| /linux-6.15/Documentation/devicetree/ |
| H A D | of_unittest.rst | 95 Figure 1, describes a generic structure of machine's un-flattened device tree
124 Figure 1: Generic structure of un-flattened device tree
142 in Figure 2 is attached to the live tree described in Figure 1::
153 Figure 2: Example test data tree to be attached to live tree.
162 data node is attached to the live tree above (Figure 1), the final structure is
163 as shown in Figure 3::
198 Figure 3: Live device tree structure after attaching the testcase-data.
202 sibling compared to the earlier structure (Figure 2). After attaching first
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| /linux-6.15/Documentation/translations/zh_CN/devicetree/ |
| H A D | of_unittest.rst | 101 Figure 1: 未扁平化的设备树的通用结构
127 Figure 2: 将测试数据树附在实时树上的例子。
169 Figure 3: 附加测试案例数据后的实时设备树结构。
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| /linux-6.15/Documentation/sphinx/ |
| H A D | kfigure.py | 64 Figure = images.Figure variable
483 class KernelFigure(Figure):
498 result = Figure.run(self)
559 class KernelRender(Figure):
577 option_spec = Figure.option_spec.copy()
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| /linux-6.15/Documentation/firmware-guide/acpi/ |
| H A D | namespace.rst | 72 Figure 1. ACPI Definition Blocks
189 Figure 2. Example ACPI Namespace
325 example ACPI namespace illustrated in Figure 2 with the addition of
388 Figure 3. Example Linux ACPI Device Tree
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| /linux-6.15/Documentation/userspace-api/ |
| H A D | perf_ring_buffer.rst | 70 Figure 1. Ring buffer
100 Figure 2. Perf ring buffer
193 Figure 3. Ring buffer for default mode
248 Figure 4. Ring buffer for per-thread mode
314 Figure 5. Ring buffer for per-CPU mode
380 Figure 6. Ring buffer for system wide mode
421 Figure 7. Writing and reading the ring buffer
717 Figure 8. AUX ring buffer for system wide mode
830 Figure 9. Snapshot with system wide mode
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| /linux-6.15/arch/arm64/boot/dts/qcom/ |
| H A D | msm8998-mtp.dts | 128 /* FIXME: Figure out why clock late_initcall crashes the board with this enabled. */
132 /* FIXME: Figure out why clock late_initcall crashes the board with this enabled. */
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| H A D | msm8998-fxtec-pro1.dts | 313 /* FIXME: Figure out why clock late_initcall crashes the board with this enabled. */
317 /* FIXME: Figure out why clock late_initcall crashes the board with this enabled. */
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| /linux-6.15/Documentation/timers/ |
| H A D | highres.rst | 14 changes in the time(r) related Linux subsystems. Figure #1 (p. 2) shows the
66 Figure #3 (OLS slides p.18) illustrates the transformation.
139 Figure #4 (OLS slides p.20) illustrates the transformation.
205 Figure #5 (OLS slides p.22) illustrates the transformation.
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| /linux-6.15/Documentation/netlabel/ |
| H A D | draft-ietf-cipso-ipsecurity-01.txt | 99 Figure 1. CIPSO Format
177 Figure 2: Standard Tag Format
218 Figure 3. Tag Type 1 Format
253 by the least significant bit of the second byte. Figure 4 graphically
276 Figure 4. Ordering of Bits in Tag 1 Bit Map
304 Figure 5. Tag Type 2 Format
367 Figure 6. Tag Type 5 Format
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| /linux-6.15/Documentation/trace/ |
| H A D | hisi-ptt.rst | 221 Reads with 64-bit addresses is shown in PCIe r5.0, Figure 2-17;
222 the header for Configuration Requests is shown in Figure 2.20, etc.
225 possibly a prefix for a PASID TLP prefix (see Figure 6-20, PCIe r5.0).
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| /linux-6.15/Documentation/userspace-api/media/v4l/ |
| H A D | dev-raw-vbi.rst | 224 **Figure 4.1. Line synchronization**
232 **Figure 4.2. ITU-R 525 line numbering (M/NTSC and M/PAL)**
240 **Figure 4.3. ITU-R 625 line numbering**
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| H A D | vidioc-g-sliced-vbi-cap.rst | 151 - Byte number 3 to 15 according to Figure 9 of ETS 300 231, lsb
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| H A D | dev-subdev.rst | 462 **Figure 4.5. Image processing in subdevs: simple crop example**
479 **Figure 4.6. Image processing in subdevs: scaling with multiple sources**
495 …**Figure 4.7. Image processing in subdevs: scaling and composition with multiple sinks and sources…
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| H A D | dev-sliced-vbi.rst | 242 - Byte number 3 to 15 according to Figure 9 of ETS 300 231, lsb
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| /linux-6.15/Documentation/arch/powerpc/ |
| H A D | pci_iov_resource_on_powernv.rst | 235 total_VFs is less than 256, we have the situation in Figure 1.0, where
253 Figure 1.0 Direct map VF(n) BAR space
256 space doesn't need that much, as shown in Figure 1.1::
272 Figure 1.1 Map VF(n) BAR space + extra
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| /linux-6.15/drivers/leds/ |
| H A D | TODO | 32 * Figure out what to do with RGB leds
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| /linux-6.15/Documentation/driver-api/acpi/ |
| H A D | linuxized-acpica.rst | 78 Figure 1. Linux ACPI Software Components
169 Figure 2. ACPICA -> Linux Upstream Process
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| /linux-6.15/Documentation/translations/zh_CN/core-api/ |
| H A D | rbtree.rst | 114 /* Figure out where to put new node */
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| /linux-6.15/Documentation/devicetree/bindings/fpga/ |
| H A D | fpga-region.yaml | 106 Figure 1: An FPGA set up with a base image that created three regions. Each
169 region is getting reconfigured (see Figure 1 above). During PR, the FPGA's
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| /linux-6.15/Documentation/filesystems/ |
| H A D | ubifs-authentication.rst | 73 Figure 1: Linux kernel subsystems for dealing with raw flash
181 Figure 2: UBIFS flash layout of log area with commit start nodes
311 Figure 3: Coverage areas of index node hash and master node HMAC
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| /linux-6.15/arch/arm64/boot/dts/ti/ |
| H A D | k3-am625-beagleplay.dts | 97 /* Internal power on time(Figure 8-3) * 2 */
99 /* Re-enable time(Figure 8-2) + 20uS */
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| /linux-6.15/tools/perf/Documentation/ |
| H A D | perf-list.txt | 114 …2 Architectures Software Developer's Manual Volume 3B: System Programming Guide] Figure 30-1 Layout
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| /linux-6.15/Documentation/core-api/ |
| H A D | rbtree.rst | 122 /* Figure out where to put new node */
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| /linux-6.15/Documentation/translations/it_IT/doc-guide/ |
| H A D | sphinx.rst | 409 Figure ed immagini
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| /linux-6.15/Documentation/admin-guide/cgroup-v1/ |
| H A D | memory.rst | 172 :caption: Figure 1: Hierarchy of Accounting
194 Figure 1 shows the important aspects of the controller
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