| /Linux-v5.15/Documentation/x86/x86_64/ |
| D | mm.rst | 12 - Negative addresses such as "-23 TB" are absolute addresses in bytes, counted down
16 For example 0xffffe90000000000 == -23 TB, it's 23 TB lower than the top of the
20 from TB to GB and then MB/KB.
22 - "16M TB" might look weird at first sight, but it's an easier way to visualize size
32 …0000000000000000 | 0 | 00007fffffffffff | 128 TB | user-space virtual memory, different …
35 …0000800000000000 | +128 TB | ffff7fffffffffff | ~16M TB | ... huge, almost 64 bits wide hole of…
36 … | | | | virtual memory addresses up to the -128 TB
43 …ffff800000000000 | -128 TB | ffff87ffffffffff | 8 TB | ... guard hole, also reserved for hyp…
44 ffff880000000000 | -120 TB | ffff887fffffffff | 0.5 TB | LDT remap for PTI
45 …ffff888000000000 | -119.5 TB | ffffc87fffffffff | 64 TB | direct mapping of all physical memory…
[all …]
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| /Linux-v5.15/Documentation/translations/zh_CN/arm64/ |
| D | memory.txt | 36 分别都有 39-bit (512GB) 或 48-bit (256TB) 的虚拟地址空间。
37 对于页大小为 64KB的配置,仅使用 2 级转换表,有 42-bit (4TB) 的虚拟地址空间,但内存布局相同。
57 0000000000000000 0000ffffffffffff 256TB 用户空间
58 ffff000000000000 ffffffffffffffff 256TB 内核空间
65 0000000000000000 000003ffffffffff 4TB 用户空间
66 fffffc0000000000 ffffffffffffffff 4TB 内核空间
73 0000000000000000 0000ffffffffffff 256TB 用户空间
74 ffff000000000000 ffffffffffffffff 256TB 内核空间
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| /Linux-v5.15/Documentation/translations/zh_TW/arm64/ |
| D | memory.txt | 40 分別都有 39-bit (512GB) 或 48-bit (256TB) 的虛擬地址空間。
41 對於頁大小爲 64KB的配置,僅使用 2 級轉換表,有 42-bit (4TB) 的虛擬地址空間,但內存布局相同。
61 0000000000000000 0000ffffffffffff 256TB 用戶空間
62 ffff000000000000 ffffffffffffffff 256TB 內核空間
69 0000000000000000 000003ffffffffff 4TB 用戶空間
70 fffffc0000000000 ffffffffffffffff 4TB 內核空間
77 0000000000000000 0000ffffffffffff 256TB 用戶空間
78 ffff000000000000 ffffffffffffffff 256TB 內核空間
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| /Linux-v5.15/arch/x86/crypto/ |
| D | sha1_avx2_x86_64_asm.S | 105 .set TB, REG_TB define
327 .set B, TB
328 .set TB, A define
357 mov B, TB
360 andn D, TB, T1
361 and C, TB
362 xor T1, TB
389 rorx $(32-30),A, TB /* b>>>2 for next round */
410 rorx $(32-30), A, TB /* b>>>2 for next round */
435 rorx $(32-30), A, TB /* b>>>2 for next round */
[all …]
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| /Linux-v5.15/Documentation/arm64/ |
| D | memory.rst | 13 (256TB) virtual addresses, respectively, for both user and kernel. With
14 64KB pages, only 2 levels of translation tables, allowing 42-bit (4TB)
33 0000000000000000 0000ffffffffffff 256TB user
34 ffff000000000000 ffff7fffffffffff 128TB kernel logical memory map
35 [ffff600000000000 ffff7fffffffffff] 32TB [kasan shadow region]
38 ffff800010000000 fffffbffefffffff 124TB vmalloc
43 fffffc0000000000 fffffdffffffffff 2TB vmemmap
44 fffffe0000000000 ffffffffffffffff 2TB [guard region]
53 [fffd800000000000 ffff7fffffffffff] 512TB [kasan shadow region]
56 ffff800010000000 fffffbffefffffff 124TB vmalloc
[all …]
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| /Linux-v5.15/Documentation/admin-guide/device-mapper/ |
| D | zero.rst | 21 desired size of the sparse device. For this example, we'll assume a 10TB
24 TEN_TERABYTES=`expr 10 \* 1024 \* 1024 \* 1024 \* 2` # 10 TB in sectors
35 This will create a 10TB sparse device called /dev/mapper/sparse1 that has
|
| D | dm-zoned.rst | 24 and memory usage as well as storage capacity loss). For a 10TB
|
| /Linux-v5.15/drivers/net/fddi/skfp/ |
| D | pcmplc.c | 245 (np == PB) ? TB : TM ; in pcm_init()
262 mib->fddiPORTMy_Type = (np == PB) ? TB : TA ; in pcm_init()
330 case TB : in pcm_init()
1270 mib->fddiPORTNeighborType = TB ; in pc_rcode_actions()
1407 if (mib->fddiPORTMy_Type == TB || mib->fddiPORTMy_Type == TM) in pc_tcode_actions()
1426 ((policy & POLICY_AB) && ne == TB) || in pc_tcode_actions()
1431 case TB : in pc_tcode_actions()
1434 ((policy & POLICY_BB) && ne == TB) || in pc_tcode_actions()
1442 ((policy & POLICY_SB) && ne == TB) || in pc_tcode_actions()
1450 ((policy & POLICY_MB) && ne == TB) || in pc_tcode_actions()
[all …]
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| D | cfm.c | 68 TNONE,TB,TB,TS,
69 TA,TB,TS,TB
122 case TB: in selection_criteria()
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| /Linux-v5.15/drivers/net/fddi/skfp/h/ |
| D | smtstate.h | 44 #define TB 1 macro
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| D | cmtdef.h | 123 #define TB 1 /* B port */ macro
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| /Linux-v5.15/Documentation/userspace-api/media/v4l/ |
| D | pipeline.dot | 4 rankdir=TB
|
| /Linux-v5.15/Documentation/admin-guide/media/ |
| D | rkisp1.dot | 2 rankdir=TB
|
| D | vimc.dot | 4 rankdir=TB
|
| D | qcom_camss_graph.dot | 4 rankdir=TB
|
| D | imx6q-sabreauto.dot | 2 rankdir=TB
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| D | imx6q-sabresd.dot | 2 rankdir=TB
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| D | qcom_camss_8x96_graph.dot | 4 rankdir=TB
|
| /Linux-v5.15/tools/perf/Documentation/ |
| D | perf-bench.txt | 161 Available units are B, KB, MB, GB and TB (case insensitive).
185 Available units are B, KB, MB, GB and TB (case insensitive).
|
| /Linux-v5.15/Documentation/translations/zh_CN/dev-tools/ |
| D | kasan.rst | 200 通用KASAN将1/8的内核内存专用于其影子内存(16TB以覆盖x86_64上的128TB),并使用
|
| /Linux-v5.15/Documentation/riscv/ |
| D | vm-layout.rst | 42 …0000004000000000 | +256 GB | ffffffbfffffffff | ~16M TB | ... huge, almost 64 bits wide hole of…
|
| /Linux-v5.15/fs/unicode/ |
| D | utf8-norm.c | 266 #define TB (0x11A7) macro
303 h += utf8encode3((char *)h, ti + TB); in utf8hangul()
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| /Linux-v5.15/arch/powerpc/kernel/ |
| D | swsusp_asm64.S | 92 SAVE_SPECIAL(TB)
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| /Linux-v5.15/Documentation/filesystems/ |
| D | qnx6.rst | 36 2^32 * 4096 bytes or 16TB
|
| D | erofs.rst | 30 - Currently 4KB block size (nobh) and therefore maximum 16TB address space;
|
