tests/configs/gpu-ruby.py - testing/jenkins-gem5-prod - Git at Google

 #
 #  Copyright (c) 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: Brad Beckmann
 #

 from __future__ import print_function

 import m5
 from m5.objects import *
 from m5.defines import buildEnv
 from m5.util import addToPath
 import os, optparse, sys, math, glob

 m5.util.addToPath('../configs/')

 from ruby import Ruby
 from common import Options
 from common import GPUTLBOptions, GPUTLBConfig

 ########################## Script Options ########################
 def setOption(parser, opt_str, value = 1):
     # check to make sure the option actually exists
     if not parser.has_option(opt_str):
         raise Exception("cannot find %s in list of possible options" % opt_str)

     opt = parser.get_option(opt_str)
     # set the value
     exec("parser.values.%s = %s" % (opt.dest, value))

 def getOption(parser, opt_str):
     # check to make sure the option actually exists
     if not parser.has_option(opt_str):
         raise Exception("cannot find %s in list of possible options" % opt_str)

     opt = parser.get_option(opt_str)
     # get the value
     exec("return_value = parser.values.%s" % opt.dest)
     return return_value

 def run_test(root):
     """gpu test requires a specialized run_test implementation to set up the
     mmio space."""

     # instantiate configuration
     m5.instantiate()

     # Now that the system has been constructed, setup the mmio space
     root.system.cpu[0].workload[0].map(0x10000000, 0x200000000, 4096)

     # simulate until program terminates
     exit_event = m5.simulate(maxtick)
     print('Exiting @ tick', m5.curTick(), 'because', exit_event.getCause())

 parser = optparse.OptionParser()
 Options.addCommonOptions(parser)
 Options.addSEOptions(parser)

 parser.add_option("-k", "--kernel-files",
                   help="file(s) containing GPU kernel code (colon separated)")
 parser.add_option("-u", "--num-compute-units", type="int", default=2,
                   help="number of GPU compute units"),
 parser.add_option("--num-cp", type="int", default=0,
                   help="Number of GPU Command Processors (CP)")
 parser.add_option("--simds-per-cu", type="int", default=4, help="SIMD units" \
                   "per CU")
 parser.add_option("--cu-per-sqc", type="int", default=4, help="number of CUs" \
                   "sharing an SQC (icache, and thus icache TLB)")
 parser.add_option("--wf-size", type="int", default=64,
                   help="Wavefront size(in workitems)")
 parser.add_option("--wfs-per-simd", type="int", default=8, help="Number of " \
                   "WF slots per SIMD")
 parser.add_option("--sp-bypass-path-length", type="int", default=4, \
                   help="Number of stages of bypass path in vector ALU for Single "\
                   "Precision ops")
 parser.add_option("--dp-bypass-path-length", type="int", default=4, \
                   help="Number of stages of bypass path in vector ALU for Double "\
                   "Precision ops")
 parser.add_option("--issue-period", type="int", default=4, \
                   help="Number of cycles per vector instruction issue period")
 parser.add_option("--glbmem-wr-bus-width", type="int", default=32, \
                   help="VGPR to Coalescer (Global Memory) data bus width in bytes")
 parser.add_option("--glbmem-rd-bus-width", type="int", default=32, \
                   help="Coalescer to VGPR (Global Memory) data bus width in bytes")
 parser.add_option("--shr-mem-pipes-per-cu", type="int", default=1, \
                   help="Number of Shared Memory pipelines per CU")
 parser.add_option("--glb-mem-pipes-per-cu", type="int", default=1, \
                   help="Number of Global Memory pipelines per CU")
 parser.add_option("--vreg-file-size", type="int", default=2048,
                   help="number of physical vector registers per SIMD")
 parser.add_option("--bw-scalor", type="int", default=0,
                   help="bandwidth scalor for scalability analysis")
 parser.add_option("--CPUClock", type="string", default="2GHz",
                   help="CPU clock")
 parser.add_option("--GPUClock", type="string", default="1GHz",
                   help="GPU clock")
 parser.add_option("--cpu-voltage", action="store", type="string",
                   default='1.0V',
                   help = """CPU  voltage domain""")
 parser.add_option("--gpu-voltage", action="store", type="string",
                   default='1.0V',
                   help = """CPU  voltage domain""")
 parser.add_option("--CUExecPolicy", type="string", default="OLDEST-FIRST",
                   help="WF exec policy (OLDEST-FIRST, ROUND-ROBIN)")
 parser.add_option("--xact-cas-mode", action="store_true",
                   help="enable load_compare mode (transactional CAS)")
 parser.add_option("--SegFaultDebug",action="store_true",
                  help="checks for GPU seg fault before TLB access")
 parser.add_option("--LocalMemBarrier",action="store_true",
                  help="Barrier does not wait for writethroughs to complete")
 parser.add_option("--countPages", action="store_true",
                  help="Count Page Accesses and output in per-CU output files")
 parser.add_option("--TLB-prefetch", type="int", help = "prefetch depth for"\
                   "TLBs")
 parser.add_option("--pf-type", type="string", help="type of prefetch: "\
                   "PF_CU, PF_WF, PF_PHASE, PF_STRIDE")
 parser.add_option("--pf-stride", type="int", help="set prefetch stride")
 parser.add_option("--numLdsBanks", type="int", default=32,
                   help="number of physical banks per LDS module")
 parser.add_option("--ldsBankConflictPenalty", type="int", default=1,
                   help="number of cycles per LDS bank conflict")

 # Add the ruby specific and protocol specific options
 Ruby.define_options(parser)

 GPUTLBOptions.tlb_options(parser)

 (options, args) = parser.parse_args()

 # The GPU cache coherence protocols only work with the backing store
 setOption(parser, "--access-backing-store")

 # Currently, the sqc (I-Cache of GPU) is shared by
 # multiple compute units(CUs). The protocol works just fine
 # even if sqc is not shared. Overriding this option here
 # so that the user need not explicitly set this (assuming
 # sharing sqc is the common usage)
 n_cu = options.num_compute_units
 num_sqc = int(math.ceil(float(n_cu) / options.cu_per_sqc))
 options.num_sqc = num_sqc # pass this to Ruby

 ########################## Creating the GPU system ########################
 # shader is the GPU
 shader = Shader(n_wf = options.wfs_per_simd,
                 clk_domain = SrcClockDomain(
                     clock = options.GPUClock,
                     voltage_domain = VoltageDomain(
                         voltage = options.gpu_voltage)),
                 timing = True)

 # GPU_RfO(Read For Ownership) implements SC/TSO memory model.
 # Other GPU protocols implement release consistency at GPU side.
 # So, all GPU protocols other than GPU_RfO should make their writes
 # visible to the global memory and should read from global memory
 # during kernal boundary. The pipeline initiates(or do not initiate)
 # the acquire/release operation depending on this impl_kern_boundary_sync
 # flag. This flag=true means pipeline initiates a acquire/release operation
 # at kernel boundary.
 if buildEnv['PROTOCOL'] == 'GPU_RfO':
     shader.impl_kern_boundary_sync = False
 else:
     shader.impl_kern_boundary_sync = True

 # Switching off per-lane TLB by default
 per_lane = False
 if options.TLB_config == "perLane":
     per_lane = True

 # List of compute units; one GPU can have multiple compute units
 compute_units = []
 for i in range(n_cu):
     compute_units.append(ComputeUnit(cu_id = i, perLaneTLB = per_lane,
                                      num_SIMDs = options.simds_per_cu,
                                      wfSize = options.wf_size,
                                      spbypass_pipe_length = \
                                      options.sp_bypass_path_length,
                                      dpbypass_pipe_length = \
                                      options.dp_bypass_path_length,
                                      issue_period = options.issue_period,
                                      coalescer_to_vrf_bus_width = \
                                      options.glbmem_rd_bus_width,
                                      vrf_to_coalescer_bus_width = \
                                      options.glbmem_wr_bus_width,
                                      num_global_mem_pipes = \
                                      options.glb_mem_pipes_per_cu,
                                      num_shared_mem_pipes = \
                                      options.shr_mem_pipes_per_cu,
                                      n_wf = options.wfs_per_simd,
                                      execPolicy = options.CUExecPolicy,
                                      xactCasMode = options.xact_cas_mode,
                                      debugSegFault = options.SegFaultDebug,
                                      functionalTLB = True,
                                      localMemBarrier = options.LocalMemBarrier,
                                      countPages = options.countPages,
                                      localDataStore = \
                                      LdsState(banks = options.numLdsBanks,
                                               bankConflictPenalty = \
                                               options.ldsBankConflictPenalty)))
     wavefronts = []
     vrfs = []
     for j in range(options.simds_per_cu):
         for k in range(int(shader.n_wf)):
             wavefronts.append(Wavefront(simdId = j, wf_slot_id = k))
         vrfs.append(VectorRegisterFile(simd_id=j,
                               num_regs_per_simd=options.vreg_file_size))
     compute_units[-1].wavefronts = wavefronts
     compute_units[-1].vector_register_file = vrfs
     if options.TLB_prefetch:
         compute_units[-1].prefetch_depth = options.TLB_prefetch
         compute_units[-1].prefetch_prev_type = options.pf_type

     # attach the LDS and the CU to the bus (actually a Bridge)
     compute_units[-1].ldsPort = compute_units[-1].ldsBus.slave
     compute_units[-1].ldsBus.master = compute_units[-1].localDataStore.cuPort

 # Attach compute units to GPU
 shader.CUs = compute_units

 # this is a uniprocessor only test, thus the shader is the second index in the
 # list of "system.cpus"
 options.num_cpus = 1
 shader_idx = 1
 cpu = TimingSimpleCPU(cpu_id=0)

 ########################## Creating the GPU dispatcher ########################
 # Dispatcher dispatches work from host CPU to GPU
 host_cpu = cpu
 dispatcher = GpuDispatcher()

 # Currently does not test for command processors
 cpu_list = [cpu] + [shader] + [dispatcher]

 system = System(cpu = cpu_list,
                 mem_ranges = [AddrRange(options.mem_size)],
                 mem_mode = 'timing')

 # Dummy voltage domain for all our clock domains
 system.voltage_domain = VoltageDomain(voltage = options.sys_voltage)
 system.clk_domain = SrcClockDomain(clock = '1GHz',
                                    voltage_domain = system.voltage_domain)

 # Create a seperate clock domain for components that should run at
 # CPUs frequency
 system.cpu[0].clk_domain = SrcClockDomain(clock = '2GHz',
                                           voltage_domain = \
                                           system.voltage_domain)

 # configure the TLB hierarchy
 GPUTLBConfig.config_tlb_hierarchy(options, system, shader_idx)

 # create Ruby system
 system.piobus = IOXBar(width=32, response_latency=0,
                        frontend_latency=0, forward_latency=0)
 Ruby.create_system(options, None, system)

 # Create a separate clock for Ruby
 system.ruby.clk_domain = SrcClockDomain(clock = options.ruby_clock,
                                         voltage_domain = system.voltage_domain)

 # create the interrupt controller
 cpu.createInterruptController()

 #
 # Tie the cpu cache ports to the ruby cpu ports and
 # physmem, respectively
 #
 cpu.connectAllPorts(system.ruby._cpu_ports[0])
 system.ruby._cpu_ports[0].mem_master_port = system.piobus.slave

 # attach CU ports to Ruby
 # Because of the peculiarities of the CP core, you may have 1 CPU but 2
 # sequencers and thus 2 _cpu_ports created. Your GPUs shouldn't be
 # hooked up until after the CP. To make this script generic, figure out
 # the index as below, but note that this assumes there is one sequencer
 # per compute unit and one sequencer per SQC for the math to work out
 # correctly.
 gpu_port_idx = len(system.ruby._cpu_ports) \
                - options.num_compute_units - options.num_sqc
 gpu_port_idx = gpu_port_idx - options.num_cp * 2

 wavefront_size = options.wf_size
 for i in range(n_cu):
     # The pipeline issues wavefront_size number of uncoalesced requests
     # in one GPU issue cycle. Hence wavefront_size mem ports.
     for j in range(wavefront_size):
         system.cpu[shader_idx].CUs[i].memory_port[j] = \
                   system.ruby._cpu_ports[gpu_port_idx].slave[j]
     gpu_port_idx += 1

 for i in range(n_cu):
     if i > 0 and not i % options.cu_per_sqc:
         gpu_port_idx += 1
     system.cpu[shader_idx].CUs[i].sqc_port = \
             system.ruby._cpu_ports[gpu_port_idx].slave
 gpu_port_idx = gpu_port_idx + 1

 # Current regression tests do not support the command processor
 assert(options.num_cp == 0)

 # connect dispatcher to the system.piobus
 dispatcher.pio = system.piobus.master
 dispatcher.dma = system.piobus.slave

 ################# Connect the CPU and GPU via GPU Dispatcher ###################
 # CPU rings the GPU doorbell to notify a pending task
 # using this interface.
 # And GPU uses this interface to notify the CPU of task completion
 # The communcation happens through emulated driver.

 # Note this implicit setting of the cpu_pointer, shader_pointer and tlb array
 # parameters must be after the explicit setting of the System cpu list
 shader.cpu_pointer = host_cpu
 dispatcher.cpu = host_cpu
 dispatcher.shader_pointer = shader

 # -----------------------
 # run simulation
 # -----------------------

 root = Root(full_system = False, system = system)
 m5.ticks.setGlobalFrequency('1THz')
 root.system.mem_mode = 'timing'
	#
	# Copyright (c) 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: Brad Beckmann
	#

	from __future__ import print_function

	import m5
	from m5.objects import *
	from m5.defines import buildEnv
	from m5.util import addToPath
	import os, optparse, sys, math, glob

	m5.util.addToPath('../configs/')

	from ruby import Ruby
	from common import Options
	from common import GPUTLBOptions, GPUTLBConfig

	########################## Script Options ########################
	def setOption(parser, opt_str, value = 1):
	# check to make sure the option actually exists
	if not parser.has_option(opt_str):
	raise Exception("cannot find %s in list of possible options" % opt_str)

	opt = parser.get_option(opt_str)
	# set the value
	exec("parser.values.%s = %s" % (opt.dest, value))

	def getOption(parser, opt_str):
	# check to make sure the option actually exists
	if not parser.has_option(opt_str):
	raise Exception("cannot find %s in list of possible options" % opt_str)

	opt = parser.get_option(opt_str)
	# get the value
	exec("return_value = parser.values.%s" % opt.dest)
	return return_value

	def run_test(root):
	"""gpu test requires a specialized run_test implementation to set up the
	mmio space."""

	# instantiate configuration
	m5.instantiate()

	# Now that the system has been constructed, setup the mmio space
	root.system.cpu[0].workload[0].map(0x10000000, 0x200000000, 4096)

	# simulate until program terminates
	exit_event = m5.simulate(maxtick)
	print('Exiting @ tick', m5.curTick(), 'because', exit_event.getCause())

	parser = optparse.OptionParser()
	Options.addCommonOptions(parser)
	Options.addSEOptions(parser)

	parser.add_option("-k", "--kernel-files",
	help="file(s) containing GPU kernel code (colon separated)")
	parser.add_option("-u", "--num-compute-units", type="int", default=2,
	help="number of GPU compute units"),
	parser.add_option("--num-cp", type="int", default=0,
	help="Number of GPU Command Processors (CP)")
	parser.add_option("--simds-per-cu", type="int", default=4, help="SIMD units" \
	"per CU")
	parser.add_option("--cu-per-sqc", type="int", default=4, help="number of CUs" \
	"sharing an SQC (icache, and thus icache TLB)")
	parser.add_option("--wf-size", type="int", default=64,
	help="Wavefront size(in workitems)")
	parser.add_option("--wfs-per-simd", type="int", default=8, help="Number of " \
	"WF slots per SIMD")
	parser.add_option("--sp-bypass-path-length", type="int", default=4, \
	help="Number of stages of bypass path in vector ALU for Single "\
	"Precision ops")
	parser.add_option("--dp-bypass-path-length", type="int", default=4, \
	help="Number of stages of bypass path in vector ALU for Double "\
	"Precision ops")
	parser.add_option("--issue-period", type="int", default=4, \
	help="Number of cycles per vector instruction issue period")
	parser.add_option("--glbmem-wr-bus-width", type="int", default=32, \
	help="VGPR to Coalescer (Global Memory) data bus width in bytes")
	parser.add_option("--glbmem-rd-bus-width", type="int", default=32, \
	help="Coalescer to VGPR (Global Memory) data bus width in bytes")
	parser.add_option("--shr-mem-pipes-per-cu", type="int", default=1, \
	help="Number of Shared Memory pipelines per CU")
	parser.add_option("--glb-mem-pipes-per-cu", type="int", default=1, \
	help="Number of Global Memory pipelines per CU")
	parser.add_option("--vreg-file-size", type="int", default=2048,
	help="number of physical vector registers per SIMD")
	parser.add_option("--bw-scalor", type="int", default=0,
	help="bandwidth scalor for scalability analysis")
	parser.add_option("--CPUClock", type="string", default="2GHz",
	help="CPU clock")
	parser.add_option("--GPUClock", type="string", default="1GHz",
	help="GPU clock")
	parser.add_option("--cpu-voltage", action="store", type="string",
	default='1.0V',
	help = """CPU voltage domain""")
	parser.add_option("--gpu-voltage", action="store", type="string",
	default='1.0V',
	help = """CPU voltage domain""")
	parser.add_option("--CUExecPolicy", type="string", default="OLDEST-FIRST",
	help="WF exec policy (OLDEST-FIRST, ROUND-ROBIN)")
	parser.add_option("--xact-cas-mode", action="store_true",
	help="enable load_compare mode (transactional CAS)")
	parser.add_option("--SegFaultDebug",action="store_true",
	help="checks for GPU seg fault before TLB access")
	parser.add_option("--LocalMemBarrier",action="store_true",
	help="Barrier does not wait for writethroughs to complete")
	parser.add_option("--countPages", action="store_true",
	help="Count Page Accesses and output in per-CU output files")
	parser.add_option("--TLB-prefetch", type="int", help = "prefetch depth for"\
	"TLBs")
	parser.add_option("--pf-type", type="string", help="type of prefetch: "\
	"PF_CU, PF_WF, PF_PHASE, PF_STRIDE")
	parser.add_option("--pf-stride", type="int", help="set prefetch stride")
	parser.add_option("--numLdsBanks", type="int", default=32,
	help="number of physical banks per LDS module")
	parser.add_option("--ldsBankConflictPenalty", type="int", default=1,
	help="number of cycles per LDS bank conflict")

	# Add the ruby specific and protocol specific options
	Ruby.define_options(parser)

	GPUTLBOptions.tlb_options(parser)

	(options, args) = parser.parse_args()

	# The GPU cache coherence protocols only work with the backing store
	setOption(parser, "--access-backing-store")

	# Currently, the sqc (I-Cache of GPU) is shared by
	# multiple compute units(CUs). The protocol works just fine
	# even if sqc is not shared. Overriding this option here
	# so that the user need not explicitly set this (assuming
	# sharing sqc is the common usage)
	n_cu = options.num_compute_units
	num_sqc = int(math.ceil(float(n_cu) / options.cu_per_sqc))
	options.num_sqc = num_sqc # pass this to Ruby

	########################## Creating the GPU system ########################
	# shader is the GPU
	shader = Shader(n_wf = options.wfs_per_simd,
	clk_domain = SrcClockDomain(
	clock = options.GPUClock,
	voltage_domain = VoltageDomain(
	voltage = options.gpu_voltage)),
	timing = True)

	# GPU_RfO(Read For Ownership) implements SC/TSO memory model.
	# Other GPU protocols implement release consistency at GPU side.
	# So, all GPU protocols other than GPU_RfO should make their writes
	# visible to the global memory and should read from global memory
	# during kernal boundary. The pipeline initiates(or do not initiate)
	# the acquire/release operation depending on this impl_kern_boundary_sync
	# flag. This flag=true means pipeline initiates a acquire/release operation
	# at kernel boundary.
	if buildEnv['PROTOCOL'] == 'GPU_RfO':
	shader.impl_kern_boundary_sync = False
	else:
	shader.impl_kern_boundary_sync = True

	# Switching off per-lane TLB by default
	per_lane = False
	if options.TLB_config == "perLane":
	per_lane = True

	# List of compute units; one GPU can have multiple compute units
	compute_units = []
	for i in range(n_cu):
	compute_units.append(ComputeUnit(cu_id = i, perLaneTLB = per_lane,
	num_SIMDs = options.simds_per_cu,
	wfSize = options.wf_size,
	spbypass_pipe_length = \
	options.sp_bypass_path_length,
	dpbypass_pipe_length = \
	options.dp_bypass_path_length,
	issue_period = options.issue_period,
	coalescer_to_vrf_bus_width = \
	options.glbmem_rd_bus_width,
	vrf_to_coalescer_bus_width = \
	options.glbmem_wr_bus_width,
	num_global_mem_pipes = \
	options.glb_mem_pipes_per_cu,
	num_shared_mem_pipes = \
	options.shr_mem_pipes_per_cu,
	n_wf = options.wfs_per_simd,
	execPolicy = options.CUExecPolicy,
	xactCasMode = options.xact_cas_mode,
	debugSegFault = options.SegFaultDebug,
	functionalTLB = True,
	localMemBarrier = options.LocalMemBarrier,
	countPages = options.countPages,
	localDataStore = \
	LdsState(banks = options.numLdsBanks,
	bankConflictPenalty = \
	options.ldsBankConflictPenalty)))
	wavefronts = []
	vrfs = []
	for j in range(options.simds_per_cu):
	for k in range(int(shader.n_wf)):
	wavefronts.append(Wavefront(simdId = j, wf_slot_id = k))
	vrfs.append(VectorRegisterFile(simd_id=j,
	num_regs_per_simd=options.vreg_file_size))
	compute_units[-1].wavefronts = wavefronts
	compute_units[-1].vector_register_file = vrfs
	if options.TLB_prefetch:
	compute_units[-1].prefetch_depth = options.TLB_prefetch
	compute_units[-1].prefetch_prev_type = options.pf_type

	# attach the LDS and the CU to the bus (actually a Bridge)
	compute_units[-1].ldsPort = compute_units[-1].ldsBus.slave
	compute_units[-1].ldsBus.master = compute_units[-1].localDataStore.cuPort

	# Attach compute units to GPU
	shader.CUs = compute_units

	# this is a uniprocessor only test, thus the shader is the second index in the
	# list of "system.cpus"
	options.num_cpus = 1
	shader_idx = 1
	cpu = TimingSimpleCPU(cpu_id=0)

	########################## Creating the GPU dispatcher ########################
	# Dispatcher dispatches work from host CPU to GPU
	host_cpu = cpu
	dispatcher = GpuDispatcher()

	# Currently does not test for command processors
	cpu_list = [cpu] + [shader] + [dispatcher]

	system = System(cpu = cpu_list,
	mem_ranges = [AddrRange(options.mem_size)],
	mem_mode = 'timing')

	# Dummy voltage domain for all our clock domains
	system.voltage_domain = VoltageDomain(voltage = options.sys_voltage)
	system.clk_domain = SrcClockDomain(clock = '1GHz',
	voltage_domain = system.voltage_domain)

	# Create a seperate clock domain for components that should run at
	# CPUs frequency
	system.cpu[0].clk_domain = SrcClockDomain(clock = '2GHz',
	voltage_domain = \
	system.voltage_domain)

	# configure the TLB hierarchy
	GPUTLBConfig.config_tlb_hierarchy(options, system, shader_idx)

	# create Ruby system
	system.piobus = IOXBar(width=32, response_latency=0,
	frontend_latency=0, forward_latency=0)
	Ruby.create_system(options, None, system)

	# Create a separate clock for Ruby
	system.ruby.clk_domain = SrcClockDomain(clock = options.ruby_clock,
	voltage_domain = system.voltage_domain)

	# create the interrupt controller
	cpu.createInterruptController()

	#
	# Tie the cpu cache ports to the ruby cpu ports and
	# physmem, respectively
	#
	cpu.connectAllPorts(system.ruby._cpu_ports[0])
	system.ruby._cpu_ports[0].mem_master_port = system.piobus.slave

	# attach CU ports to Ruby
	# Because of the peculiarities of the CP core, you may have 1 CPU but 2
	# sequencers and thus 2 _cpu_ports created. Your GPUs shouldn't be
	# hooked up until after the CP. To make this script generic, figure out
	# the index as below, but note that this assumes there is one sequencer
	# per compute unit and one sequencer per SQC for the math to work out
	# correctly.
	gpu_port_idx = len(system.ruby._cpu_ports) \
	- options.num_compute_units - options.num_sqc
	gpu_port_idx = gpu_port_idx - options.num_cp * 2

	wavefront_size = options.wf_size
	for i in range(n_cu):
	# The pipeline issues wavefront_size number of uncoalesced requests
	# in one GPU issue cycle. Hence wavefront_size mem ports.
	for j in range(wavefront_size):
	system.cpu[shader_idx].CUs[i].memory_port[j] = \
	system.ruby._cpu_ports[gpu_port_idx].slave[j]
	gpu_port_idx += 1

	for i in range(n_cu):
	if i > 0 and not i % options.cu_per_sqc:
	gpu_port_idx += 1
	system.cpu[shader_idx].CUs[i].sqc_port = \
	system.ruby._cpu_ports[gpu_port_idx].slave
	gpu_port_idx = gpu_port_idx + 1

	# Current regression tests do not support the command processor
	assert(options.num_cp == 0)

	# connect dispatcher to the system.piobus
	dispatcher.pio = system.piobus.master
	dispatcher.dma = system.piobus.slave

	################# Connect the CPU and GPU via GPU Dispatcher ###################
	# CPU rings the GPU doorbell to notify a pending task
	# using this interface.
	# And GPU uses this interface to notify the CPU of task completion
	# The communcation happens through emulated driver.

	# Note this implicit setting of the cpu_pointer, shader_pointer and tlb array
	# parameters must be after the explicit setting of the System cpu list
	shader.cpu_pointer = host_cpu
	dispatcher.cpu = host_cpu
	dispatcher.shader_pointer = shader

	# -----------------------
	# run simulation
	# -----------------------

	root = Root(full_system = False, system = system)
	m5.ticks.setGlobalFrequency('1THz')
	root.system.mem_mode = 'timing'