gem5/configs/ruby/GPU_RfO.py
Andreas Hansson 68fdccb30b ruby: Fix regressions and make Ruby configs Python packages
This patch moves the addition of network options into the Ruby module
to avoid the regressions all having to add it explicitly. Doing this
exposes an issue in our current config system though, namely the fact
that addtoPath is relative to the Python script being executed. Since
both example and regression scripts use the Ruby module we would end
up with two different (relative) paths being added. Instead we take a
first step at turning the config modules into Python packages, simply
by adding a __init__.py in the configs/ruby, configs/topologies and
configs/network subdirectories.

As a result, we can now add the top-level configs directory to the
Python search path, and then use the package names in the various
modules. The example scripts are also updated, and the messy
path-deducing variations in the scripts are unified.
2016-10-13 03:17:19 -04:00

751 lines
28 KiB
Python

#
# Copyright (c) 2011-2015 Advanced Micro Devices, Inc.
# All rights reserved.
#
# For use for simulation and test purposes only
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
#
# 2. 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.
#
# 3. Neither the name of the copyright holder 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 HOLDER 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.
#
# Author: Lisa Hsu
#
import math
import m5
from m5.objects import *
from m5.defines import buildEnv
from Ruby import create_topology
from Ruby import send_evicts
from topologies.Cluster import Cluster
from topologies.Crossbar import Crossbar
class CntrlBase:
_seqs = 0
@classmethod
def seqCount(cls):
# Use SeqCount not class since we need global count
CntrlBase._seqs += 1
return CntrlBase._seqs - 1
_cntrls = 0
@classmethod
def cntrlCount(cls):
# Use CntlCount not class since we need global count
CntrlBase._cntrls += 1
return CntrlBase._cntrls - 1
_version = 0
@classmethod
def versionCount(cls):
cls._version += 1 # Use count for this particular type
return cls._version - 1
class TccDirCache(RubyCache):
size = "512kB"
assoc = 16
resourceStalls = False
def create(self, options):
self.size = MemorySize(options.tcc_size)
self.size.value += (options.num_compute_units *
(MemorySize(options.tcp_size).value) *
options.tcc_dir_factor) / long(options.num_tccs)
self.start_index_bit = math.log(options.cacheline_size, 2) + \
math.log(options.num_tccs, 2)
self.replacement_policy = PseudoLRUReplacementPolicy()
class L1DCache(RubyCache):
resourceStalls = False
def create(self, options):
self.size = MemorySize(options.l1d_size)
self.assoc = options.l1d_assoc
self.replacement_policy = PseudoLRUReplacementPolicy()
class L1ICache(RubyCache):
resourceStalls = False
def create(self, options):
self.size = MemorySize(options.l1i_size)
self.assoc = options.l1i_assoc
self.replacement_policy = PseudoLRUReplacementPolicy()
class L2Cache(RubyCache):
resourceStalls = False
def create(self, options):
self.size = MemorySize(options.l2_size)
self.assoc = options.l2_assoc
self.replacement_policy = PseudoLRUReplacementPolicy()
class CPCntrl(CorePair_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.L1Icache = L1ICache()
self.L1Icache.create(options)
self.L1D0cache = L1DCache()
self.L1D0cache.create(options)
self.L1D1cache = L1DCache()
self.L1D1cache.create(options)
self.L2cache = L2Cache()
self.L2cache.create(options)
self.sequencer = RubySequencer()
self.sequencer.icache_hit_latency = 2
self.sequencer.dcache_hit_latency = 2
self.sequencer.version = self.seqCount()
self.sequencer.icache = self.L1Icache
self.sequencer.dcache = self.L1D0cache
self.sequencer.ruby_system = ruby_system
self.sequencer.coreid = 0
self.sequencer.is_cpu_sequencer = True
self.sequencer1 = RubySequencer()
self.sequencer1.version = self.seqCount()
self.sequencer1.icache = self.L1Icache
self.sequencer1.dcache = self.L1D1cache
self.sequencer1.icache_hit_latency = 2
self.sequencer1.dcache_hit_latency = 2
self.sequencer1.ruby_system = ruby_system
self.sequencer1.coreid = 1
self.sequencer1.is_cpu_sequencer = True
self.issue_latency = options.cpu_to_dir_latency
self.send_evictions = send_evicts(options)
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
class TCPCache(RubyCache):
assoc = 8
dataArrayBanks = 16
tagArrayBanks = 4
dataAccessLatency = 4
tagAccessLatency = 1
def create(self, options):
self.size = MemorySize(options.tcp_size)
self.replacement_policy = PseudoLRUReplacementPolicy()
class TCPCntrl(TCP_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.L1cache = TCPCache(tagAccessLatency = options.TCP_latency)
self.L1cache.resourceStalls = options.no_resource_stalls
self.L1cache.create(options)
self.coalescer = RubyGPUCoalescer()
self.coalescer.version = self.seqCount()
self.coalescer.icache = self.L1cache
self.coalescer.dcache = self.L1cache
self.coalescer.ruby_system = ruby_system
self.coalescer.support_inst_reqs = False
self.coalescer.is_cpu_sequencer = False
self.coalescer.max_outstanding_requests = options.simds_per_cu * \
options.wfs_per_simd * \
options.wf_size
self.sequencer = RubySequencer()
self.sequencer.version = self.seqCount()
self.sequencer.icache = self.L1cache
self.sequencer.dcache = self.L1cache
self.sequencer.ruby_system = ruby_system
self.sequencer.is_cpu_sequencer = True
self.use_seq_not_coal = False
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def createCP(self, options, ruby_system, system):
self.version = self.versionCount()
self.L1cache = TCPCache(tagAccessLatency = options.TCP_latency)
self.L1cache.resourceStalls = options.no_resource_stalls
self.L1cache.create(options)
self.coalescer = RubyGPUCoalescer()
self.coalescer.version = self.seqCount()
self.coalescer.icache = self.L1cache
self.coalescer.dcache = self.L1cache
self.coalescer.ruby_system = ruby_system
self.coalescer.support_inst_reqs = False
self.coalescer.is_cpu_sequencer = False
self.sequencer = RubySequencer()
self.sequencer.version = self.seqCount()
self.sequencer.icache = self.L1cache
self.sequencer.dcache = self.L1cache
self.sequencer.ruby_system = ruby_system
self.sequencer.is_cpu_sequencer = True
self.use_seq_not_coal = True
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
class SQCCache(RubyCache):
size = "32kB"
assoc = 8
dataArrayBanks = 16
tagArrayBanks = 4
dataAccessLatency = 4
tagAccessLatency = 1
def create(self, options):
self.replacement_policy = PseudoLRUReplacementPolicy()
class SQCCntrl(SQC_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.L1cache = SQCCache()
self.L1cache.create(options)
self.L1cache.resourceStalls = options.no_resource_stalls
self.sequencer = RubySequencer()
self.sequencer.version = self.seqCount()
self.sequencer.icache = self.L1cache
self.sequencer.dcache = self.L1cache
self.sequencer.ruby_system = ruby_system
self.sequencer.support_data_reqs = False
self.sequencer.is_cpu_sequencer = False
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def createCP(self, options, ruby_system, system):
self.version = self.versionCount()
self.L1cache = SQCCache()
self.L1cache.create(options)
self.L1cache.resourceStalls = options.no_resource_stalls
self.sequencer = RubySequencer()
self.sequencer.version = self.seqCount()
self.sequencer.icache = self.L1cache
self.sequencer.dcache = self.L1cache
self.sequencer.ruby_system = ruby_system
self.sequencer.support_data_reqs = False
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
class TCC(RubyCache):
assoc = 16
dataAccessLatency = 8
tagAccessLatency = 2
resourceStalls = True
def create(self, options):
self.size = MemorySize(options.tcc_size)
self.size = self.size / options.num_tccs
self.dataArrayBanks = 256 / options.num_tccs #number of data banks
self.tagArrayBanks = 256 / options.num_tccs #number of tag banks
if ((self.size.value / long(self.assoc)) < 128):
self.size.value = long(128 * self.assoc)
self.start_index_bit = math.log(options.cacheline_size, 2) + \
math.log(options.num_tccs, 2)
self.replacement_policy = PseudoLRUReplacementPolicy()
class TCCCntrl(TCC_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.L2cache = TCC()
self.L2cache.create(options)
self.l2_response_latency = options.TCC_latency
self.number_of_TBEs = 2048
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def connectWireBuffers(self, req_to_tccdir, resp_to_tccdir,
tcc_unblock_to_tccdir, req_to_tcc,
probe_to_tcc, resp_to_tcc):
self.w_reqToTCCDir = req_to_tccdir
self.w_respToTCCDir = resp_to_tccdir
self.w_TCCUnblockToTCCDir = tcc_unblock_to_tccdir
self.w_reqToTCC = req_to_tcc
self.w_probeToTCC = probe_to_tcc
self.w_respToTCC = resp_to_tcc
class TCCDirCntrl(TCCdir_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.directory = TccDirCache()
self.directory.create(options)
self.number_of_TBEs = 1024
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def connectWireBuffers(self, req_to_tccdir, resp_to_tccdir,
tcc_unblock_to_tccdir, req_to_tcc,
probe_to_tcc, resp_to_tcc):
self.w_reqToTCCDir = req_to_tccdir
self.w_respToTCCDir = resp_to_tccdir
self.w_TCCUnblockToTCCDir = tcc_unblock_to_tccdir
self.w_reqToTCC = req_to_tcc
self.w_probeToTCC = probe_to_tcc
self.w_respToTCC = resp_to_tcc
class L3Cache(RubyCache):
assoc = 8
dataArrayBanks = 256
tagArrayBanks = 256
def create(self, options, ruby_system, system):
self.size = MemorySize(options.l3_size)
self.size.value /= options.num_dirs
self.dataArrayBanks /= options.num_dirs
self.tagArrayBanks /= options.num_dirs
self.dataArrayBanks /= options.num_dirs
self.tagArrayBanks /= options.num_dirs
self.dataAccessLatency = options.l3_data_latency
self.tagAccessLatency = options.l3_tag_latency
self.resourceStalls = options.no_resource_stalls
self.replacement_policy = PseudoLRUReplacementPolicy()
class L3Cntrl(L3Cache_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.L3cache = L3Cache()
self.L3cache.create(options, ruby_system, system)
self.l3_response_latency = max(self.L3cache.dataAccessLatency,
self.L3cache.tagAccessLatency)
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def connectWireBuffers(self, req_to_dir, resp_to_dir, l3_unblock_to_dir,
req_to_l3, probe_to_l3, resp_to_l3):
self.reqToDir = req_to_dir
self.respToDir = resp_to_dir
self.l3UnblockToDir = l3_unblock_to_dir
self.reqToL3 = req_to_l3
self.probeToL3 = probe_to_l3
self.respToL3 = resp_to_l3
class DirMem(RubyDirectoryMemory, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
phys_mem_size = AddrRange(options.mem_size).size()
mem_module_size = phys_mem_size / options.num_dirs
dir_size = MemorySize('0B')
dir_size.value = mem_module_size
self.size = dir_size
class DirCntrl(Directory_Controller, CntrlBase):
def create(self, options, ruby_system, system):
self.version = self.versionCount()
self.response_latency = 30
self.directory = DirMem()
self.directory.create(options, ruby_system, system)
self.L3CacheMemory = L3Cache()
self.L3CacheMemory.create(options, ruby_system, system)
self.l3_hit_latency = max(self.L3CacheMemory.dataAccessLatency,
self.L3CacheMemory.tagAccessLatency)
self.number_of_TBEs = options.num_tbes
self.ruby_system = ruby_system
if options.recycle_latency:
self.recycle_latency = options.recycle_latency
def connectWireBuffers(self, req_to_dir, resp_to_dir, l3_unblock_to_dir,
req_to_l3, probe_to_l3, resp_to_l3):
self.reqToDir = req_to_dir
self.respToDir = resp_to_dir
self.l3UnblockToDir = l3_unblock_to_dir
self.reqToL3 = req_to_l3
self.probeToL3 = probe_to_l3
self.respToL3 = resp_to_l3
def define_options(parser):
parser.add_option("--num-subcaches", type="int", default=4)
parser.add_option("--l3-data-latency", type="int", default=20)
parser.add_option("--l3-tag-latency", type="int", default=15)
parser.add_option("--cpu-to-dir-latency", type="int", default=15)
parser.add_option("--gpu-to-dir-latency", type="int", default=160)
parser.add_option("--no-resource-stalls", action="store_false",
default=True)
parser.add_option("--num-tbes", type="int", default=256)
parser.add_option("--l2-latency", type="int", default=50) # load to use
parser.add_option("--num-tccs", type="int", default=1,
help="number of TCC directories and banks in the GPU")
parser.add_option("--TCP_latency", type="int", default=4,
help="TCP latency")
parser.add_option("--TCC_latency", type="int", default=16,
help="TCC latency")
parser.add_option("--tcc-size", type='string', default='256kB',
help="agregate tcc size")
parser.add_option("--tcp-size", type='string', default='16kB',
help="tcp size")
parser.add_option("--tcc-dir-factor", type='int', default=4,
help="TCCdir size = factor *(TCPs + TCC)")
def create_system(options, full_system, system, dma_devices, ruby_system):
if buildEnv['PROTOCOL'] != 'GPU_RfO':
panic("This script requires the GPU_RfO 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.
#
cp_cntrl_nodes = []
tcp_cntrl_nodes = []
sqc_cntrl_nodes = []
tcc_cntrl_nodes = []
tccdir_cntrl_nodes = []
dir_cntrl_nodes = []
l3_cntrl_nodes = []
#
# Must create the individual controllers before the network to ensure the
# controller constructors are called before the network constructor
#
TCC_bits = int(math.log(options.num_tccs, 2))
# This is the base crossbar that connects the L3s, Dirs, and cpu/gpu
# Clusters
mainCluster = Cluster(extBW = 512, intBW = 512) # 1 TB/s
for i in xrange(options.num_dirs):
dir_cntrl = DirCntrl(TCC_select_num_bits = TCC_bits)
dir_cntrl.create(options, ruby_system, system)
dir_cntrl.number_of_TBEs = 2560 * options.num_compute_units
#Enough TBEs for all TCP TBEs
# Connect the Directory controller to the ruby network
dir_cntrl.requestFromCores = MessageBuffer(ordered = True)
dir_cntrl.requestFromCores.slave = ruby_system.network.master
dir_cntrl.responseFromCores = MessageBuffer()
dir_cntrl.responseFromCores.slave = ruby_system.network.master
dir_cntrl.unblockFromCores = MessageBuffer()
dir_cntrl.unblockFromCores.slave = ruby_system.network.master
dir_cntrl.probeToCore = MessageBuffer()
dir_cntrl.probeToCore.master = ruby_system.network.slave
dir_cntrl.responseToCore = MessageBuffer()
dir_cntrl.responseToCore.master = ruby_system.network.slave
dir_cntrl.triggerQueue = MessageBuffer(ordered = True)
dir_cntrl.L3triggerQueue = MessageBuffer(ordered = True)
dir_cntrl.responseFromMemory = MessageBuffer()
exec("system.dir_cntrl%d = dir_cntrl" % i)
dir_cntrl_nodes.append(dir_cntrl)
mainCluster.add(dir_cntrl)
# For an odd number of CPUs, still create the right number of controllers
cpuCluster = Cluster(extBW = 512, intBW = 512) # 1 TB/s
for i in xrange((options.num_cpus + 1) / 2):
cp_cntrl = CPCntrl()
cp_cntrl.create(options, ruby_system, system)
exec("system.cp_cntrl%d = cp_cntrl" % i)
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.extend([cp_cntrl.sequencer, cp_cntrl.sequencer1])
# Connect the CP controllers and the network
cp_cntrl.requestFromCore = MessageBuffer()
cp_cntrl.requestFromCore.master = ruby_system.network.slave
cp_cntrl.responseFromCore = MessageBuffer()
cp_cntrl.responseFromCore.master = ruby_system.network.slave
cp_cntrl.unblockFromCore = MessageBuffer()
cp_cntrl.unblockFromCore.master = ruby_system.network.slave
cp_cntrl.probeToCore = MessageBuffer()
cp_cntrl.probeToCore.slave = ruby_system.network.master
cp_cntrl.responseToCore = MessageBuffer()
cp_cntrl.responseToCore.slave = ruby_system.network.master
cp_cntrl.mandatoryQueue = MessageBuffer()
cp_cntrl.triggerQueue = MessageBuffer(ordered = True)
cpuCluster.add(cp_cntrl)
gpuCluster = Cluster(extBW = 512, intBW = 512) # 1 TB/s
for i in xrange(options.num_compute_units):
tcp_cntrl = TCPCntrl(TCC_select_num_bits = TCC_bits,
number_of_TBEs = 2560) # max outstanding requests
tcp_cntrl.create(options, ruby_system, system)
exec("system.tcp_cntrl%d = tcp_cntrl" % i)
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.append(tcp_cntrl.coalescer)
tcp_cntrl_nodes.append(tcp_cntrl)
# Connect the TCP controller to the ruby network
tcp_cntrl.requestFromTCP = MessageBuffer(ordered = True)
tcp_cntrl.requestFromTCP.master = ruby_system.network.slave
tcp_cntrl.responseFromTCP = MessageBuffer(ordered = True)
tcp_cntrl.responseFromTCP.master = ruby_system.network.slave
tcp_cntrl.unblockFromCore = MessageBuffer(ordered = True)
tcp_cntrl.unblockFromCore.master = ruby_system.network.slave
tcp_cntrl.probeToTCP = MessageBuffer(ordered = True)
tcp_cntrl.probeToTCP.slave = ruby_system.network.master
tcp_cntrl.responseToTCP = MessageBuffer(ordered = True)
tcp_cntrl.responseToTCP.slave = ruby_system.network.master
tcp_cntrl.mandatoryQueue = MessageBuffer()
gpuCluster.add(tcp_cntrl)
for i in xrange(options.num_sqc):
sqc_cntrl = SQCCntrl(TCC_select_num_bits = TCC_bits)
sqc_cntrl.create(options, ruby_system, system)
exec("system.sqc_cntrl%d = sqc_cntrl" % i)
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.append(sqc_cntrl.sequencer)
# Connect the SQC controller to the ruby network
sqc_cntrl.requestFromSQC = MessageBuffer(ordered = True)
sqc_cntrl.requestFromSQC.master = ruby_system.network.slave
sqc_cntrl.responseFromSQC = MessageBuffer(ordered = True)
sqc_cntrl.responseFromSQC.master = ruby_system.network.slave
sqc_cntrl.unblockFromCore = MessageBuffer(ordered = True)
sqc_cntrl.unblockFromCore.master = ruby_system.network.slave
sqc_cntrl.probeToSQC = MessageBuffer(ordered = True)
sqc_cntrl.probeToSQC.slave = ruby_system.network.master
sqc_cntrl.responseToSQC = MessageBuffer(ordered = True)
sqc_cntrl.responseToSQC.slave = ruby_system.network.master
sqc_cntrl.mandatoryQueue = MessageBuffer()
# SQC also in GPU cluster
gpuCluster.add(sqc_cntrl)
for i in xrange(options.num_cp):
tcp_cntrl = TCPCntrl(TCC_select_num_bits = TCC_bits,
number_of_TBEs = 2560) # max outstanding requests
tcp_cntrl.createCP(options, ruby_system, system)
exec("system.tcp_cntrl%d = tcp_cntrl" % (options.num_compute_units + i))
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.append(tcp_cntrl.sequencer)
tcp_cntrl_nodes.append(tcp_cntrl)
# Connect the TCP controller to the ruby network
tcp_cntrl.requestFromTCP = MessageBuffer(ordered = True)
tcp_cntrl.requestFromTCP.master = ruby_system.network.slave
tcp_cntrl.responseFromTCP = MessageBuffer(ordered = True)
tcp_cntrl.responseFromTCP.master = ruby_system.network.slave
tcp_cntrl.unblockFromCore = MessageBuffer(ordered = True)
tcp_cntrl.unblockFromCore.master = ruby_system.network.slave
tcp_cntrl.probeToTCP = MessageBuffer(ordered = True)
tcp_cntrl.probeToTCP.slave = ruby_system.network.master
tcp_cntrl.responseToTCP = MessageBuffer(ordered = True)
tcp_cntrl.responseToTCP.slave = ruby_system.network.master
tcp_cntrl.mandatoryQueue = MessageBuffer()
gpuCluster.add(tcp_cntrl)
sqc_cntrl = SQCCntrl(TCC_select_num_bits = TCC_bits)
sqc_cntrl.createCP(options, ruby_system, system)
exec("system.sqc_cntrl%d = sqc_cntrl" % (options.num_compute_units + i))
#
# Add controllers and sequencers to the appropriate lists
#
cpu_sequencers.append(sqc_cntrl.sequencer)
# Connect the SQC controller to the ruby network
sqc_cntrl.requestFromSQC = MessageBuffer(ordered = True)
sqc_cntrl.requestFromSQC.master = ruby_system.network.slave
sqc_cntrl.responseFromSQC = MessageBuffer(ordered = True)
sqc_cntrl.responseFromSQC.master = ruby_system.network.slave
sqc_cntrl.unblockFromCore = MessageBuffer(ordered = True)
sqc_cntrl.unblockFromCore.master = ruby_system.network.slave
sqc_cntrl.probeToSQC = MessageBuffer(ordered = True)
sqc_cntrl.probeToSQC.slave = ruby_system.network.master
sqc_cntrl.responseToSQC = MessageBuffer(ordered = True)
sqc_cntrl.responseToSQC.slave = ruby_system.network.master
sqc_cntrl.mandatoryQueue = MessageBuffer()
# SQC also in GPU cluster
gpuCluster.add(sqc_cntrl)
for i in xrange(options.num_tccs):
tcc_cntrl = TCCCntrl(TCC_select_num_bits = TCC_bits,
number_of_TBEs = options.num_compute_units * 2560)
#Enough TBEs for all TCP TBEs
tcc_cntrl.create(options, ruby_system, system)
tcc_cntrl_nodes.append(tcc_cntrl)
tccdir_cntrl = TCCDirCntrl(TCC_select_num_bits = TCC_bits,
number_of_TBEs = options.num_compute_units * 2560)
#Enough TBEs for all TCP TBEs
tccdir_cntrl.create(options, ruby_system, system)
tccdir_cntrl_nodes.append(tccdir_cntrl)
exec("system.tcc_cntrl%d = tcc_cntrl" % i)
exec("system.tccdir_cntrl%d = tccdir_cntrl" % i)
# connect all of the wire buffers between L3 and dirs up
req_to_tccdir = RubyWireBuffer()
resp_to_tccdir = RubyWireBuffer()
tcc_unblock_to_tccdir = RubyWireBuffer()
req_to_tcc = RubyWireBuffer()
probe_to_tcc = RubyWireBuffer()
resp_to_tcc = RubyWireBuffer()
tcc_cntrl.connectWireBuffers(req_to_tccdir, resp_to_tccdir,
tcc_unblock_to_tccdir, req_to_tcc,
probe_to_tcc, resp_to_tcc)
tccdir_cntrl.connectWireBuffers(req_to_tccdir, resp_to_tccdir,
tcc_unblock_to_tccdir, req_to_tcc,
probe_to_tcc, resp_to_tcc)
# Connect the TCC controller to the ruby network
tcc_cntrl.responseFromTCC = MessageBuffer(ordered = True)
tcc_cntrl.responseFromTCC.master = ruby_system.network.slave
tcc_cntrl.responseToTCC = MessageBuffer(ordered = True)
tcc_cntrl.responseToTCC.slave = ruby_system.network.master
# Connect the TCC Dir controller to the ruby network
tccdir_cntrl.requestFromTCP = MessageBuffer(ordered = True)
tccdir_cntrl.requestFromTCP.slave = ruby_system.network.master
tccdir_cntrl.responseFromTCP = MessageBuffer(ordered = True)
tccdir_cntrl.responseFromTCP.slave = ruby_system.network.master
tccdir_cntrl.unblockFromTCP = MessageBuffer(ordered = True)
tccdir_cntrl.unblockFromTCP.slave = ruby_system.network.master
tccdir_cntrl.probeToCore = MessageBuffer(ordered = True)
tccdir_cntrl.probeToCore.master = ruby_system.network.slave
tccdir_cntrl.responseToCore = MessageBuffer(ordered = True)
tccdir_cntrl.responseToCore.master = ruby_system.network.slave
tccdir_cntrl.probeFromNB = MessageBuffer()
tccdir_cntrl.probeFromNB.slave = ruby_system.network.master
tccdir_cntrl.responseFromNB = MessageBuffer()
tccdir_cntrl.responseFromNB.slave = ruby_system.network.master
tccdir_cntrl.requestToNB = MessageBuffer()
tccdir_cntrl.requestToNB.master = ruby_system.network.slave
tccdir_cntrl.responseToNB = MessageBuffer()
tccdir_cntrl.responseToNB.master = ruby_system.network.slave
tccdir_cntrl.unblockToNB = MessageBuffer()
tccdir_cntrl.unblockToNB.master = ruby_system.network.slave
tccdir_cntrl.triggerQueue = MessageBuffer(ordered = True)
# TCC cntrls added to the GPU cluster
gpuCluster.add(tcc_cntrl)
gpuCluster.add(tccdir_cntrl)
# Assuming no DMA devices
assert(len(dma_devices) == 0)
# Add cpu/gpu clusters to main cluster
mainCluster.add(cpuCluster)
mainCluster.add(gpuCluster)
ruby_system.network.number_of_virtual_networks = 10
return (cpu_sequencers, dir_cntrl_nodes, mainCluster)