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gem5/configs/ruby/MESI_Three_Level.py
Matthew Poremba 4f7b3ed827 mem-ruby: Remove static methods from RubySystem (#1453) 
There are several parts to this PR to work towards #1349 .

(1) Make RubySystem::getBlockSizeBytes non-static by providing ways to
access the block size or passing the block size explicitly to classes.

The main changes are:
 - DataBlocks must be explicitly allocated. A default ctor still exists
   to avoid needing to heavily modify SLICC. The size can be set using a
   realloc function, operator=, or copy ctor. This is handled completely
   transparently meaning no protocol or config changes are required.
 - WriteMask now requires block size to be set. This is also handled
   transparently by modifying the SLICC parser to identify WriteMask
   types and call setBlockSize().
 - AbstractCacheEntry and TBE classes now require block size to be set.
   This is handled transparently by modifying the SLICC parser to
   identify these classes and call initBlockSize() which calls
   setBlockSize() for any DataBlock or WriteMask.
 - All AbstractControllers now have a pointer to RubySystem. This is
   assigned in SLICC generated code and requires no changes to protocol
   or configs.
 - The Ruby Message class now requires block size in all constructors.
   This is added to the argument list automatically by the SLICC parser.
   
(2) Relax dependence on common functions in
src/mem/ruby/common/Address.hh
so that RubySystem::getBlockSizeBits is no longer static. Many classes
already have a way to get block size from the previous commit, so they
simply multiple by 8 to get the number of bits. For handling SLICC and
reducing the number of changes, define makeCacheLine, getOffset, etc. in
RubyPort and AbstractController. The only protocol changes required are
to change any "RubySystem::foo()" calls with "m_ruby_system->foo()".

For classes which do not have a way to get access to block size but
still used makeLineAddress, getOffset, etc., the block size must be
passed to that class. This requires some changes to the SimObject
interface for two commonly used classes: DirectoryMemory and
RubyPrefecther, resulting in user-facing API changes

User-facing API changes:
 - DirectoryMemory and RubyPrefetcher now require the cache line size as
   a non-optional argument.
 - RubySequencer SimObjects now require RubySystem as a non-optional
   argument.
 - TesterThread in the GPU ruby tester now requires the cache line size
   as a non-optional argument.

(3) Removes static member variables in RubySystem which control
randomization, cooldown, and warmup. These are mostly used by the Ruby
Network. The network classes are modified to take these former static
variables as parameters which are passed to the corresponding method
(e.g., enqueue, delayHead, etc.) rather than needing a RubySystem object
at all.

Change-Id: Ia63c2ad5cf0bf9d1cbdffba5d3a679bb4d3b1220

(4) There are two major SLICC generated static methods:
getNumControllers()
on each cache controller which returns the number of controllers created
by the configs at run time and the functions which access this method,
which are MachineType_base_count and MachineType_base_number. These need
to be removed to create multiple RubySystem objects otherwise NetDest,
version value, and other objects are incorrect.

To remove the static requirement, MachineType_base_count and
MachineType_base_number are moved to RubySystem. Any class which needs
to call these methods must now have a pointer to a RubySystem. To enable
that, several changes are made:
 - RubyRequest and Message now require a RubySystem pointer in the
   constructor. The pointer is passed to fields in the Message class
   which require a RubySystem pointer (e.g., NetDest). SLICC is modified
   to do this automatically.
 - SLICC structures may now optionally take an "implicit constructor"
   which can be used to call a non-default constructor for locally
   defined variables (e.g., temporary variables within SLICC actions). A
   statement such as "NetDest bcast_dest;" in SLICC will implicitly
   append a call to the NetDest constructor taking RubySystem, for
   example.
 - RubySystem gets passed to Ruby network objects (Network, Topology).
2024-10-08 08:14:50 -07:00

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# Copyright (c) 2006-2007 The Regents of The University of Michigan
# Copyright (c) 2009,2015 Advanced Micro Devices, Inc.
# Copyright (c) 2013 Mark D. Hill and David A. Wood
# Copyright (c) 2020 ARM Limited
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import math
from common import FileSystemConfig
import m5
from m5.defines import buildEnv
from m5.objects import *
from .Ruby import (
create_directories,
create_topology,
send_evicts,
)
#
# Declare caches used by the protocol
#
class L0Cache(RubyCache):
pass
class L1Cache(RubyCache):
pass
class L2Cache(RubyCache):
pass
def define_options(parser):
parser.add_argument(
"--num-clusters",
type=int,
default=1,
help="number of clusters in a design in which there are shared\
caches private to clusters",
)
parser.add_argument("--l0i_size", type=str, default="4096B")
parser.add_argument("--l0d_size", type=str, default="4096B")
parser.add_argument("--l0i_assoc", type=int, default=1)
parser.add_argument("--l0d_assoc", type=int, default=1)
parser.add_argument("--l0_transitions_per_cycle", type=int, default=32)
parser.add_argument("--l1_transitions_per_cycle", type=int, default=32)
parser.add_argument("--l2_transitions_per_cycle", type=int, default=4)
parser.add_argument(
"--enable-prefetch",
action="store_true",
default=False,
help="Enable Ruby hardware prefetcher",
)
return
def create_system(
options, full_system, system, dma_ports, bootmem, ruby_system, cpus
):
if buildEnv["PROTOCOL"] != "MESI_Three_Level":
fatal(
"This script requires the MESI_Three_Level protocol to be\
built."
)
cpu_sequencers = []
#
# The ruby network creation expects the list of nodes in the system to be
# consistent with the NetDest list. Therefore the l1 controller nodes
# must be listed before the directory nodes and directory nodes before
# dma nodes, etc.
#
l0_cntrl_nodes = []
l1_cntrl_nodes = []
l2_cntrl_nodes = []
dma_cntrl_nodes = []
assert options.num_cpus % options.num_clusters == 0
num_cpus_per_cluster = options.num_cpus // options.num_clusters
assert options.num_l2caches % options.num_clusters == 0
num_l2caches_per_cluster = options.num_l2caches // options.num_clusters
l2_bits = int(math.log(num_l2caches_per_cluster, 2))
block_size_bits = int(math.log(options.cacheline_size, 2))
l2_index_start = block_size_bits + l2_bits
#
# Must create the individual controllers before the network to ensure the
# controller constructors are called before the network constructor
#
for i in range(options.num_clusters):
for j in range(num_cpus_per_cluster):
#
# First create the Ruby objects associated with this cpu
#
l0i_cache = L0Cache(
size=options.l0i_size,
assoc=options.l0i_assoc,
is_icache=True,
start_index_bit=block_size_bits,
replacement_policy=LRURP(),
)
l0d_cache = L0Cache(
size=options.l0d_size,
assoc=options.l0d_assoc,
is_icache=False,
start_index_bit=block_size_bits,
replacement_policy=LRURP(),
)
clk_domain = cpus[i].clk_domain
# Ruby prefetcher
prefetcher = RubyPrefetcher(
num_streams=16,
unit_filter=256,
nonunit_filter=256,
train_misses=5,
num_startup_pfs=4,
cross_page=True,
block_size=options.cacheline_size,
)
l0_cntrl = L0Cache_Controller(
version=i * num_cpus_per_cluster + j,
Icache=l0i_cache,
Dcache=l0d_cache,
transitions_per_cycle=options.l0_transitions_per_cycle,
prefetcher=prefetcher,
enable_prefetch=options.enable_prefetch,
send_evictions=send_evicts(options),
clk_domain=clk_domain,
ruby_system=ruby_system,
)
cpu_seq = RubySequencer(
version=i * num_cpus_per_cluster + j,
clk_domain=clk_domain,
dcache=l0d_cache,
ruby_system=ruby_system,
)
l0_cntrl.sequencer = cpu_seq
l1_cache = L1Cache(
size=options.l1d_size,
assoc=options.l1d_assoc,
start_index_bit=block_size_bits,
is_icache=False,
)
l1_cntrl = L1Cache_Controller(
version=i * num_cpus_per_cluster + j,
cache=l1_cache,
l2_select_num_bits=l2_bits,
cluster_id=i,
transitions_per_cycle=options.l1_transitions_per_cycle,
ruby_system=ruby_system,
)
exec(
"ruby_system.l0_cntrl%d = l0_cntrl"
% (i * num_cpus_per_cluster + j)
)
exec(
"ruby_system.l1_cntrl%d = l1_cntrl"
% (i * num_cpus_per_cluster + j)
)
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.append(cpu_seq)
l0_cntrl_nodes.append(l0_cntrl)
l1_cntrl_nodes.append(l1_cntrl)
# Connect the L0 and L1 controllers
l0_cntrl.prefetchQueue = MessageBuffer()
l0_cntrl.mandatoryQueue = MessageBuffer()
l0_cntrl.bufferToL1 = MessageBuffer(ordered=True)
l1_cntrl.bufferFromL0 = l0_cntrl.bufferToL1
l0_cntrl.bufferFromL1 = MessageBuffer(ordered=True)
l1_cntrl.bufferToL0 = l0_cntrl.bufferFromL1
# Connect the L1 controllers and the network
l1_cntrl.requestToL2 = MessageBuffer()
l1_cntrl.requestToL2.out_port = ruby_system.network.in_port
l1_cntrl.responseToL2 = MessageBuffer()
l1_cntrl.responseToL2.out_port = ruby_system.network.in_port
l1_cntrl.unblockToL2 = MessageBuffer()
l1_cntrl.unblockToL2.out_port = ruby_system.network.in_port
l1_cntrl.requestFromL2 = MessageBuffer()
l1_cntrl.requestFromL2.in_port = ruby_system.network.out_port
l1_cntrl.responseFromL2 = MessageBuffer()
l1_cntrl.responseFromL2.in_port = ruby_system.network.out_port
for j in range(num_l2caches_per_cluster):
l2_cache = L2Cache(
size=options.l2_size,
assoc=options.l2_assoc,
start_index_bit=l2_index_start,
)
l2_cntrl = L2Cache_Controller(
version=i * num_l2caches_per_cluster + j,
L2cache=l2_cache,
cluster_id=i,
transitions_per_cycle=options.l2_transitions_per_cycle,
ruby_system=ruby_system,
)
exec(
"ruby_system.l2_cntrl%d = l2_cntrl"
% (i * num_l2caches_per_cluster + j)
)
l2_cntrl_nodes.append(l2_cntrl)
# Connect the L2 controllers and the network
l2_cntrl.DirRequestFromL2Cache = MessageBuffer()
l2_cntrl.DirRequestFromL2Cache.out_port = (
ruby_system.network.in_port
)
l2_cntrl.L1RequestFromL2Cache = MessageBuffer()
l2_cntrl.L1RequestFromL2Cache.out_port = (
ruby_system.network.in_port
)
l2_cntrl.responseFromL2Cache = MessageBuffer()
l2_cntrl.responseFromL2Cache.out_port = ruby_system.network.in_port
l2_cntrl.unblockToL2Cache = MessageBuffer()
l2_cntrl.unblockToL2Cache.in_port = ruby_system.network.out_port
l2_cntrl.L1RequestToL2Cache = MessageBuffer()
l2_cntrl.L1RequestToL2Cache.in_port = ruby_system.network.out_port
l2_cntrl.responseToL2Cache = MessageBuffer()
l2_cntrl.responseToL2Cache.in_port = ruby_system.network.out_port
# Run each of the ruby memory controllers at a ratio of the frequency of
# the ruby system
# clk_divider value is a fix to pass regression.
ruby_system.memctrl_clk_domain = DerivedClockDomain(
clk_domain=ruby_system.clk_domain, clk_divider=3
)
mem_dir_cntrl_nodes, rom_dir_cntrl_node = create_directories(
options, bootmem, ruby_system, system
)
dir_cntrl_nodes = mem_dir_cntrl_nodes[:]
if rom_dir_cntrl_node is not None:
dir_cntrl_nodes.append(rom_dir_cntrl_node)
for dir_cntrl in dir_cntrl_nodes:
# Connect the directory controllers and the network
dir_cntrl.requestToDir = MessageBuffer()
dir_cntrl.requestToDir.in_port = ruby_system.network.out_port
dir_cntrl.responseToDir = MessageBuffer()
dir_cntrl.responseToDir.in_port = ruby_system.network.out_port
dir_cntrl.responseFromDir = MessageBuffer()
dir_cntrl.responseFromDir.out_port = ruby_system.network.in_port
dir_cntrl.requestToMemory = MessageBuffer()
dir_cntrl.responseFromMemory = MessageBuffer()
for i, dma_port in enumerate(dma_ports):
#
# Create the Ruby objects associated with the dma controller
#
dma_seq = DMASequencer(version=i, ruby_system=ruby_system)
dma_cntrl = DMA_Controller(
version=i,
dma_sequencer=dma_seq,
transitions_per_cycle=options.ports,
ruby_system=ruby_system,
)
exec("ruby_system.dma_cntrl%d = dma_cntrl" % i)
exec("ruby_system.dma_cntrl%d.dma_sequencer.in_ports = dma_port" % i)
dma_cntrl_nodes.append(dma_cntrl)
# Connect the dma controller to the network
dma_cntrl.mandatoryQueue = MessageBuffer()
dma_cntrl.responseFromDir = MessageBuffer(ordered=True)
dma_cntrl.responseFromDir.in_port = ruby_system.network.out_port
dma_cntrl.requestToDir = MessageBuffer()
dma_cntrl.requestToDir.out_port = ruby_system.network.in_port
all_cntrls = (
l0_cntrl_nodes
+ l1_cntrl_nodes
+ l2_cntrl_nodes
+ dir_cntrl_nodes
+ dma_cntrl_nodes
)
# Create the io controller and the sequencer
if full_system:
io_seq = DMASequencer(version=len(dma_ports), ruby_system=ruby_system)
ruby_system._io_port = io_seq
io_controller = DMA_Controller(
version=len(dma_ports),
dma_sequencer=io_seq,
ruby_system=ruby_system,
)
ruby_system.io_controller = io_controller
# Connect the dma controller to the network
io_controller.mandatoryQueue = MessageBuffer()
io_controller.responseFromDir = MessageBuffer(ordered=True)
io_controller.responseFromDir.in_port = ruby_system.network.out_port
io_controller.requestToDir = MessageBuffer()
io_controller.requestToDir.out_port = ruby_system.network.in_port
all_cntrls = all_cntrls + [io_controller]
# Register configuration with filesystem
else:
for i in range(options.num_clusters):
for j in range(num_cpus_per_cluster):
FileSystemConfig.register_cpu(
physical_package_id=0,
core_siblings=range(options.num_cpus),
core_id=i * num_cpus_per_cluster + j,
thread_siblings=[],
)
FileSystemConfig.register_cache(
level=0,
idu_type="Instruction",
size=options.l0i_size,
line_size=options.cacheline_size,
assoc=1,
cpus=[i * num_cpus_per_cluster + j],
)
FileSystemConfig.register_cache(
level=0,
idu_type="Data",
size=options.l0d_size,
line_size=options.cacheline_size,
assoc=1,
cpus=[i * num_cpus_per_cluster + j],
)
FileSystemConfig.register_cache(
level=1,
idu_type="Unified",
size=options.l1d_size,
line_size=options.cacheline_size,
assoc=options.l1d_assoc,
cpus=[i * num_cpus_per_cluster + j],
)
FileSystemConfig.register_cache(
level=2,
idu_type="Unified",
size=str(
MemorySize(options.l2_size) * num_l2caches_per_cluster
)
+ "B",
line_size=options.cacheline_size,
assoc=options.l2_assoc,
cpus=[
n
for n in range(
i * num_cpus_per_cluster,
(i + 1) * num_cpus_per_cluster,
)
],
)
ruby_system.network.number_of_virtual_networks = 3
topology = create_topology(all_cntrls, options)
return (cpu_sequencers, mem_dir_cntrl_nodes, topology)
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