_valid) = (v))
#endif
//@}
/*!
* @name Register FMC_TAGVDW2Sn, field tag[18:5] (RW)
*/
//@{
#define BP_FMC_TAGVDW2Sn_tag (5U) //!< Bit position for FMC_TAGVDW2Sn_tag.
#define BM_FMC_TAGVDW2Sn_tag (0x0007FFE0U) //!< Bit mask for FMC_TAGVDW2Sn_tag.
#define BS_FMC_TAGVDW2Sn_tag (14U) //!< Bit field size in bits for FMC_TAGVDW2Sn_tag.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW2Sn_tag field.
#define BR_FMC_TAGVDW2Sn_tag(n) (HW_FMC_TAGVDW2Sn(n).B.tag)
#endif
//! @brief Format value for bitfield FMC_TAGVDW2Sn_tag.
#define BF_FMC_TAGVDW2Sn_tag(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW2Sn_tag), uint32_t) & BM_FMC_TAGVDW2Sn_tag)
#ifndef __LANGUAGE_ASM__
//! @brief Set the tag field to a new value.
#define BW_FMC_TAGVDW2Sn_tag(n, v) (HW_FMC_TAGVDW2Sn_WR(n, (HW_FMC_TAGVDW2Sn_RD(n) & ~BM_FMC_TAGVDW2Sn_tag) | BF_FMC_TAGVDW2Sn_tag(v)))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_TAGVDW3Sn - Cache Tag Storage
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_TAGVDW3Sn - Cache Tag Storage (RW)
*
* Reset value: 0x00000000U
*
* The cache is a 4-way, set-associative cache with 4 sets. The ways are
* numbered 0-3 and the sets are numbered 0-3. In TAGVDWxSy, x denotes the way, and y
* denotes the set. This section represents tag/vld information for all sets in the
* indicated way.
*/
typedef union _hw_fmc_tagvdw3sn
{
uint32_t U;
struct _hw_fmc_tagvdw3sn_bitfields
{
uint32_t valid : 1; //!< [0] 1-bit valid for cache entry
uint32_t RESERVED0 : 4; //!< [4:1]
uint32_t tag : 14; //!< [18:5] 14-bit tag for cache entry
uint32_t RESERVED1 : 13; //!< [31:19]
} B;
} hw_fmc_tagvdw3sn_t;
#endif
/*!
* @name Constants and macros for entire FMC_TAGVDW3Sn register
*/
//@{
#define HW_FMC_TAGVDW3Sn_COUNT (4U)
#define HW_FMC_TAGVDW3Sn_ADDR(n) (REGS_FMC_BASE + 0x130U + (0x4U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_TAGVDW3Sn(n) (*(__IO hw_fmc_tagvdw3sn_t *) HW_FMC_TAGVDW3Sn_ADDR(n))
#define HW_FMC_TAGVDW3Sn_RD(n) (HW_FMC_TAGVDW3Sn(n).U)
#define HW_FMC_TAGVDW3Sn_WR(n, v) (HW_FMC_TAGVDW3Sn(n).U = (v))
#define HW_FMC_TAGVDW3Sn_SET(n, v) (HW_FMC_TAGVDW3Sn_WR(n, HW_FMC_TAGVDW3Sn_RD(n) | (v)))
#define HW_FMC_TAGVDW3Sn_CLR(n, v) (HW_FMC_TAGVDW3Sn_WR(n, HW_FMC_TAGVDW3Sn_RD(n) & ~(v)))
#define HW_FMC_TAGVDW3Sn_TOG(n, v) (HW_FMC_TAGVDW3Sn_WR(n, HW_FMC_TAGVDW3Sn_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_TAGVDW3Sn bitfields
*/
/*!
* @name Register FMC_TAGVDW3Sn, field valid[0] (RW)
*/
//@{
#define BP_FMC_TAGVDW3Sn_valid (0U) //!< Bit position for FMC_TAGVDW3Sn_valid.
#define BM_FMC_TAGVDW3Sn_valid (0x00000001U) //!< Bit mask for FMC_TAGVDW3Sn_valid.
#define BS_FMC_TAGVDW3Sn_valid (1U) //!< Bit field size in bits for FMC_TAGVDW3Sn_valid.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW3Sn_valid field.
#define BR_FMC_TAGVDW3Sn_valid(n) (BITBAND_ACCESS32(HW_FMC_TAGVDW3Sn_ADDR(n), BP_FMC_TAGVDW3Sn_valid))
#endif
//! @brief Format value for bitfield FMC_TAGVDW3Sn_valid.
#define BF_FMC_TAGVDW3Sn_valid(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW3Sn_valid), uint32_t) & BM_FMC_TAGVDW3Sn_valid)
#ifndef __LANGUAGE_ASM__
//! @brief Set the valid field to a new value.
#define BW_FMC_TAGVDW3Sn_valid(n, v) (BITBAND_ACCESS32(HW_FMC_TAGVDW3Sn_ADDR(n), BP_FMC_TAGVDW3Sn_valid) = (v))
#endif
//@}
/*!
* @name Register FMC_TAGVDW3Sn, field tag[18:5] (RW)
*/
//@{
#define BP_FMC_TAGVDW3Sn_tag (5U) //!< Bit position for FMC_TAGVDW3Sn_tag.
#define BM_FMC_TAGVDW3Sn_tag (0x0007FFE0U) //!< Bit mask for FMC_TAGVDW3Sn_tag.
#define BS_FMC_TAGVDW3Sn_tag (14U) //!< Bit field size in bits for FMC_TAGVDW3Sn_tag.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_TAGVDW3Sn_tag field.
#define BR_FMC_TAGVDW3Sn_tag(n) (HW_FMC_TAGVDW3Sn(n).B.tag)
#endif
//! @brief Format value for bitfield FMC_TAGVDW3Sn_tag.
#define BF_FMC_TAGVDW3Sn_tag(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_TAGVDW3Sn_tag), uint32_t) & BM_FMC_TAGVDW3Sn_tag)
#ifndef __LANGUAGE_ASM__
//! @brief Set the tag field to a new value.
#define BW_FMC_TAGVDW3Sn_tag(n, v) (HW_FMC_TAGVDW3Sn_WR(n, (HW_FMC_TAGVDW3Sn_RD(n) & ~BM_FMC_TAGVDW3Sn_tag) | BF_FMC_TAGVDW3Sn_tag(v)))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW0SnU - Cache Data Storage (upper word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW0SnU - Cache Data Storage (upper word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the upper word (bits
* [63:32]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw0snu
{
uint32_t U;
struct _hw_fmc_dataw0snu_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [63:32] of data entry
} B;
} hw_fmc_dataw0snu_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW0SnU register
*/
//@{
#define HW_FMC_DATAW0SnU_COUNT (4U)
#define HW_FMC_DATAW0SnU_ADDR(n) (REGS_FMC_BASE + 0x200U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW0SnU(n) (*(__IO hw_fmc_dataw0snu_t *) HW_FMC_DATAW0SnU_ADDR(n))
#define HW_FMC_DATAW0SnU_RD(n) (HW_FMC_DATAW0SnU(n).U)
#define HW_FMC_DATAW0SnU_WR(n, v) (HW_FMC_DATAW0SnU(n).U = (v))
#define HW_FMC_DATAW0SnU_SET(n, v) (HW_FMC_DATAW0SnU_WR(n, HW_FMC_DATAW0SnU_RD(n) | (v)))
#define HW_FMC_DATAW0SnU_CLR(n, v) (HW_FMC_DATAW0SnU_WR(n, HW_FMC_DATAW0SnU_RD(n) & ~(v)))
#define HW_FMC_DATAW0SnU_TOG(n, v) (HW_FMC_DATAW0SnU_WR(n, HW_FMC_DATAW0SnU_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW0SnU bitfields
*/
/*!
* @name Register FMC_DATAW0SnU, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW0SnU_data (0U) //!< Bit position for FMC_DATAW0SnU_data.
#define BM_FMC_DATAW0SnU_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW0SnU_data.
#define BS_FMC_DATAW0SnU_data (32U) //!< Bit field size in bits for FMC_DATAW0SnU_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW0SnU_data field.
#define BR_FMC_DATAW0SnU_data(n) (HW_FMC_DATAW0SnU(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW0SnU_data.
#define BF_FMC_DATAW0SnU_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW0SnU_data), uint32_t) & BM_FMC_DATAW0SnU_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW0SnU_data(n, v) (HW_FMC_DATAW0SnU_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW0SnL - Cache Data Storage (lower word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW0SnL - Cache Data Storage (lower word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the lower word (bits
* [31:0]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw0snl
{
uint32_t U;
struct _hw_fmc_dataw0snl_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [31:0] of data entry
} B;
} hw_fmc_dataw0snl_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW0SnL register
*/
//@{
#define HW_FMC_DATAW0SnL_COUNT (4U)
#define HW_FMC_DATAW0SnL_ADDR(n) (REGS_FMC_BASE + 0x204U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW0SnL(n) (*(__IO hw_fmc_dataw0snl_t *) HW_FMC_DATAW0SnL_ADDR(n))
#define HW_FMC_DATAW0SnL_RD(n) (HW_FMC_DATAW0SnL(n).U)
#define HW_FMC_DATAW0SnL_WR(n, v) (HW_FMC_DATAW0SnL(n).U = (v))
#define HW_FMC_DATAW0SnL_SET(n, v) (HW_FMC_DATAW0SnL_WR(n, HW_FMC_DATAW0SnL_RD(n) | (v)))
#define HW_FMC_DATAW0SnL_CLR(n, v) (HW_FMC_DATAW0SnL_WR(n, HW_FMC_DATAW0SnL_RD(n) & ~(v)))
#define HW_FMC_DATAW0SnL_TOG(n, v) (HW_FMC_DATAW0SnL_WR(n, HW_FMC_DATAW0SnL_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW0SnL bitfields
*/
/*!
* @name Register FMC_DATAW0SnL, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW0SnL_data (0U) //!< Bit position for FMC_DATAW0SnL_data.
#define BM_FMC_DATAW0SnL_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW0SnL_data.
#define BS_FMC_DATAW0SnL_data (32U) //!< Bit field size in bits for FMC_DATAW0SnL_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW0SnL_data field.
#define BR_FMC_DATAW0SnL_data(n) (HW_FMC_DATAW0SnL(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW0SnL_data.
#define BF_FMC_DATAW0SnL_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW0SnL_data), uint32_t) & BM_FMC_DATAW0SnL_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW0SnL_data(n, v) (HW_FMC_DATAW0SnL_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW1SnU - Cache Data Storage (upper word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW1SnU - Cache Data Storage (upper word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the upper word (bits
* [63:32]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw1snu
{
uint32_t U;
struct _hw_fmc_dataw1snu_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [63:32] of data entry
} B;
} hw_fmc_dataw1snu_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW1SnU register
*/
//@{
#define HW_FMC_DATAW1SnU_COUNT (4U)
#define HW_FMC_DATAW1SnU_ADDR(n) (REGS_FMC_BASE + 0x220U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW1SnU(n) (*(__IO hw_fmc_dataw1snu_t *) HW_FMC_DATAW1SnU_ADDR(n))
#define HW_FMC_DATAW1SnU_RD(n) (HW_FMC_DATAW1SnU(n).U)
#define HW_FMC_DATAW1SnU_WR(n, v) (HW_FMC_DATAW1SnU(n).U = (v))
#define HW_FMC_DATAW1SnU_SET(n, v) (HW_FMC_DATAW1SnU_WR(n, HW_FMC_DATAW1SnU_RD(n) | (v)))
#define HW_FMC_DATAW1SnU_CLR(n, v) (HW_FMC_DATAW1SnU_WR(n, HW_FMC_DATAW1SnU_RD(n) & ~(v)))
#define HW_FMC_DATAW1SnU_TOG(n, v) (HW_FMC_DATAW1SnU_WR(n, HW_FMC_DATAW1SnU_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW1SnU bitfields
*/
/*!
* @name Register FMC_DATAW1SnU, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW1SnU_data (0U) //!< Bit position for FMC_DATAW1SnU_data.
#define BM_FMC_DATAW1SnU_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW1SnU_data.
#define BS_FMC_DATAW1SnU_data (32U) //!< Bit field size in bits for FMC_DATAW1SnU_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW1SnU_data field.
#define BR_FMC_DATAW1SnU_data(n) (HW_FMC_DATAW1SnU(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW1SnU_data.
#define BF_FMC_DATAW1SnU_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW1SnU_data), uint32_t) & BM_FMC_DATAW1SnU_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW1SnU_data(n, v) (HW_FMC_DATAW1SnU_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW1SnL - Cache Data Storage (lower word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW1SnL - Cache Data Storage (lower word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the lower word (bits
* [31:0]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw1snl
{
uint32_t U;
struct _hw_fmc_dataw1snl_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [31:0] of data entry
} B;
} hw_fmc_dataw1snl_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW1SnL register
*/
//@{
#define HW_FMC_DATAW1SnL_COUNT (4U)
#define HW_FMC_DATAW1SnL_ADDR(n) (REGS_FMC_BASE + 0x224U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW1SnL(n) (*(__IO hw_fmc_dataw1snl_t *) HW_FMC_DATAW1SnL_ADDR(n))
#define HW_FMC_DATAW1SnL_RD(n) (HW_FMC_DATAW1SnL(n).U)
#define HW_FMC_DATAW1SnL_WR(n, v) (HW_FMC_DATAW1SnL(n).U = (v))
#define HW_FMC_DATAW1SnL_SET(n, v) (HW_FMC_DATAW1SnL_WR(n, HW_FMC_DATAW1SnL_RD(n) | (v)))
#define HW_FMC_DATAW1SnL_CLR(n, v) (HW_FMC_DATAW1SnL_WR(n, HW_FMC_DATAW1SnL_RD(n) & ~(v)))
#define HW_FMC_DATAW1SnL_TOG(n, v) (HW_FMC_DATAW1SnL_WR(n, HW_FMC_DATAW1SnL_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW1SnL bitfields
*/
/*!
* @name Register FMC_DATAW1SnL, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW1SnL_data (0U) //!< Bit position for FMC_DATAW1SnL_data.
#define BM_FMC_DATAW1SnL_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW1SnL_data.
#define BS_FMC_DATAW1SnL_data (32U) //!< Bit field size in bits for FMC_DATAW1SnL_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW1SnL_data field.
#define BR_FMC_DATAW1SnL_data(n) (HW_FMC_DATAW1SnL(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW1SnL_data.
#define BF_FMC_DATAW1SnL_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW1SnL_data), uint32_t) & BM_FMC_DATAW1SnL_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW1SnL_data(n, v) (HW_FMC_DATAW1SnL_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW2SnU - Cache Data Storage (upper word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW2SnU - Cache Data Storage (upper word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the upper word (bits
* [63:32]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw2snu
{
uint32_t U;
struct _hw_fmc_dataw2snu_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [63:32] of data entry
} B;
} hw_fmc_dataw2snu_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW2SnU register
*/
//@{
#define HW_FMC_DATAW2SnU_COUNT (4U)
#define HW_FMC_DATAW2SnU_ADDR(n) (REGS_FMC_BASE + 0x240U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW2SnU(n) (*(__IO hw_fmc_dataw2snu_t *) HW_FMC_DATAW2SnU_ADDR(n))
#define HW_FMC_DATAW2SnU_RD(n) (HW_FMC_DATAW2SnU(n).U)
#define HW_FMC_DATAW2SnU_WR(n, v) (HW_FMC_DATAW2SnU(n).U = (v))
#define HW_FMC_DATAW2SnU_SET(n, v) (HW_FMC_DATAW2SnU_WR(n, HW_FMC_DATAW2SnU_RD(n) | (v)))
#define HW_FMC_DATAW2SnU_CLR(n, v) (HW_FMC_DATAW2SnU_WR(n, HW_FMC_DATAW2SnU_RD(n) & ~(v)))
#define HW_FMC_DATAW2SnU_TOG(n, v) (HW_FMC_DATAW2SnU_WR(n, HW_FMC_DATAW2SnU_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW2SnU bitfields
*/
/*!
* @name Register FMC_DATAW2SnU, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW2SnU_data (0U) //!< Bit position for FMC_DATAW2SnU_data.
#define BM_FMC_DATAW2SnU_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW2SnU_data.
#define BS_FMC_DATAW2SnU_data (32U) //!< Bit field size in bits for FMC_DATAW2SnU_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW2SnU_data field.
#define BR_FMC_DATAW2SnU_data(n) (HW_FMC_DATAW2SnU(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW2SnU_data.
#define BF_FMC_DATAW2SnU_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW2SnU_data), uint32_t) & BM_FMC_DATAW2SnU_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW2SnU_data(n, v) (HW_FMC_DATAW2SnU_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW2SnL - Cache Data Storage (lower word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW2SnL - Cache Data Storage (lower word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the lower word (bits
* [31:0]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw2snl
{
uint32_t U;
struct _hw_fmc_dataw2snl_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [31:0] of data entry
} B;
} hw_fmc_dataw2snl_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW2SnL register
*/
//@{
#define HW_FMC_DATAW2SnL_COUNT (4U)
#define HW_FMC_DATAW2SnL_ADDR(n) (REGS_FMC_BASE + 0x244U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW2SnL(n) (*(__IO hw_fmc_dataw2snl_t *) HW_FMC_DATAW2SnL_ADDR(n))
#define HW_FMC_DATAW2SnL_RD(n) (HW_FMC_DATAW2SnL(n).U)
#define HW_FMC_DATAW2SnL_WR(n, v) (HW_FMC_DATAW2SnL(n).U = (v))
#define HW_FMC_DATAW2SnL_SET(n, v) (HW_FMC_DATAW2SnL_WR(n, HW_FMC_DATAW2SnL_RD(n) | (v)))
#define HW_FMC_DATAW2SnL_CLR(n, v) (HW_FMC_DATAW2SnL_WR(n, HW_FMC_DATAW2SnL_RD(n) & ~(v)))
#define HW_FMC_DATAW2SnL_TOG(n, v) (HW_FMC_DATAW2SnL_WR(n, HW_FMC_DATAW2SnL_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW2SnL bitfields
*/
/*!
* @name Register FMC_DATAW2SnL, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW2SnL_data (0U) //!< Bit position for FMC_DATAW2SnL_data.
#define BM_FMC_DATAW2SnL_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW2SnL_data.
#define BS_FMC_DATAW2SnL_data (32U) //!< Bit field size in bits for FMC_DATAW2SnL_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW2SnL_data field.
#define BR_FMC_DATAW2SnL_data(n) (HW_FMC_DATAW2SnL(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW2SnL_data.
#define BF_FMC_DATAW2SnL_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW2SnL_data), uint32_t) & BM_FMC_DATAW2SnL_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW2SnL_data(n, v) (HW_FMC_DATAW2SnL_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW3SnU - Cache Data Storage (upper word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW3SnU - Cache Data Storage (upper word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the upper word (bits
* [63:32]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw3snu
{
uint32_t U;
struct _hw_fmc_dataw3snu_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [63:32] of data entry
} B;
} hw_fmc_dataw3snu_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW3SnU register
*/
//@{
#define HW_FMC_DATAW3SnU_COUNT (4U)
#define HW_FMC_DATAW3SnU_ADDR(n) (REGS_FMC_BASE + 0x260U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW3SnU(n) (*(__IO hw_fmc_dataw3snu_t *) HW_FMC_DATAW3SnU_ADDR(n))
#define HW_FMC_DATAW3SnU_RD(n) (HW_FMC_DATAW3SnU(n).U)
#define HW_FMC_DATAW3SnU_WR(n, v) (HW_FMC_DATAW3SnU(n).U = (v))
#define HW_FMC_DATAW3SnU_SET(n, v) (HW_FMC_DATAW3SnU_WR(n, HW_FMC_DATAW3SnU_RD(n) | (v)))
#define HW_FMC_DATAW3SnU_CLR(n, v) (HW_FMC_DATAW3SnU_WR(n, HW_FMC_DATAW3SnU_RD(n) & ~(v)))
#define HW_FMC_DATAW3SnU_TOG(n, v) (HW_FMC_DATAW3SnU_WR(n, HW_FMC_DATAW3SnU_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW3SnU bitfields
*/
/*!
* @name Register FMC_DATAW3SnU, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW3SnU_data (0U) //!< Bit position for FMC_DATAW3SnU_data.
#define BM_FMC_DATAW3SnU_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW3SnU_data.
#define BS_FMC_DATAW3SnU_data (32U) //!< Bit field size in bits for FMC_DATAW3SnU_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW3SnU_data field.
#define BR_FMC_DATAW3SnU_data(n) (HW_FMC_DATAW3SnU(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW3SnU_data.
#define BF_FMC_DATAW3SnU_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW3SnU_data), uint32_t) & BM_FMC_DATAW3SnU_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW3SnU_data(n, v) (HW_FMC_DATAW3SnU_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// HW_FMC_DATAW3SnL - Cache Data Storage (lower word)
//-------------------------------------------------------------------------------------------
#ifndef __LANGUAGE_ASM__
/*!
* @brief HW_FMC_DATAW3SnL - Cache Data Storage (lower word) (RW)
*
* Reset value: 0x00000000U
*
* The cache of 64-bit entries is a 4-way, set-associative cache with 4 sets.
* The ways are numbered 0-3 and the sets are numbered 0-3. In DATAWxSyU and
* DATAWxSyL, x denotes the way, y denotes the set, and U and L represent upper and
* lower word, respectively. This section represents data for the lower word (bits
* [31:0]) of all sets in the indicated way.
*/
typedef union _hw_fmc_dataw3snl
{
uint32_t U;
struct _hw_fmc_dataw3snl_bitfields
{
uint32_t data : 32; //!< [31:0] Bits [31:0] of data entry
} B;
} hw_fmc_dataw3snl_t;
#endif
/*!
* @name Constants and macros for entire FMC_DATAW3SnL register
*/
//@{
#define HW_FMC_DATAW3SnL_COUNT (4U)
#define HW_FMC_DATAW3SnL_ADDR(n) (REGS_FMC_BASE + 0x264U + (0x8U * n))
#ifndef __LANGUAGE_ASM__
#define HW_FMC_DATAW3SnL(n) (*(__IO hw_fmc_dataw3snl_t *) HW_FMC_DATAW3SnL_ADDR(n))
#define HW_FMC_DATAW3SnL_RD(n) (HW_FMC_DATAW3SnL(n).U)
#define HW_FMC_DATAW3SnL_WR(n, v) (HW_FMC_DATAW3SnL(n).U = (v))
#define HW_FMC_DATAW3SnL_SET(n, v) (HW_FMC_DATAW3SnL_WR(n, HW_FMC_DATAW3SnL_RD(n) | (v)))
#define HW_FMC_DATAW3SnL_CLR(n, v) (HW_FMC_DATAW3SnL_WR(n, HW_FMC_DATAW3SnL_RD(n) & ~(v)))
#define HW_FMC_DATAW3SnL_TOG(n, v) (HW_FMC_DATAW3SnL_WR(n, HW_FMC_DATAW3SnL_RD(n) ^ (v)))
#endif
//@}
/*
* Constants & macros for individual FMC_DATAW3SnL bitfields
*/
/*!
* @name Register FMC_DATAW3SnL, field data[31:0] (RW)
*/
//@{
#define BP_FMC_DATAW3SnL_data (0U) //!< Bit position for FMC_DATAW3SnL_data.
#define BM_FMC_DATAW3SnL_data (0xFFFFFFFFU) //!< Bit mask for FMC_DATAW3SnL_data.
#define BS_FMC_DATAW3SnL_data (32U) //!< Bit field size in bits for FMC_DATAW3SnL_data.
#ifndef __LANGUAGE_ASM__
//! @brief Read current value of the FMC_DATAW3SnL_data field.
#define BR_FMC_DATAW3SnL_data(n) (HW_FMC_DATAW3SnL(n).U)
#endif
//! @brief Format value for bitfield FMC_DATAW3SnL_data.
#define BF_FMC_DATAW3SnL_data(v) (__REG_VALUE_TYPE((__REG_VALUE_TYPE((v), uint32_t) << BP_FMC_DATAW3SnL_data), uint32_t) & BM_FMC_DATAW3SnL_data)
#ifndef __LANGUAGE_ASM__
//! @brief Set the data field to a new value.
#define BW_FMC_DATAW3SnL_data(n, v) (HW_FMC_DATAW3SnL_WR(n, v))
#endif
//@}
//-------------------------------------------------------------------------------------------
// hw_fmc_t - module struct
//-------------------------------------------------------------------------------------------
/*!
* @brief All FMC module registers.
*/
#ifndef __LANGUAGE_ASM__
#pragma pack(1)
typedef struct _hw_fmc
{
__IO hw_fmc_pfapr_t PFAPR; //!< [0x0] Flash Access Protection Register
__IO hw_fmc_pfb0cr_t PFB0CR; //!< [0x4] Flash Bank 0 Control Register
__IO hw_fmc_pfb1cr_t PFB1CR; //!< [0x8] Flash Bank 1 Control Register
uint8_t _reserved0[244];
__IO hw_fmc_tagvdw0sn_t TAGVDW0Sn[4]; //!< [0x100] Cache Tag Storage
__IO hw_fmc_tagvdw1sn_t TAGVDW1Sn[4]; //!< [0x110] Cache Tag Storage
__IO hw_fmc_tagvdw2sn_t TAGVDW2Sn[4]; //!< [0x120] Cache Tag Storage
__IO hw_fmc_tagvdw3sn_t TAGVDW3Sn[4]; //!< [0x130] Cache Tag Storage
uint8_t _reserved1[192];
struct {
__IO hw_fmc_dataw0snu_t DATAW0SnU; //!< [0x200] Cache Data Storage (upper word)
__IO hw_fmc_dataw0snl_t DATAW0SnL; //!< [0x204] Cache Data Storage (lower word)
} DATAW0Sn[4];
struct {
__IO hw_fmc_dataw1snu_t DATAW1SnU; //!< [0x220] Cache Data Storage (upper word)
__IO hw_fmc_dataw1snl_t DATAW1SnL; //!< [0x224] Cache Data Storage (lower word)
} DATAW1Sn[4];
struct {
__IO hw_fmc_dataw2snu_t DATAW2SnU; //!< [0x240] Cache Data Storage (upper word)
__IO hw_fmc_dataw2snl_t DATAW2SnL; //!< [0x244] Cache Data Storage (lower word)
} DATAW2Sn[4];
struct {
__IO hw_fmc_dataw3snu_t DATAW3SnU; //!< [0x260] Cache Data Storage (upper word)
__IO hw_fmc_dataw3snl_t DATAW3SnL; //!< [0x264] Cache Data Storage (lower word)
} DATAW3Sn[4];
} hw_fmc_t;
#pragma pack()
//! @brief Macro to access all FMC registers.
//! @return Reference (not a pointer) to the registers struct. To get a pointer to the struct,
//! use the '&' operator, like <code>&HW_FMC</code>.
#define HW_FMC (*(hw_fmc_t *) REGS_FMC_BASE)
#endif
#endif // __HW_FMC_REGISTERS_H__
// v22/130726/0.9
// EOF