CMSIS SIMD Intrinsics | |
System and Clock Configuration | Functions for system and clock setup available in system_device.c |
►Core Register Access | Functions to access the Cortex-A core registers |
►Auxiliary Control Register (ACTLR) | The ACTLR provides IMPLEMENTATION DEFINED configuration and control options |
ACTLR Bits | Bit position and mask macros |
Cache and branch predictor maintenance operations | This section describes the cache and branch predictor maintenance operations |
►Configuration Base Address Register (CBAR) | Takes the physical base address value of the memory-mapped SCU peripherals at reset from the external signal PERIPHBASE[31:13] |
CBAR Bits | Bit position and mask macros |
►Coprocessor Access Control Register (CPACR) | The CPACR controls access to coprocessors CP0 to CP13 |
CPACR Bits | Bit position and mask macros |
CPACR CP field values | Valid values for CPACR CP field |
►Current Program Status Register (CPSR) | The Current Program Status Register (CPSR) holds processor status and control information |
CPSR Bits | Bit position and mask macros |
CPSR M field values | Valid values for CPSR M field |
►Data Fault Status Register (DFSR) | The DFSR holds status information about the last data fault |
ACTLR Bits | Bit position and mask macros |
►Domain Access Control Register (DACR) | DACR defines the access permission for each of the sixteen memory domains |
DACR Bits | Bit position and mask macros |
DACR Dn field values | Valid values for DACR Dn field |
Floating-Point Exception Control register (FPEXC) | Provides a global enable for the Advanced SIMD and Floating-point (VFP) Extensions, and indicates how the state of these extensions is recorded |
►Floating-point Status and Control Register (FPSCR) | Provides floating-point system status information and control |
FPSCR Bits | Bit position and mask macros |
►Instruction Fault Status Register (IFSR) | The IFSR holds status information about the last instruction fault |
IFSR Bits | Bit position and mask macros |
►Interrupt Status Register (ISR) | The ISR shows whether an IRQ, FIQ, or external abort is pending |
ISR Bits | Bit position and mask macros |
Multiprocessor Affinity Register (MPIDR) | In a multiprocessor system, the MPIDR provides an additional processor identification mechanism for scheduling purposes, and indicates whether the implementation includes the Multiprocessing Extensions |
Counter Frequency register (CNTFRQ) | Indicates the clock frequency of the system counter |
PL1 Physical Timer Control register (CNTP_CTL) | The control register for the physical timer |
PL1 Physical Timer Compare Value register (CNTP_CVAL) | Holds the 64-bit compare value for the PL1 physical timer |
PL1 Physical Timer Value register (CNTP_TVAL) | Holds the timer value for the PL1 physical timer |
PL1 Physical Count register (CNTPCT) | Holds the 64-bit physical count value |
Stack Pointer (SP/R13) | The processor uses SP as a pointer to the active stack |
►System Control Register (SCTLR) | The SCTLR provides the top level control of the system, including its memory system |
SCTLR Bits | Bit position and mask macros |
TLB maintenance operations | This section describes the TLB operations that are implemented on all Armv7-A implementations |
Translation Table Base Registers (TTBR0/TTBR1) | TTBRn holds the base address of translation table n, and information about the memory it occupies |
Vector Base Address Register (VBAR) | When high exception vectors are not selected, the VBAR holds the exception base address for exceptions that are not taken to Monitor mode or to Hyp mode |
Monitor Vector Base Address Register (MVBAR) | The MVBAR holds the exception base address for all exceptions that are taken to Monitor mode |
Peripheral Access | Naming conventions and optional features for accessing peripherals |
Version Control | Version #define symbols for CMSIS release specific C/C++ source code |
►Core Peripherals | |
CMSIS Core Register Access Functions | |
Generic Interrupt Controller Functions | The Generic Interrupt Controller Functions grant access to the configuration, control and status registers of the Generic Interrupt Controller (GIC) |
L1 Cache Functions | L1 Cache Functions give support to enable, clean and invalidate level 1 instruction and data caches, as well as to enable branch target address cache |
L2C-310 Cache Controller Functions | L2C-310 Cache Controller gives access to functions for level 2 cache maintenance.
Reference: Level 2 Cache Controller L2C-310 Technical Reference Manual |
Generic Physical Timer Functions | Generic Physical Timer Functions allow to control privilege level 1 physical timer registers on Generic Timer for Cortex-A7 class devices.
Reference: Cortex-A7 MPCore Technical Reference Manual |
Private Timer Functions | Private Timer Functions controls private timer registers present on Cortex-A5 and A9 class devices.
References: Cortex-A5 MPCore Technical Reference Manual, Cortex-A9 MPCore Technical Reference Manual |
►Memory Management Unit Functions | MMU Functions provide control of the Memory Management Unit using translation tables and attributes of different regions of the physical memory map.
Reference: Architecture Reference Manual Reference Manual - Armv7-A and Armv7-R edition |
MMU Defines and Structs | Defines and structures that relate to the Memory Management Unit |
Floating Point Unit Functions | FPU Functions enable the use of Floating Point instructions and extensions.
Reference: Architecture Reference Manual Reference Manual - Armv7-A and Armv7-R edition |
Compiler Control | Compiler agnostic #define symbols for generic C/C++ source code |
Intrinsic Functions | Functions that generate specific Cortex-A CPU Instructions |
►Interrupts and Exceptions | Generic functions to access the Interrupt Controller |
IRQ Mode Bit-Masks | Configure interrupt line mode |
IRQ Priority Bit-Masks | Definitions used by interrupt priority functions |