PMINTENCLR_EL1, Performance Monitors Interrupt Enable Clear register

The PMINTENCLR_EL1 characteristics are:

Purpose

Disables the generation of interrupt requests on overflows from the Cycle Count Register, PMCCNTR_EL0, and the event counters PMEVCNTR<n>_EL0. Reading the register shows which overflow interrupt requests are enabled.

Configuration

AArch64 System register PMINTENCLR_EL1 bits [31:0] are architecturally mapped to AArch32 System register PMINTENCLR[31:0] .

AArch64 System register PMINTENCLR_EL1 bits [31:0] are architecturally mapped to External register PMINTENCLR_EL1[31:0] .

This register is in the Warm reset domain. On a Warm or Cold reset RW fields in this register reset to architecturally UNKNOWN values.

Attributes

PMINTENCLR_EL1 is a 64-bit register.

Field descriptions

The PMINTENCLR_EL1 bit assignments are:

6362616059585756555453525150494847464544434241403938373635343332
RES0
CP<n>, bit [n]
313029282726252423222120191817161514131211109876543210

Bits [63:32]

Reserved, RES0.

C, bit [31]

PMCCNTR_EL0 overflow interrupt request disable bit. Possible values are:

CMeaning
0b0

When read, means the cycle counter overflow interrupt request is disabled. When written, has no effect.

0b1

When read, means the cycle counter overflow interrupt request is enabled. When written, disables the cycle count overflow interrupt request.

P<n>, bit [n], for n = 0 to 30

Event counter overflow interrupt request disable bit for PMEVCNTR<n>_EL0.

If N is less than 31, then bits [30:N] are RAZ/WI. When EL2 is implemented and enabled in the current Security state, in EL1, N is the value in MDCR_EL2.HPMN. Otherwise, N is the value in PMCR_EL0.N.

P<n>Meaning
0b0

When read, means that the PMEVCNTR<n>_EL0 event counter interrupt request is disabled. When written, has no effect.

0b1

When read, means that the PMEVCNTR<n>_EL0 event counter interrupt request is enabled. When written, disables the PMEVCNTR<n>_EL0 interrupt request.

On a Warm reset, this field resets to an architecturally UNKNOWN value.

Accessing the PMINTENCLR_EL1

Accesses to this register use the following encodings:

MRS <Xt>, PMINTENCLR_EL1

op0op1CRnCRmop2
0b110b0000b10010b11100b010

if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EL2Enabled() && !ELUsingAArch32(EL2) && MDCR_EL2.TPM == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif HaveEL(EL3) && !ELUsingAArch32(EL3) && MDCR_EL3.TPM == '1' then AArch64.SystemAccessTrap(EL3, 0x18); else return PMINTENCLR_EL1; elsif PSTATE.EL == EL2 then if HaveEL(EL3) && !ELUsingAArch32(EL3) && MDCR_EL3.TPM == '1' then AArch64.SystemAccessTrap(EL3, 0x18); else return PMINTENCLR_EL1; elsif PSTATE.EL == EL3 then return PMINTENCLR_EL1;

MSR PMINTENCLR_EL1, <Xt>

op0op1CRnCRmop2
0b110b0000b10010b11100b010

if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EL2Enabled() && !ELUsingAArch32(EL2) && MDCR_EL2.TPM == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif HaveEL(EL3) && !ELUsingAArch32(EL3) && MDCR_EL3.TPM == '1' then AArch64.SystemAccessTrap(EL3, 0x18); else PMINTENCLR_EL1 = X[t]; elsif PSTATE.EL == EL2 then if HaveEL(EL3) && !ELUsingAArch32(EL3) && MDCR_EL3.TPM == '1' then AArch64.SystemAccessTrap(EL3, 0x18); else PMINTENCLR_EL1 = X[t]; elsif PSTATE.EL == EL3 then PMINTENCLR_EL1 = X[t];




27/03/2019 21:59; e5e4db499bf9867a4b93324c4dbac985d3da9376

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