Searched hist:161105 (Results 1 - 13 of 13) sorted by relevance
| /freebsd-11.0-release/sys/arm/arm/ | ||
| H A D | mem.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | vm_machdep.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | pmap-v4.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| /freebsd-11.0-release/sys/arm/include/ | ||
| H A D | sf_buf.h | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | vmparam.h | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | pmap-v4.h | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| /freebsd-11.0-release/sys/arm/at91/ | ||
| H A D | board_bwct.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | board_eb9200.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | board_hl200.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | board_kb920x.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | board_tsc4370.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| H A D | at91_machdep.c | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
| /freebsd-11.0-release/sys/conf/ | ||
| H A D | options.arm | diff 161105 Tue Aug 08 20:59:38 MDT 2006 cognet Rewrite ARM_USE_SMALL_ALLOC so that instead of the current behavior, it maps whole the physical memory, cached, using 1MB section mappings. This reduces the address space available for user processes a bit, but given the amount of memory a typical arm machine has, it is not (yet) a big issue. It then provides a uma_small_alloc() that works as it does for architectures which have a direct mapping. |
Completed in 311 milliseconds