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13    from the top of the 64-bit address space. It's easier to understand the layout
17    64-bit address space (ffffffffffffffff).
24    It also shows it nicely how incredibly large 64-bit address space is.
35 …0000800000000000 | +128    TB | ffff7fffffffffff | ~16M TB | ... huge, almost 64 bits wide hole of…
45 …ffff888000000000 | -119.5  TB | ffffc87fffffffff |   64 TB | direct mapping of all physical memory…
63    ffffffef00000000 |  -68    GB | fffffffeffffffff |   64 GB | EFI region mapping space
81    from 0.125 PB to 64 PB. All kernel mappings shift down to the -64 PB starting
91 …0000000000000000 |    0       | 00ffffffffffffff |   64 PB | user-space virtual memory, different …
94 …0100000000000000 |  +64    PB | feffffffffffffff | ~16K PB | ... huge, still almost 64 bits wide h…
95 …          |            |                  |         |     virtual memory addresses up to the -64 PB
102 …ff00000000000000 |  -64    PB | ff0fffffffffffff |    4 PB | ... guard hole, also reserved for hyp…
122    ffffffef00000000 |  -68    GB | fffffffeffffffff |   64 GB | EFI region mapping space
133 Architecture defines a 64-bit virtual address. Implementations can support
143 We map EFI runtime services in the 'efi_pgd' PGD in a 64GB large virtual