Searched hist:11722 (Results 1 - 14 of 14) sorted by relevance
/gem5/configs/learning_gem5/part1/ | ||
H A D | caches.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
/gem5/configs/example/ | ||
H A D | memcheck.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | memtest.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
/gem5/configs/example/arm/ | ||
H A D | devices.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
/gem5/configs/common/ | ||
H A D | Caches.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
/gem5/src/mem/cache/ | ||
H A D | Cache.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | base.hh | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | base.cc | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
/gem5/src/mem/cache/tags/ | ||
H A D | Tags.py | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | base.cc | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | base_set_assoc.hh | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | base.hh | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | fa_lru.hh | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
H A D | fa_lru.cc | 11722:f15f02d8c79e Wed Nov 30 17:10:00 EST 2016 Sophiane Senni <sophiane.senni@gmail.com> mem: Split the hit_latency into tag_latency and data_latency If the cache access mode is parallel, i.e. "sequential_access" parameter is set to "False", tags and data are accessed in parallel. Therefore, the hit_latency is the maximum latency between tag_latency and data_latency. On the other hand, if the cache access mode is sequential, i.e. "sequential_access" parameter is set to "True", tags and data are accessed sequentially. Therefore, the hit_latency is the sum of tag_latency plus data_latency. Signed-off-by: Jason Lowe-Power <jason@lowepower.com> |
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