class MemorySet:
def __init__(self, memory_width, set_count):
+ #self.memory_width = memory_width
+ #self.set_count = set_count
self.mem = Memory(memory_width, set_count)
self.r = self.mem.read_port()
self.w = self.mem.write_port()
- #self.memory_width = memory_width
- #self.set_count = set_count
def elaborate(self, platform):
m = Module()
for i in range(way_count):
self.mem_array.append(MemorySet(memory_width, set_count))
- self.way_count = way_count # The number of slots in one set
- self.tag_size = tag_size # The bit count of the tag
+ self.way_count = way_count # The number of slots in one set
+ self.tag_size = tag_size # The bit count of the tag
self.data_size = data_size # The bit count of the data to be stored
- self.encoder = AddressEncoder(way_count.bit_length()) # Finds valid entries
+ # Finds valid entries
+ self.encoder = AddressEncoder(way_count.bit_length())
self.plru = PLRU(way_count) # Single block to handle plru calculations
- self.plru_array = Array(Signal(self.plru.TLBSZ)) # PLRU data for each set
+ self.plru_array = Array(Signal(self.plru.TLBSZ)) # PLRU data on each set
# Input
- self.enable = Signal(1) # Whether the cache is enabled
+ self.enable = Signal(1) # Whether the cache is enabled
self.command = Signal(2) # 00=None, 01=Read, 10=Write (see SA_XX)
- self.cset = Signal(max=set_count) # The set to be checked
- self.tag = Signal(tag_size) # The tag to find
+ self.cset = Signal(max=set_count) # The set to be checked
+ self.tag = Signal(tag_size) # The tag to find
self.data_i = Signal(data_size + tag_size) # The input data
# Output
self.ready = Signal(1) # 0 => Processing 1 => Ready for commands
- self.hit = Signal(1) # Tag matched one way in the given set
- self.multiple_hit = Signal(1) # Tag matched many ways in the given set
+ self.hit = Signal(1) # Tag matched one way in the given set
+ self.multiple_hit = Signal(1) # Tag matched many ways in the given set
self.data_o = Signal(data_size) # The data linked to the matched tag
def check_tags(self, m):
- """
- Validate the tags in the selected set. If one and only one tag matches
- set its state to zero and increment all others by one. We only advance
- to the next state if a single hit is found.
+ """ Validate the tags in the selected set. If one and only one
+ tag matches set its state to zero and increment all others
+ by one. We only advance to next state if a single hit is found.
"""
# Vector to store way valid results
# A zero denotes a way is invalid
]
def access_plru(self, m):
- """
- An entry was accessed and the plru tree must now be updated
+ """ An entry was accessed and the plru tree must now be updated
"""
# Pull out the set's entry being edited
plru_entry = self.plru_array[self.cset]
]
def read(self, m):
- """
- Go through the read process of the cache.
- This takes two cycles to complete. First it checks for a valid tag
- and secondly it updates the LRU values.
+ """ Go through the read process of the cache.
+ This takes two cycles to complete. First it checks for a valid tag
+ and secondly it updates the LRU values.
"""
with m.FSM() as fsm_read:
with m.State("READY"):
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