Searched +full:multi +full:- +full:system (Results 1 – 25 of 780) sorted by relevance
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| /Linux-v6.6/drivers/eisa/ |
| D | eisa.ids | 6 # Marc Zyngier <maz@wild-wind.fr.eu.org>
10 ABP0510 "Advansys ABP-510 ISA SCSI Host Adapter"
11 ABP0540 "Advansys ABP-540/542 ISA SCSI Host Adapter"
12 ABP7401 "AdvanSys ABP-740/742 EISA Single Channel SCSI Host Adapter"
13 ABP7501 "AdvanSys ABP-750/752 EISA Dual Channel SCSI Host Adapter"
14 ACC1200 "ACCTON EtherCombo-32 Ethernet Adapter"
15 ACC120A "ACCTON EtherCombo-32 Ethernet Adapter"
18 ACE1010 "ACME Super Fast System Board"
25 ACE7010 "ACME Multi-Function Board"
26 ACR1201 "Acer 1200 486/25 EISA System Board"
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| /Linux-v6.6/arch/powerpc/boot/dts/ |
| D | turris1x.dts | 1 // SPDX-License-Identifier: GPL-2.0+
5 * Copyright 2013 - 2022 CZ.NIC z.s.p.o. (http://www.nic.cz/)
8 * and available at: https://docs.turris.cz/hw/turris-1x/turris-1x/
11 #include <dt-bindings/gpio/gpio.h>
12 #include <dt-bindings/interrupt-controller/irq.h>
13 #include <dt-bindings/leds/common.h>
14 /include/ "fsl/p2020si-pre.dtsi"
41 gpio-controller@18 {
45 #gpio-cells = <2>;
46 gpio-controller;
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| /Linux-v6.6/Documentation/devicetree/bindings/ |
| D | trivial-devices.yaml | 1 # SPDX-License-Identifier: GPL-2.0
3 ---
4 $id: http://devicetree.org/schemas/trivial-devices.yaml#
5 $schema: http://devicetree.org/meta-schemas/core.yaml#
10 - Rob Herring <robh@kernel.org>
27 spi-max-frequency: true
31 - enum:
33 - acbel,fsg032
34 … # SMBus/I2C Digital Temperature Sensor in 6-Pin SOT with SMBus Alert and Over Temperature Pin
35 - ad,ad7414
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| /Linux-v6.6/Documentation/core-api/ |
| D | cpu_hotplug.rst | 16 Modern advances in system architectures have introduced advanced error
23 system execution path. Hence the need for CPU hotplug support in the
26 A more novel use of CPU-hotplug support is its use today in suspend resume
27 support for SMP. Dual-core and HT support makes even a laptop run SMP kernels
64 system. This is used to allocate some boot time memory for per_cpu variables
67 are added or removed anytime. Trimming it accurately for your system needs
78 Bitmap of CPUs currently present in the system. Not all
81 from the map depending on the event is hot-add/hot-remove. There are currently
85 You really don't need to manipulate any of the system CPU maps. They should
86 be read-only for most use. When setting up per-cpu resources almost always use
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| /Linux-v6.6/arch/sparc/ |
| D | Kconfig | 1 # SPDX-License-Identifier: GPL-2.0-only
3 bool "64-bit kernel" if "$(ARCH)" = "sparc"
10 Say yes to build a 64-bit kernel - formerly known as sparc64
11 Say no to build a 32-bit kernel - formerly known as sparc
157 bool "Symmetric multi-processing support"
160 a system with only one CPU, say N. If you have a system with more
163 If you say N here, the kernel will run on uni- and multiprocessor
173 See also <file:Documentation/admin-guide/lockup-watchdogs.rst> and the SMP-HOWTO
226 bool "Support for hot-pluggable CPUs"
230 can be controlled through /sys/devices/system/cpu/cpu#.
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| /Linux-v6.6/Documentation/block/ |
| D | null_blk.rst | 1 .. SPDX-License-Identifier: GPL-2.0
11 block-layer implementations. It emulates a block device of X gigabytes in size.
15 Multi-queue block-layer
17 - Request-based.
18 - Configurable submission queues per device.
20 No block-layer (Known as bio-based)
22 - Bio-based. IO requests are submitted directly to the device driver.
23 - Directly accepts bio data structure and returns them.
25 All of them have a completion queue for each core in the system.
30 queue_mode=[0-2]: Default: 2-Multi-queue
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| D | blk-mq.rst | 1 .. SPDX-License-Identifier: GPL-2.0
4 Multi-Queue Block IO Queueing Mechanism (blk-mq)
7 The Multi-Queue Block IO Queueing Mechanism is an API to enable fast storage
16 ----------
26 However, with the development of Solid State Drives and Non-Volatile Memories
29 device to the operating system. In order to take advantage of the parallelism
30 in those devices' design, the multi-queue mechanism was introduced.
36 to different CPUs) wanted to perform block IO. Instead of this, the blk-mq API
42 ---------
45 for instance), blk-mq takes action: it will store and manage IO requests to
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| /Linux-v6.6/Documentation/devicetree/bindings/sound/ |
| D | renesas,rsnd.txt | 1 Renesas R-Car sound
7 Renesas R-Car and RZ/G sound is constructed from below modules
11 - SRC : Sampling Rate Converter
12 - CMD
13 - CTU : Channel Transfer Unit
14 - MIX : Mixer
15 - DVC : Digital Volume and Mute Function
22 * Multi channel
25 Multi channel is supported by Multi-SSI, or TDM-SSI.
27 Multi-SSI : 6ch case, you can use stereo x 3 SSI
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| /Linux-v6.6/tools/testing/ktest/examples/ |
| D | test.conf | 12 # machine, which may be different between which system the machine
14 # the machine, where it does not matter which system the machine boots into.
19 CONSOLE = stty -F /dev/ttyS0 115200 parodd; cat /dev/ttyS0
24 # TESTS = patchcheck, randconfig, boot, test, config-bisect, bisect, min-config
30 # Some tests may have more than one test to run. Define MULTI := 1 to run
32 MULTI := 0
34 # In case you want to differentiate which type of system you are testing
46 #PRE_BUILD = patch -p1 < ${THIS_DIR}/fix.patch
52 DO_POST_BUILD := git reset --hard
53 POST_BUILD = ${SSH} 'rm -rf /lib/modules/*-test*'; ${DO_POST_BUILD}
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| /Linux-v6.6/drivers/clocksource/ |
| D | Kconfig | 1 # SPDX-License-Identifier: GPL-2.0-only
60 bool "OMAP dual-mode timer driver" if ARCH_K3 || COMPILE_TEST
64 Enables the support for the TI dual-mode timer driver.
180 Enable 24-bit TIMER0 and TIMER1 counters in the NPCM7xx architecture,
201 Support for Multi Timer Unit. MTU provides access
203 32-bit free running decrementing counters.
238 bool "Integrator-AP timer driver" if COMPILE_TEST
241 Enables support for the Integrator-AP timer.
266 available on many OMAP-like platforms.
285 bool "Support for 32-bit TIMERn counters in ARC Cores" if COMPILE_TEST
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| /Linux-v6.6/Documentation/networking/ |
| D | af_xdp.rst | 1 .. SPDX-License-Identifier: GPL-2.0
20 XDP programs to redirect frames to a memory buffer in a user-space
64 single-consumer / single-producer (for performance reasons), the new
72 user-space application can place an XSK at an arbitrary place in this
99 http://vger.kernel.org/lpc_net2018_talks/lpc18_paper_af_xdp_perf-v2.pdf. Do
106 ----
109 equal-sized frames. An UMEM is associated to a netdev and a specific
112 system call. A UMEM is bound to a netdev and queue id, via the bind()
113 system call.
121 The UMEM has two single-producer/single-consumer rings that are used
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| D | scaling.rst | 1 .. SPDX-License-Identifier: GPL-2.0
13 multi-processor systems.
17 - RSS: Receive Side Scaling
18 - RPS: Receive Packet Steering
19 - RFS: Receive Flow Steering
20 - Accelerated Receive Flow Steering
21 - XPS: Transmit Packet Steering
28 (multi-queue). On reception, a NIC can send different packets to different
33 generally known as “Receive-side Scaling” (RSS). The goal of RSS and
35 Multi-queue distribution can also be used for traffic prioritization, but
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| /Linux-v6.6/tools/power/pm-graph/ |
| D | sleepgraph.8 | 3 sleepgraph \- Suspend/Resume timing analysis
21 Generates output files in subdirectory: suspend-yymmdd-HHMMSS
27 \fB-h\fR
30 \fB-v\fR
33 \fB-verbose\fR
36 \fB-config \fIfile\fR
39 \fB-m \fImode\fR
42 \fB-o \fIname\fR
46 e.g. suspend-{hostname}-{date}-{time}
48 \fB-rtcwake \fIt\fR | off
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| /Linux-v6.6/Documentation/devicetree/bindings/soc/ti/ |
| D | keystone-navigator-qmss.txt | 3 The QMSS (Queue Manager Sub System) found on Keystone SOCs is one of
4 the main hardware sub system which forms the backbone of the Keystone
5 multi-core Navigator. QMSS consist of queue managers, packed-data structure
9 management of the packet queues. Packets are queued/de-queued by writing or
20 - compatible : Must be "ti,keystone-navigator-qmss".
21 : Must be "ti,66ak2g-navss-qm" for QMSS on K2G SoC.
22 - clocks : phandle to the reference clock for this device.
23 - queue-range : <start number> total range of queue numbers for the device.
24 - linkram0 : <address size> for internal link ram, where size is the total
26 - linkram1 : <address size> for external link ram, where size is the total
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| /Linux-v6.6/tools/perf/Documentation/ |
| D | perf-bench.txt | 1 perf-bench(1)
5 ----
6 perf-bench - General framework for benchmark suites
9 --------
14 -----------
18 --------------
19 -r::
20 --repeat=::
23 -f::
24 --format=::
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| /Linux-v6.6/arch/parisc/ |
| D | Kconfig | 1 # SPDX-License-Identifier: GPL-2.0
78 select HAVE_DYNAMIC_FTRACE if $(cc-option,-fpatchable-function-entry=1,1)
88 The PA-RISC microprocessor is designed by Hewlett-Packard and used
90 and later HP3000 series). The PA-RISC Linux project home page is
147 # unless you want to implement ACPI on PA-RISC ... ;-)
182 that can run on all 32-bit PA CPUs (albeit not optimally fast),
185 Specifying "PA8000" here will allow you to select a 64-bit kernel
191 Select this option for the PCX-L processor, as used in the
193 D200, D210, D300, D310 and E-class
198 Select this option for the PCX-T' processor, as used in the
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| /Linux-v6.6/drivers/firmware/arm_scmi/ |
| D | protocols.h | 1 /* SPDX-License-Identifier: GPL-2.0 */
3 * System Control and Management Interface (SCMI) Message Protocol
39 * struct scmi_msg_resp_prot_version - Response for a message
56 * struct scmi_msg - Message(Tx/Rx) structure
67 * struct scmi_msg_hdr - Message(Tx/Rx) header
89 * struct scmi_xfer - Structure representing a message flow
94 * @rx: Receive message, the buffer should be pre-allocated to store
95 * message. If request-ACK protocol is used, we can reuse the same
108 * though the timed-out transaction will anyway cause the command
109 * request to be reported as failed by time-out, the underlying xfer
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| /Linux-v6.6/drivers/iio/temperature/ |
| D | Kconfig | 1 # SPDX-License-Identifier: GPL-2.0-only
15 will be called iqs620at-temp.
18 tristate "Analog Devices Multi-Sensor Digital Temperature Measurement System"
22 Say yes here to build support for the LTC2983 Multi-Sensor
23 high accuracy digital temperature measurement system.
55 will be called hid-sensor-temperature.
58 tristate "MLX90614 contact-less infrared sensor"
62 MLX90614 contact-less infrared sensor connected with I2C.
68 tristate "MLX90632 contact-less infrared sensor with medical accuracy"
73 MLX90632 contact-less infrared sensor with medical accuracy
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| /Linux-v6.6/Documentation/devicetree/bindings/timer/ |
| D | csky,mptimer.txt | 2 C-SKY Multi-processors Timer
5 C-SKY multi-processors timer is designed for C-SKY SMP system and the
6 regs is accessed by cpu co-processor 4 registers with mtcr/mfcr.
8 - PTIM_CTLR "cr<0, 14>" Control reg to start reset timer.
9 - PTIM_TSR "cr<1, 14>" Interrupt cleanup status reg.
10 - PTIM_CCVR "cr<3, 14>" Current counter value reg.
11 - PTIM_LVR "cr<6, 14>" Window value reg to trigger next event.
21 - compatible
25 - clocks
29 - interrupts
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| /Linux-v6.6/Documentation/admin-guide/cgroup-v1/ |
| D | cpuacct.rst | 8 The CPU accounting controller supports multi-hierarchy groups. An accounting
14 # mount -t cgroup -ocpuacct none /sys/fs/cgroup
18 the system. /sys/fs/cgroup/tasks lists the tasks in this cgroup.
21 in the system.
35 CPU time obtained by the cgroup into user and system times. Currently
39 system: Time spent by tasks of the cgroup in kernel mode.
41 user and system are in USER_HZ unit.
44 system times. This has two side effects:
46 - It is theoretically possible to see wrong values for user and system times.
49 - It is possible to see slightly outdated values for user and system times
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| /Linux-v6.6/Documentation/admin-guide/kdump/ |
| D | kdump.rst | 2 Documentation for Kdump - The kexec-based Crash Dumping Solution
11 Kdump uses kexec to quickly boot to a dump-capture kernel whenever a
12 dump of the system kernel's memory needs to be taken (for example, when
13 the system panics). The system kernel's memory image is preserved across
14 the reboot and is accessible to the dump-capture kernel.
18 to a remote system.
23 When the system kernel boots, it reserves a small section of memory for
24 the dump-capture kernel. This ensures that ongoing Direct Memory Access
25 (DMA) from the system kernel does not corrupt the dump-capture kernel.
26 The kexec -p command loads the dump-capture kernel into this reserved
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| /Linux-v6.6/Documentation/trace/ |
| D | intel_th.rst | 1 .. SPDX-License-Identifier: GPL-2.0
8 --------
12 sources over several types of trace output ports encoded in System
13 Trace Protocol (MIPI STPv2) and is intended to perform full system
23 - Software Trace Hub (STH), trace source, which is a System Trace
25 - Memory Storage Unit (MSU), trace output, which allows storing
26 trace hub output in system memory,
27 - Parallel Trace Interface output (PTI), trace output to an external
29 - Global Trace Hub (GTH), which is a switch and a central component
33 Documentation/ABI/testing/sysfs-bus-intel_th-output-devices, the most
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| /Linux-v6.6/Documentation/arch/s390/ |
| D | pci.rst | 1 .. SPDX-License-Identifier: GPL-2.0
8 - Pierre Morel
17 -----------------------
28 ---------------
36 - /sys/kernel/debug/s390dbf/pci_msg/sprintf
56 - /sys/bus/pci/slots/XXXXXXXX/power
64 - function_id
67 - function_handle
68 Low-level identifier used for a configured PCI function.
71 - pchid
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| /Linux-v6.6/Documentation/devicetree/bindings/mfd/ |
| D | mfd.txt | 1 Multi-Function Devices (MFD)
4 more than one non-unique yet varying hardware functionality.
8 - A mixed signal ASIC on an external bus, sometimes a PMIC (Power Management
14 - A range of memory registers containing "miscellaneous system registers" also
15 known as a system controller "syscon" or any other memory range containing a
20 - compatible : "simple-mfd" - this signifies that the operating system should
22 "simple-bus" indicates when to see subnodes as children for a simple
23 memory-mapped bus. For more complex devices, when the nexus driver has to
26 operating system.
28 - ranges: Describes the address mapping relationship to the parent. Should set
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| /Linux-v6.6/Documentation/gpu/amdgpu/ |
| D | amdgpu-glossary.rst | 7 'Documentation/gpu/amdgpu/display/dc-glossary.rst'.
12 The number of CUs that are active on the system. The number of active
35 page table used by the GPU kernel driver. It remaps system resources
51 allow the GPU to remap VRAM and system resources into GPU virtual address
57 which provides access to system resources (memory or MMIO space) for
90 Multi-Media HUB
96 PowerPlay Library - PowerPlay is the power management component.
105 System DMA
114 System Management Unit
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