예제 #1
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    def _build_Bulldozer_caches(self):
        cacheline_size = 64

        mem = MainMemory(name="MEM")
        l3 = Cache(name="L3",
                   sets=2048, ways=64, cl_size=cacheline_size,  # 4MB
                   replacement_policy="LRU",
                   write_back=True, write_allocate=False,  # victim caches don't need write-allocate
                   store_to=None, load_from=None, victims_to=None,
                   swap_on_load=False)  # This is a victim cache, so exclusiveness should be obvious
        mem.store_from(l3)
        l2 = Cache(name="L2",
                   sets=2048, ways=16, cl_size=cacheline_size,  # 2048kB 
                   replacement_policy="LRU",
                   write_back=True, write_allocate=True,
                   store_to=l3, load_from=None, victims_to=l3,
                   swap_on_load=False)  # L2-L1 is inclusive (unlike with AMD Istanbul)
        mem.load_to(l2)
        wcc = Cache(name="WCC",
                    sets=1, ways=64, cl_size=cacheline_size,  # 4KB
                    replacement_policy="LRU",
                    write_combining=True, subblock_size=1,
                    write_back=True, write_allocate=False,  # this policy only makes sens with WCC
                    store_to=l2, load_from=None, victims_to=None,
                    swap_on_load=False)
        l1 = Cache(name="L1",
                   sets=64, ways=4, cl_size=cacheline_size,  # 16kB
                   replacement_policy="LRU",
                   write_back=False, write_allocate=False,
                   store_to=wcc, load_from=l2, victims_to=None,
                   swap_on_load=False)  # inclusive/exclusive does not matter in first-level
        cs = CacheSimulator(first_level=l1,
                            main_memory=mem)

        return cs, l1, wcc, l2, l3, mem, cacheline_size
예제 #2
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def create_cache(l1_ways, l1_block_size, l1_size, l2_ways, l2_block_size,
                 l2_size):

    if l1_ways == 0:
        l1_sets = 1
        l1_ways = l1_size // l1_block_size
    else:
        l1_sets = l1_size // (l1_block_size * l1_ways)

    if l2_ways == 0:
        l2_sets = 1
        l2_ways = l2_size // l2_block_size
    else:
        l2_sets = l2_size // (l2_block_size * l2_ways)

    l2 = Cache("L2", l2_sets, l2_ways, l2_block_size, replacement_policy="LRU")
    l1 = Cache("L1",
               l1_sets,
               l1_ways,
               l1_block_size,
               replacement_policy="LRU",
               store_to=l2,
               load_from=l2)
    mem = MainMemory()
    mem.load_to(l2)
    mem.store_from(l2)
    return CacheSimulator(l1, mem)
예제 #3
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    def _build_Skylake_caches(self):
        cacheline_size = 64

        mem = MainMemory(name="MEM")
        l3 = Cache(name="L3",
                   # 20x1.375MB = 27.5MB, with 11-ways with unknown hash function, thus we use
                   # 16-ways and select number of sets accordingly
                   sets=28160, ways=16, cl_size=cacheline_size,
                   replacement_policy="LRU",
                   write_back=True, write_allocate=False,  # victim caches don't need write-allocate
                   store_to=None, load_from=None, victims_to=None,
                   swap_on_load=False)  # This is a victim cache, so exclusiveness is implicit
        mem.store_from(l3)
        l2 = Cache(name="L2",
                   sets=1024, ways=16, cl_size=cacheline_size,  # 1MB
                   replacement_policy="LRU",
                   write_back=True, write_allocate=True,
                   store_to=l3, load_from=None, victims_to=l3,
                   swap_on_load=False)  # L2-L1 is inclusive
        mem.load_to(l2)
        l1 = Cache(name="L1",
                   sets=64, ways=8, cl_size=cacheline_size,  # 32kB
                   replacement_policy="LRU",
                   write_back=False, write_allocate=False,
                   store_to=l2, load_from=l2, victims_to=None,
                   swap_on_load=False)  # inclusive/exclusive does not matter in first-level
        cs = CacheSimulator(first_level=l1,
                            main_memory=mem)

        return cs, l1, l2, l3, mem, cacheline_size
예제 #4
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파일: test.py 프로젝트: RRZE-HPC/pycachesim
 def _build_Bulldozer_caches(self):
     cacheline_size = 64
     
     mem = MainMemory(name="MEM")
     l3 = Cache(name="L3",
                sets=2048, ways=64, cl_size=cacheline_size,  # 4MB
                replacement_policy="LRU",
                write_back=True, write_allocate=False,  # victim caches don't need write-allocate
                store_to=None, load_from=None, victims_to=None,
                swap_on_load=False)  # This is a victim cache, so exclusiveness should be obvious
     mem.store_from(l3)
     l2 = Cache(name="L2",
                sets=2048, ways=16, cl_size=cacheline_size,  # 2048kB 
                replacement_policy="LRU",
                write_back=True, write_allocate=True,
                store_to=l3, load_from=None, victims_to=l3,
                swap_on_load=False)  # L2-L1 is inclusive (unlike with AMD Istanbul)
     mem.load_to(l2)
     wcc = Cache(name="WCC",
                sets=1, ways=64, cl_size=cacheline_size,  # 4KB
                replacement_policy="LRU",
                write_combining=True, subblock_size=1,
                write_back=True, write_allocate=False,  # this policy only makes sens with WCC
                store_to=l2, load_from=None, victims_to=None,
                swap_on_load=False)
     l1 = Cache(name="L1",
                sets=64, ways=4, cl_size=cacheline_size,  # 16kB
                replacement_policy="LRU",
                write_back=False, write_allocate=False,
                store_to=wcc, load_from=l2, victims_to=None,
                swap_on_load=False)  # inclusive/exclusive does not matter in first-level
     cs = CacheSimulator(first_level=l1,
                         main_memory=mem)
     
     return cs, l1, wcc, l2, l3, mem, cacheline_size
예제 #5
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파일: test.py 프로젝트: mindis/pycachesim
 def _get_SandyEP_caches(self):
     # Cache hierarchy as found in a Sandy Brige EP:
     cacheline_size = 64
     mem = MainMemory()
     l3 = Cache("L3",
                20480,
                16,
                cacheline_size,
                "LRU",
                write_back=True,
                write_allocate=True)  # 20MB 16-ways
     mem.load_to(l3)
     mem.store_from(l3)
     l2 = Cache("L2",
                512,
                8,
                cacheline_size,
                "LRU",
                write_back=True,
                write_allocate=True,
                store_to=l3,
                load_from=l3)  # 256kB 8-ways
     l1 = Cache("L1",
                64,
                8,
                cacheline_size,
                "LRU",
                write_back=True,
                write_allocate=True,
                store_to=l2,
                load_from=l2)  # 32kB 8-ways
     mh = CacheSimulator(l1, mem)
     return mh, l1, l2, l3, mem, cacheline_size
def make_cache() -> CacheSimulator:
    """Returns a fresh cache of standard size."""
    mem = MainMemory()
    l3 = Cache("L3", 20480, 16, 64, "LRU")  # 20MB: 20480 sets, 16-ways with
    # cacheline size of 64 bytes
    mem.load_to(l3)
    mem.store_from(l3)
    l2 = Cache("L2", 512, 8, 64, "LRU", store_to=l3, load_from=l3)  # 256KB
    l1 = Cache("L1", 64, 8, 64, "LRU", store_to=l2, load_from=l2)  # 32KB
    cs = CacheSimulator(l1, mem)
    return cs
예제 #7
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    def test_fill(self):
        mem = MainMemory()
        l3 = Cache("L3", 4, 8, 8, "LRU")
        mem.load_to(l3)
        mem.store_from(l3)
        l2 = Cache("L2", 4, 4, 8, "LRU", store_to=l3, load_from=l3)
        l1 = Cache("L1", 2, 4, 8, "LRU", store_to=l2, load_from=l2)
        mh = CacheSimulator(l1, mem)

        mh.load(range(0, 512))
        mh.load(range(448, 576))

        self.assertEqual(l1.cached, set(range(512, 576)))
        self.assertEqual(l2.cached, set(range(448, 576)))
        self.assertEqual(l3.cached, set(range(320, 576)))
예제 #8
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파일: test.py 프로젝트: RRZE-HPC/pycachesim
 def test_fill(self):
     mem = MainMemory()
     l3 = Cache("L3", 4, 8, 8, "LRU")
     mem.load_to(l3)
     mem.store_from(l3)
     l2 = Cache("L2", 4, 4, 8, "LRU", store_to=l3, load_from=l3)
     l1 = Cache("L1", 2, 4, 8, "LRU", store_to=l2, load_from=l2)
     mh = CacheSimulator(l1, mem)
 
     mh.load(range(0, 512))
     mh.load(range(448, 576))
     
     self.assertEqual(l1.cached, set(range(512, 576)))
     self.assertEqual(l2.cached, set(range(448, 576)))
     self.assertEqual(l3.cached, set(range(320, 576)))
예제 #9
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def create_cache(f):
    """
    :param f: command line args
    :return:
    """
    mem = MainMemory()
    # cache type, sets, associativity, block size, eviction pattern: LRU, MRU, RR and FIFO
    l3 = Cache(
        "L3", f.c3, f.a3, f.b3,
        "LRU")  # 20MB: 20480 sets, 16-ways with cacheline size of 64 bytes
    mem.load_to(l3)
    mem.store_from(l3)
    l2 = Cache("L2", f.c2, f.a2, f.b2, "LRU", store_to=l3,
               load_from=l3)  # 256KB
    l1 = Cache("L1", f.c1, f.a1, f.b1, "LRU", store_to=l2,
               load_from=l2)  # 32KB
    return CacheSimulator(l1, mem)
예제 #10
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파일: test.py 프로젝트: RRZE-HPC/pycachesim
 def _get_SandyEP_caches(self):
     # Cache hierarchy as found in a Sandy Brige EP:
     cacheline_size = 64
     mem = MainMemory()
     l3 = Cache("L3", 20480, 16, cacheline_size,
                "LRU",
                write_back=True, write_allocate=True)  # 20MB 16-ways
     mem.load_to(l3)
     mem.store_from(l3)
     l2 = Cache("L2", 512, 8, cacheline_size,
                "LRU",
                write_back=True, write_allocate=True,
                store_to=l3, load_from=l3)  # 256kB 8-ways
     l1 = Cache("L1", 64, 8, cacheline_size,
                "LRU",
                write_back=True, write_allocate=True,
                store_to=l2, load_from=l2)  # 32kB 8-ways
     mh = CacheSimulator(l1, mem)
     return mh, l1, l2, l3, mem, cacheline_size 
예제 #11
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from cachesim import CacheSimulator, Cache, MainMemory

#########################
verbose = False
model = 1
#########################

mem = MainMemory()
if model == 1:
    l3 = Cache(
        "L3", 20480, 16, 64,
        "LRU")  # 20MB: 20480 sets, 16-ways with cacheline size of 64 bytes
    mem.load_to(l3)
    mem.store_from(l3)
    l2 = Cache("L2", 512, 8, 64, "LRU", store_to=l3, load_from=l3)  # 256KB
    l1 = Cache("L1", 64, 8, 64, "LRU", store_to=l2, load_from=l2)  # 32KB
elif model == 2:
    l3 = Cache("L3", 12288, 16, 64, "LRU")
    mem.load_to(l3)
    mem.store_from(l3)
    l2 = Cache("L2", 256, 4, 64, "LRU", store_to=l3, load_from=l3)
    l1 = Cache("L1", 32, 8, 64, "LRU", store_to=l2, load_from=l2)
elif model == 3:
    l3 = Cache("L3", 20, 4, 64, "LRU")
    mem.load_to(l3)
    mem.store_from(l3)
    l2 = Cache("L2", 2, 1, 64, "LRU", store_to=l3, load_from=l3)
    l1 = Cache("L1", 1, 1, 64, "LRU", store_to=l2, load_from=l2)

cs = CacheSimulator(l1, mem)