| /f-stack/dpdk/doc/guides/linux_gsg/ |
| H A D | build_sample_apps.rst | 130 Each bit of the mask corresponds to the equivalent logical core number as reported by Linux. The pr…
131 Since these logical core numbers, and their mapping to specific cores on specific NUMA sockets, can…
134 On initialization of the EAL layer by a DPDK application, the logical cores to be used and their so…
137 This can be useful when using other processors to understand the mapping of the logical cores to th…
141 …A more graphical view of the logical core layout may be obtained using the ``lstopo`` Linux utilit…
149 …The logical core layout can change between different board layouts and should be checked before se…
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| H A D | enable_func.rst | 143 While the threads used by a DPDK application are pinned to logical cores on the system,
148 For example, if DPDK applications are to run on logical cores 2, 4 and 6,
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| /f-stack/freebsd/contrib/device-tree/Bindings/nvmem/ |
| H A D | nvmem.yaml | 41 (logical '1') to block the write operation. It's deasserted,
42 when it's driven low (logical '0') to allow writing.
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| /f-stack/freebsd/contrib/device-tree/Bindings/display/msm/ |
| H A D | dsi.txt | 58 to the logical lanes on the given platform. The value contained in
59 index n describes what physical lane is mapped to the logical lane n
68 The above mapping describes that the logical data lane DATA0 is mapped to
69 the physical data lane DATA3, logical DATA1 to physical DATA0, logic DATA2
72 There are only a limited number of physical to logical mappings possible:
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| /f-stack/freebsd/contrib/device-tree/Bindings/display/bridge/ |
| H A D | ti,sn65dsi86.yaml | 132 If you have 1 logical lane the bridge supports routing
144 If you have 2 logical lanes the bridge supports
158 If you have 4 logical lanes the bridge supports
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| /f-stack/dpdk/doc/guides/nics/ |
| H A D | pfe.rst | 83 net_pfe0 and net_pfe1 are logical ethernet interfaces, created by HIF client
85 host interface and these logical interfaces. PFE ethernet driver is a
87 receive packets from HIF via logical interfaces.
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| /f-stack/app/redis-5.0.5/src/ |
| H A D | evict.c | 396 int getMaxmemoryState(size_t *total, size_t *logical, size_t *tofree, float *level) { in getMaxmemoryState() argument
431 if (logical) *logical = mem_used; in getMaxmemoryState()
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| /f-stack/freebsd/contrib/device-tree/Bindings/hwmon/pmbus/ |
| H A D | ti,ucd90320.yaml | 18 margining (MARx), 16 for logical GPO, and 32 GPIs for cascading, and system
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| /f-stack/dpdk/doc/guides/prog_guide/ |
| H A D | poll_mode_drv.rst | 32 each logical core assigned to the DPDK executes a packet processing loop that includes the followin…
40 Conversely, in an asynchronous pipe-line model, some logical cores may be dedicated to the retrieva…
41 other logical cores to the processing of previously received packets.
42 Received packets are exchanged between logical cores through rings.
61 In the same way, every receive queue of a port is assigned to and polled by a single logical core (…
63 …with Non-Uniform Memory Access (NUMA), memory management is designed to assign to each logical core
112 The DPDK supports NUMA allowing for better performance when a processor's logical cores and interfa…
118 This is also true for the pipe-line model provided all logical cores used are located on the same p…
338 not to be invoked in parallel on different logical cores to work on the same target object.
339 For instance, a PMD receive function cannot be invoked in parallel on two logical cores to poll the…
[all …]
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| H A D | overview.rst | 29 running as execution units on logical processing cores.
104 and/or execution blocks connected together on a logical core.
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| H A D | compressdev.rst | 101 to use a different logical core to dequeue an operation on a queue pair from the logical
103 APIs are a logical place to transition from one logical core to another in a
447 `stream` in DPDK compression is a logical entity which identifies related set of ops, say, a one la…
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| H A D | glossary.rst | 103 A logical execution unit of the processor, sometimes called a *hardware
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| /f-stack/freebsd/contrib/device-tree/Bindings/input/ |
| H A D | ti,nspire-keypad.txt | 22 - active-low: Specify that the keypad is active low (i.e. logical low signifies
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| /f-stack/freebsd/contrib/device-tree/Bindings/x86/ |
| H A D | ce4100.txt | 30 A "cpu" node describes one logical processor (hardware thread).
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| /f-stack/dpdk/doc/guides/howto/ |
| H A D | pvp_reference_benchmark.rst | 29 In this diagram, each red arrow represents one logical core. This use-case
30 requires 6 dedicated logical cores. A forwarding configuration with a single
31 NIC is also possible, requiring 3 logical cores.
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| /f-stack/freebsd/contrib/device-tree/Bindings/mfd/ |
| H A D | qcom,spmi-pmic.txt | 6 register space up into logical pieces, and set of fixed register
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| /f-stack/freebsd/contrib/device-tree/Bindings/media/ |
| H A D | samsung-mipi-csis.txt | 43 data input lanes and their mapping to logical lanes; the
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| H A D | imx7-mipi-csi2.txt | 49 data input lanes and their mapping to logical lanes; this
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| H A D | qcom,camss.txt | 136 Position of an entry determines the logical
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| /f-stack/freebsd/contrib/device-tree/Bindings/clock/ |
| H A D | zynq-7000.txt | 10 The clock controller is a logical abstraction of Zynq's clock tree. It reads
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| /f-stack/freebsd/contrib/device-tree/Bindings/arm/ |
| H A D | arm,integrator.yaml | 24 host and several PCI slots, as well as a number of slots for logical
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| /f-stack/dpdk/doc/guides/sample_app_ug/ |
| H A D | l3_forward_power_man.rst | 194 Frequency (P-state) control and sleep state (C-state) control work individually for each logical co…
313 …_heuristic() function is responsible for generating a frequency hint for the specified logical core
339 Specifically, if the sleep times of a logical core indicate that it is sleeping more than 25% of th…
348 in order to force logical to enter deeper sleeping C-state.
350 to select C-state to enter based on actual sleep period time of giving logical core.
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| H A D | bbdev_app.rst | 110 * ``-m <string>``: Matrix for mapping ports to logical cores.
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| /f-stack/freebsd/contrib/device-tree/Bindings/powerpc/fsl/ |
| H A D | srio.txt | 59 Definition: The logical I/O device number for the PAMU (IOMMU) to be
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| /f-stack/freebsd/contrib/device-tree/Bindings/ |
| H A D | graph.txt | 8 devices that work together to form a logical compound device, following an
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