| /f-stack/app/redis-5.0.5/tests/unit/ |
| H A D | multi.tcl | 7 r multi
19 r multi
28 r multi
36 r multi
43 r multi
51 r multi
63 r multi
79 r multi
91 r multi
100 r multi
[all …]
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| H A D | aofrw.tcl | 71 r multi
189 r multi
203 r multi
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| /f-stack/app/micro_thread/ |
| H A D | mt_cache.h | 112 uint32_t get_data_len(TBuffVecPtr multi);
114 uint32_t get_block_count(TBuffVecPtr multi);
116 TBuffBlockPtr get_first_block(TBuffVecPtr multi);
118 TBuffBlockPtr get_next_block(TBuffVecPtr multi, TBuffBlockPtr block);
122 uint32_t read_cache_data(TBuffVecPtr multi, void* data, uint32_t len);
124 uint32_t read_cache_begin(TBuffVecPtr multi, uint32_t begin, void* data, uint32_t len);
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| H A D | mt_cache.cpp | 539 uint32_t get_data_len(TBuffVecPtr multi) in get_data_len() argument
541 TRWCache* cache = (TRWCache*)multi; in get_data_len()
549 uint32_t get_block_count(TBuffVecPtr multi) in get_block_count() argument
551 TRWCache* cache = (TRWCache*)multi; in get_block_count()
559 TBuffBlockPtr get_first_block(TBuffVecPtr multi) in get_first_block() argument
561 TRWCache* cache = (TRWCache*)multi; in get_first_block()
569 TBuffBlockPtr get_next_block(TBuffVecPtr multi, TBuffBlockPtr block) in get_next_block() argument
571 TRWCache* cache = (TRWCache*)multi; in get_next_block()
601 uint32_t read_cache_data(TBuffVecPtr multi, void* data, uint32_t len) in read_cache_data() argument
603 TRWCache* cache = (TRWCache*)multi; in read_cache_data()
[all …]
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| /f-stack/dpdk/doc/guides/mempool/ |
| H A D | ring.rst | 14 The underlying **rte_ring** operates in multi-thread producer,
15 multi-thread consumer sync mode. For more information please refer to:
27 multi-thread consumer sync mode.
31 The underlying **rte_ring** operates in multi-thread producer,
37 multi-thread Relaxed Tail Sync (RTS) mode. For more information please
43 multi-thread Head-Tail Sync (HTS) mode. For more information please
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| /f-stack/freebsd/contrib/device-tree/Bindings/leds/ |
| H A D | leds-class-multicolor.yaml | 13 Bindings for multi color LEDs show how to describe current outputs of
14 either integrated multi-color LED elements (like RGB, RGBW, RGBWA-UV
15 etc.) or standalone LEDs, to achieve logically grouped multi-color LED
16 modules. This is achieved by adding multi-led nodes layer to the
23 "^multi-led@([0-9a-f])$":
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| H A D | cznic,turris-omnia-leds.yaml | 33 "^multi-led@[0-9a-b]$":
70 multi-led@0 {
81 multi-led@a {
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| /f-stack/app/redis-5.0.5/src/ |
| H A D | redis-check-aof.c | 103 int i, multi = 0; in process() local
107 if (!multi) pos = ftello(fp); in process()
114 if (multi++) { in process()
119 if (--multi) { in process()
135 if (feof(fp) && multi && strlen(error) == 0) { in process()
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| /f-stack/freebsd/contrib/device-tree/src/arm/ |
| H A D | aspeed-bmc-facebook-yosemitev2.dts | 98 mlx,multi-host;
125 multi-master;
136 multi-master;
147 multi-master;
158 multi-master;
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| /f-stack/dpdk/doc/guides/prog_guide/ |
| H A D | thread_safety_dpdk_functions.rst | 12 In some cases, it is not only multi-threaded, but multi-process.
41 Moreover, it provides high performance for either multi- or single-consumer/producer enqueue/dequeu…
42 The mempool library is based on the DPDK lockless ring library and therefore is also multi-thread s…
49 For example, malloc and memzone functions are safe for use in multi-threaded and multi-process envi…
52 …le read/writes during PMD setup and configuration could be corrupted in a multi-thread environment.
64 In the multi-process case, the configuration information of shared memory will only be initialized …
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| H A D | pdump_lib.rst | 14 The library uses a generic multi process channel to facilitate communication
47 multi process channel to facilitate communication with secondary process, so the
53 …ry API ``rte_pdump_init()``, initializes the packet capture framework by creating the multi process
55 to enable or disable the packet capture over the multi process channel.
59 the request to the primary process over the multi process channel. The primary process takes this r…
66 the request to the primary process over the multi process channel. The primary process takes this r…
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| /f-stack/freebsd/contrib/device-tree/Bindings/mfd/ |
| H A D | retu.txt | 1 * Device tree bindings for Nokia Retu and Tahvo multi-function device
3 Retu and Tahvo are a multi-function devices found on Nokia Internet
|
| H A D | xylon,logicvc.yaml | 8 title: Xylon LogiCVC multi-function device
15 As a result, a multi-function device is exposed as parent of the display
|
| H A D | samsung,sec-core.txt | 1 Binding for Samsung S2M and S5M family multi-function device
4 This is a part of device tree bindings for S2M and S5M family multi-function
8 of multi-function devices which include voltage and current regulators, RTC,
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| /f-stack/freebsd/kern/ |
| H A D | subr_csan.c | 767 CSAN_BUS_READ_PTR_FUNC(multi, 1, uint8_t)
774 CSAN_BUS_READ_PTR_FUNC(multi, 2, uint16_t)
781 CSAN_BUS_READ_PTR_FUNC(multi, 4, uint32_t)
789 CSAN_BUS_READ_PTR_FUNC(multi, 8, uint64_t)
815 CSAN_BUS_WRITE_PTR_FUNC(multi, 1, uint8_t)
822 CSAN_BUS_WRITE_PTR_FUNC(multi, 2, uint16_t)
829 CSAN_BUS_WRITE_PTR_FUNC(multi, 4, uint32_t)
852 CSAN_BUS_SET_FUNC(multi, 1, uint8_t)
859 CSAN_BUS_SET_FUNC(multi, 2, uint16_t)
866 CSAN_BUS_SET_FUNC(multi, 4, uint32_t)
[all …]
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| /f-stack/freebsd/contrib/device-tree/Bindings/display/ |
| H A D | multi-inno,mi0283qt.txt | 4 - compatible: "multi-inno,mi0283qt".
21 compatible = "multi-inno,mi0283qt";
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| /f-stack/freebsd/contrib/device-tree/Bindings/mtd/ |
| H A D | mxic-nand.txt | 5 - compatible: should be "mxic,multi-itfc-v009-nand-controller"
23 compatible = "mxic,multi-itfc-v009-nand-controller";
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| /f-stack/freebsd/contrib/device-tree/Bindings/timer/ |
| H A D | andestech,atcpit100-timer.txt | 6 This timer is a set of compact multi-function timers, which can be
10 multi-function timer and provide the following usage scenarios:
|
| H A D | renesas,mtu2.yaml | 14 The MTU2 is a multi-purpose, multi-channel timer/counter with configurable clock inputs
|
| /f-stack/freebsd/contrib/device-tree/Bindings/usb/ |
| H A D | fsl-usb.txt | 9 - compatible : Should be "fsl-usb2-mph" for multi port host USB
14 - phy_type : For multi port host USB controllers, should be one of
43 Example multi port host USB controller device node :
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| /f-stack/dpdk/doc/guides/sample_app_ug/ |
| H A D | multi_process.rst | 9 This chapter describes the example applications for multi-processing that are included in the DPDK.
16 The multi-process example applications are built in the same way as other sample applications,
26 If just a specific multi-process application needs to be built,
28 rather than at the top-level multi-process directory.
141 The second example of DPDK multi-process support demonstrates how a set of processes can run in par…
144 we refer to this as symmetric multi-processing, to differentiate it from asymmetric multi- processi…
199 For the symmetric multi-process example, since all processes work in the same manner,
245 The third example multi-process application included with the DPDK shows how one can
246 use a client-server type multi-process design to do packet processing.
302 as is done for the symmetric multi-process application, and therefore eliminates mismatched paramet…
[all …]
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| /f-stack/freebsd/contrib/device-tree/Bindings/soc/ti/ |
| H A D | keystone-navigator-qmss.txt | 5 multi-core Navigator. QMSS consist of queue managers, packed-data structure
89 -- multi-queue : Optional property to specify that the channel has to
193 multi-queue;
200 multi-queue;
206 multi-queue;
212 multi-queue;
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| /f-stack/dpdk/doc/guides/cryptodevs/ |
| H A D | aesni_mb.rst | 9 support for utilizing Intel multi buffer library, see the white paper
11 <https://www.intel.com/content/dam/www/public/us/en/documents/white-papers/fast-multi-buffer-ipsec-…
85 To build DPDK with the AESNI_MB_PMD the user is required to download the multi-buffer
142 * Build the multi buffer library (explained in Installation section).
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| /f-stack/freebsd/contrib/openzfs/etc/systemd/system/ |
| H A D | zfs.target.in | 5 WantedBy=multi-user.target
|
| /f-stack/dpdk/doc/guides/howto/ |
| H A D | virtio_user_as_exceptional_path.rst | 25 related features, like multi queue, tso, multi-seg mbuf, etc.
78 Number of multi-queues. Each queue will be served by a kthread. For example:
|