Searched refs:architecture (Results 1 – 25 of 423) sorted by relevance
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| /Linux-v6.6/Documentation/features/ |
| D | arch-support.txt | 2 For generic kernel features that need architecture support, the
8 | ok | # feature supported by the architecture
9 |TODO| # feature not yet supported by the architecture
11 | N/A| # feature doesn't apply to the architecture
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| /Linux-v6.6/Documentation/admin-guide/ |
| D | kernel-parameters.rst | 104 ARM ARM architecture is enabled.
105 ARM64 ARM64 architecture is enabled.
120 IA-64 IA-64 architecture is enabled.
121 IMA Integrity measurement architecture is enabled.
131 LOONGARCH LoongArch architecture is enabled.
134 M68k M68k architecture is enabled.
138 MIPS MIPS architecture is enabled.
146 PARISC The PA-RISC architecture is enabled.
151 PPC PowerPC architecture is enabled.
157 RISCV RISCV architecture is enabled.
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| /Linux-v6.6/arch/ |
| D | Kconfig | 3 # General architecture dependent options
12 menu "General architecture-dependent options"
17 Select if the architecture can check permissions at sub-page
31 # Basic CPU dead synchronization selected by architecture
36 # Full CPU synchronization with alive state selected by architecture
141 This symbol should be selected by an architecture if 64 bit
143 though it is not a 64 bit architecture.
157 This symbol should be selected by an architecture if it can
172 inline assembler that the architecture code provides in the
177 store-and-swap instructions if the architecture has them. It
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| /Linux-v6.6/Documentation/arch/x86/x86_64/ |
| D | machinecheck.rst | 29 For more details about the x86 machine check architecture
30 see the Intel and AMD architecture manuals from their developer websites.
32 For more details about the architecture
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| /Linux-v6.6/arch/mips/jazz/ |
| D | Kconfig | 9 the MIPS architecture, check out the Linux/MIPS FAQ on the WWW at
20 the MIPS architecture, check out the Linux/MIPS FAQ on the WWW at
30 the MIPS architecture, check out the Linux/MIPS FAQ on the WWW at
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| /Linux-v6.6/Documentation/mm/ |
| D | memory-model.rst | 16 FLATMEM and SPARSEMEM. Each architecture defines what
43 To allocate the `mem_map` array, architecture specific setup code should
48 An architecture may free parts of the `mem_map` array that do not cover the
49 actual physical pages. In such case, the architecture specific
75 `MAX_PHYSMEM_BITS` constants defined by each architecture that
77 physical address that an architecture supports, the
100 The architecture setup code should call sparse_init() to
119 To use vmemmap, an architecture has to reserve a range of virtual
122 the architecture should implement :c:func:`vmemmap_populate` method
124 virtual memory map. If an architecture does not have any special
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| D | page_tables.rst | 17 height. The architecture code for each supported architecture will then
90 The architecture defines the size and contents of `pteval_t`.
94 architecture-specific bits such as memory protection.
127 pointers on each level is architecture-defined.::
146 If the architecture does not use all the page table levels, they can be *folded*
151 Page table handling code that wishes to be architecture-neutral, such as the
154 architecture-specific code, so as to be robust to future changes.
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| /Linux-v6.6/drivers/perf/arm_cspmu/ |
| D | Kconfig | 10 based on ARM CoreSight PMU architecture. Note that this PMU
11 architecture does not have relationship with the ARM CoreSight
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| /Linux-v6.6/Documentation/core-api/irq/ |
| D | irqflags-tracing.rst | 15 CONFIG_PROVE_RWSEM_LOCKING will be offered on an architecture - these
21 state changes. But an architecture can be irq-flags-tracing enabled in a
42 - if the architecture has non-maskable interrupts then those need to be
47 implementation in an architecture: lockdep will detect that and will
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| /Linux-v6.6/Documentation/ABI/stable/ |
| D | syscalls | 7 Note that this interface is different for every architecture
8 that Linux supports. Please see the architecture-specific
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| D | sysfs-devices-system-cpu | 29 socket number, but the actual value is architecture and platform
36 architecture and platform dependent.
42 architecture and platform dependent.
48 architecture and platform dependent.
54 architecture and platform dependent. it's only used on s390.
60 architecture and platform dependent. it's only used on s390.
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| /Linux-v6.6/drivers/clk/bcm/ |
| D | Kconfig | 30 based on the ARM architecture
38 based on the MIPS architecture
47 based on the MIPS architecture.
62 based on the iProc architecture
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| /Linux-v6.6/Documentation/usb/ |
| D | linux.inf | 19 ; Decoration for x86 architecture
23 ; Decoration for x64 architecture
27 ; Decoration for ia64 architecture
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| /Linux-v6.6/tools/perf/pmu-events/ |
| D | README | 19 - To reduce JSON event duplication per architecture, platform JSONs may
21 events", defined in architecture standard JSONs.
22 Architecture standard JSONs must be located in the architecture root
44 - Set of 'PMU events tables' for all known CPUs in the architecture,
61 - A 'mapping table' that maps each CPU of the architecture, to its
86 3. _All_ known CPU tables for architecture are included in the perf
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| /Linux-v6.6/Documentation/arch/arm64/ |
| D | legacy_instructions.rst | 7 the architecture. The infrastructure code uses undefined instruction
19 have been obsoleted in the architecture, e.g., SWP
39 architecture. Deprecated instructions should default to emulation
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| D | amu.rst | 19 ARMv8.4 CPU architecture.
26 Version 1 of the Activity Monitors architecture implements a counter group
39 The Activity Monitors architecture provides space for up to 16 architected
40 event counters. Future versions of the architecture may use this space to
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| /Linux-v6.6/Documentation/arch/arm/samsung/ |
| D | gpio.rst | 8 This outlines the Samsung GPIO implementation and the architecture
25 Pin configuration is specific to the Samsung architecture, with each SoC
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| /Linux-v6.6/lib/crypto/ |
| D | Kconfig | 26 Declares whether the architecture provides an arch-specific
42 Declares whether the architecture provides an arch-specific
68 Declares whether the architecture provides an arch-specific
104 Declares whether the architecture provides an arch-specific
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| /Linux-v6.6/Documentation/arch/nios2/ |
| D | nios2.rst | 2 Linux on the Nios II architecture
17 Nios II is a 32-bit embedded-processor architecture designed specifically for the
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| /Linux-v6.6/Documentation/powerpc/ |
| D | elf_hwcaps.rst | 130 The processor implements the embedded category ("BookE") architecture.
146 The processor supports the v2.05 userlevel architecture. Processors
159 The processor supports the v2.06 userlevel architecture. Processors
181 The processor supports the v2.07 userlevel architecture. Processors
208 The processor supports the v3.0B / v3.0C userlevel architecture. Processors
227 The processor supports the v3.1 userlevel architecture. Processors
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| D | associativity.rst | 17 Hypervisor indicates the type/form of associativity used via "ibm,architecture-vec-5 property".
18 Bit 0 of byte 5 in the "ibm,architecture-vec-5" property indicates usage of Form 0 or Form 1.
20 bit 2 of byte 5 in the "ibm,architecture-vec-5" property is used.
57 "ibm,architecture-vec-5" property.
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| /Linux-v6.6/Documentation/core-api/ |
| D | genericirq.rst | 22 interrupt subsystem based for their architecture, with the help of the
67 Analysing a couple of architecture's IRQ subsystem implementations
81 and extensible. For example, an (sub)architecture can use a generic
83 (sub)architecture specific 'edge type' implementation.
118 Whenever an interrupt triggers, the low-level architecture code calls
173 The interrupt flow handlers (either pre-defined or architecture
174 specific) are assigned to specific interrupts by the architecture either
321 which have no platform-specific IRQ handling quirks. If an architecture
385 The locking of chip registers is up to the architecture that defines the
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| /Linux-v6.6/Documentation/timers/ |
| D | highres.rst | 48 code out of the architecture-specific areas into a generic management
49 framework, as illustrated in figure #3 (OLS slides p. 18). The architecture
76 for various event driven functionalities is hardwired into the architecture
80 architecture. Another implication of the current design is that it is necessary
81 to touch all the architecture-specific implementations in order to provide new
87 to minimize the clock event related architecture dependent code to the pure
93 Clock event devices are registered either by the architecture dependent boot
116 architecture specific timer interrupt handlers and hands the control over the
131 The conversion of an architecture has no functional impact, but allows to
135 adding the kernel/time/Kconfig file to the architecture specific Kconfig and
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| /Linux-v6.6/Documentation/devicetree/bindings/powerpc/fsl/ |
| D | cpus.txt | 17 Freescale Power Architecture) defines the architecture for Freescale
18 Power CPUs. The EREF defines some architecture categories not defined
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| /Linux-v6.6/Documentation/ABI/testing/ |
| D | sysfs-mce | 12 For more details about the x86 machine check architecture
13 see the Intel and AMD architecture manuals from their
16 For more details about the architecture
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