src/gpu-compute/GPU.py - public/gem5 - Git at Google

 # Copyright (c) 2015-2018 Advanced Micro Devices, Inc.
 # All rights reserved.
 #
 # 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.

 from m5.defines import buildEnv
 from m5.params import *
 from m5.proxy import *
 from m5.SimObject import SimObject

 from m5.objects.Bridge import Bridge
 from m5.objects.ClockedObject import ClockedObject
 from m5.objects.Device import DmaVirtDevice
 from m5.objects.LdsState import LdsState
 from m5.objects.Process import EmulatedDriver
 from m5.objects.VegaGPUTLB import VegaPagetableWalker


 class PrefetchType(Enum):
     vals = ["PF_CU", "PF_PHASE", "PF_WF", "PF_STRIDE", "PF_END"]


 class GfxVersion(ScopedEnum):
     vals = ["gfx801", "gfx803", "gfx900", "gfx902"]


 class PoolManager(SimObject):
     type = "PoolManager"
     abstract = True
     cxx_class = "gem5::PoolManager"
     cxx_header = "gpu-compute/pool_manager.hh"

     min_alloc = Param.Int(4, "min number of VGPRs allocated per WF")
     pool_size = Param.Int(2048, "number of vector registers per SIMD")


 # The simple pool manage only allows one workgroup to
 # be executing on a CU at any given time.
 class SimplePoolManager(PoolManager):
     type = "SimplePoolManager"
     cxx_class = "gem5::SimplePoolManager"
     cxx_header = "gpu-compute/simple_pool_manager.hh"


 ## This is for allowing multiple workgroups on one CU
 class DynPoolManager(PoolManager):
     type = "DynPoolManager"
     cxx_class = "gem5::DynPoolManager"
     cxx_header = "gpu-compute/dyn_pool_manager.hh"


 class RegisterFile(SimObject):
     type = "RegisterFile"
     cxx_class = "gem5::RegisterFile"
     cxx_header = "gpu-compute/register_file.hh"

     simd_id = Param.Int(-1, "SIMD ID associated with this Register File")
     num_regs = Param.Int(2048, "number of registers in this RF")
     wf_size = Param.Int(64, "Wavefront size (in work items)")


 class ScalarRegisterFile(RegisterFile):
     type = "ScalarRegisterFile"
     cxx_class = "gem5::ScalarRegisterFile"
     cxx_header = "gpu-compute/scalar_register_file.hh"


 class VectorRegisterFile(RegisterFile):
     type = "VectorRegisterFile"
     cxx_class = "gem5::VectorRegisterFile"
     cxx_header = "gpu-compute/vector_register_file.hh"


 class RegisterManager(SimObject):
     type = "RegisterManager"
     cxx_class = "gem5::RegisterManager"
     cxx_header = "gpu-compute/register_manager.hh"

     policy = Param.String("static", "Register Manager Policy")
     vrf_pool_managers = VectorParam.PoolManager("VRF Pool Managers")
     srf_pool_managers = VectorParam.PoolManager("SRF Pool Managers")


 class Wavefront(SimObject):
     type = "Wavefront"
     cxx_class = "gem5::Wavefront"
     cxx_header = "gpu-compute/wavefront.hh"

     simdId = Param.Int("SIMD id (0-ComputeUnit.num_SIMDs)")
     wf_slot_id = Param.Int("wavefront id (0-ComputeUnit.max_wfs)")
     wf_size = Param.Int(64, "Wavefront size (in work items)")
     max_ib_size = Param.Int(
         13,
         "Maximum size (in number of insts) of the " "instruction buffer (IB).",
     )


 # Most of the default values here are obtained from the
 # AMD Graphics Core Next (GCN) Architecture whitepaper.
 class ComputeUnit(ClockedObject):
     type = "ComputeUnit"
     cxx_class = "gem5::ComputeUnit"
     cxx_header = "gpu-compute/compute_unit.hh"

     wavefronts = VectorParam.Wavefront("Number of wavefronts")
     # Wavefront size is 64. This is configurable, however changing
     # this value to anything other than 64 will likely cause errors.
     wf_size = Param.Int(64, "Wavefront size (in work items)")
     num_barrier_slots = Param.Int(4, "Number of barrier slots in a CU")
     num_SIMDs = Param.Int(4, "number of SIMD units per CU")
     num_scalar_cores = Param.Int(1, "number of Scalar cores per CU")
     num_scalar_mem_pipes = Param.Int(
         1, "number of Scalar memory pipelines " "per CU"
     )
     simd_width = Param.Int(16, "width (number of lanes) per SIMD unit")

     operand_network_length = Param.Int(
         1, "number of pipe stages of operand " "network"
     )

     spbypass_pipe_length = Param.Int(
         4, "vector ALU Single Precision bypass " "latency"
     )

     dpbypass_pipe_length = Param.Int(
         4, "vector ALU Double Precision bypass " "latency"
     )
     scalar_pipe_length = Param.Int(1, "number of pipe stages per scalar ALU")
     issue_period = Param.Int(4, "number of cycles per issue period")

     vrf_gm_bus_latency = Param.Int(
         1, "number of cycles per use of VRF to " "GM bus"
     )
     srf_scm_bus_latency = Param.Int(
         1, "number of cycles per use of SRF " "to Scalar Mem bus"
     )
     vrf_lm_bus_latency = Param.Int(
         1, "number of cycles per use of VRF to " "LM bus"
     )

     num_global_mem_pipes = Param.Int(1, "number of global memory pipes per CU")
     num_shared_mem_pipes = Param.Int(1, "number of shared memory pipes per CU")
     n_wf = Param.Int(10, "Number of wavefront slots per SIMD")
     mem_req_latency = Param.Int(
         50,
         "Latency for request from the cu to ruby. "
         "Represents the pipeline to reach the TCP "
         "and specified in GPU clock cycles",
     )
     mem_resp_latency = Param.Int(
         50,
         "Latency for responses from ruby to the "
         "cu. Represents the pipeline between the "
         "TCP and cu as well as TCP data array "
         "access. Specified in GPU clock cycles",
     )
     system = Param.System(Parent.any, "system object")
     cu_id = Param.Int("CU id")
     vrf_to_coalescer_bus_width = Param.Int(
         64, "VRF->Coalescer data bus " "width in bytes"
     )
     coalescer_to_vrf_bus_width = Param.Int(
         64, "Coalescer->VRF data bus " "width  in bytes"
     )

     memory_port = VectorRequestPort("Port to the memory system")
     translation_port = VectorRequestPort("Port to the TLB hierarchy")
     sqc_port = RequestPort("Port to the SQC (I-cache")
     sqc_tlb_port = RequestPort("Port to the TLB for the SQC (I-cache)")
     scalar_port = RequestPort("Port to the scalar data cache")
     scalar_tlb_port = RequestPort("Port to the TLB for the scalar data cache")
     gmTokenPort = RequestPort("Port to the GPU coalesecer for sharing tokens")

     perLaneTLB = Param.Bool(False, "enable per-lane TLB")
     prefetch_depth = Param.Int(
         0,
         "Number of prefetches triggered at a time" "(0 turns off prefetching)",
     )
     prefetch_stride = Param.Int(1, "Fixed Prefetch Stride (1 means next-page)")
     prefetch_prev_type = Param.PrefetchType(
         "PF_PHASE",
         "Prefetch the stride "
         "from last mem req in lane of "
         "CU|Phase|Wavefront",
     )
     execPolicy = Param.String("OLDEST-FIRST", "WF execution selection policy")
     debugSegFault = Param.Bool(False, "enable debugging GPU seg faults")
     functionalTLB = Param.Bool(False, "Assume TLB causes no delay")

     localMemBarrier = Param.Bool(
         False, "Assume Barriers do not wait on " "kernel end"
     )

     countPages = Param.Bool(
         False,
         "Generate per-CU file of all pages " "touched and how many times",
     )
     scalar_mem_queue_size = Param.Int(
         32, "Number of entries in scalar " "memory pipeline's queues"
     )
     global_mem_queue_size = Param.Int(
         256, "Number of entries in the global " "memory pipeline's queues"
     )
     local_mem_queue_size = Param.Int(
         256, "Number of entries in the local " "memory pipeline's queues"
     )
     max_wave_requests = Param.Int(
         64, "number of pending vector memory " "requests per wavefront"
     )
     max_cu_tokens = Param.Int(
         4,
         "Maximum number of tokens, i.e., the number"
         " of instructions that can be sent to coalescer",
     )
     ldsBus = Bridge()  # the bridge between the CU and its LDS
     ldsPort = RequestPort("The port that goes to the LDS")
     localDataStore = Param.LdsState("the LDS for this CU")

     vector_register_file = VectorParam.VectorRegisterFile(
         "Vector register " "file"
     )

     scalar_register_file = VectorParam.ScalarRegisterFile(
         "Scalar register " "file"
     )
     out_of_order_data_delivery = Param.Bool(
         False, "enable OoO data delivery" " in the GM pipeline"
     )
     register_manager = Param.RegisterManager("Register Manager")
     fetch_depth = Param.Int(
         2, "number of i-cache lines that may be " "buffered in the fetch unit."
     )


 class Shader(ClockedObject):
     type = "Shader"
     cxx_class = "gem5::Shader"
     cxx_header = "gpu-compute/shader.hh"
     CUs = VectorParam.ComputeUnit("Number of compute units")
     gpu_cmd_proc = Param.GPUCommandProcessor("Command processor for GPU")
     dispatcher = Param.GPUDispatcher("GPU workgroup dispatcher")
     system_hub = Param.AMDGPUSystemHub(NULL, "GPU System Hub (FS Mode only)")
     n_wf = Param.Int(10, "Number of wavefront slots per SIMD")
     impl_kern_launch_acq = Param.Bool(
         True,
         """Insert acq packet into
                                          ruby at kernel launch""",
     )
     impl_kern_end_rel = Param.Bool(
         False,
         """Insert rel packet into
                                          ruby at kernel end""",
     )
     globalmem = Param.MemorySize("64kB", "Memory size")
     timing = Param.Bool(False, "timing memory accesses")

     cpu_pointer = Param.BaseCPU(NULL, "pointer to base CPU")
     translation = Param.Bool(False, "address translation")
     timer_period = Param.Clock("10us", "system timer period")
     idlecu_timeout = Param.Tick(0, "Idle CU watchdog timeout threshold")
     max_valu_insts = Param.Int(0, "Maximum vALU insts before exiting")


 class GPUComputeDriver(EmulatedDriver):
     type = "GPUComputeDriver"
     cxx_class = "gem5::GPUComputeDriver"
     cxx_header = "gpu-compute/gpu_compute_driver.hh"
     device = Param.GPUCommandProcessor("GPU controlled by this driver")
     isdGPU = Param.Bool(False, "Driver is for a dGPU")
     gfxVersion = Param.GfxVersion("gfx801", "ISA of gpu to model")
     dGPUPoolID = Param.Int(0, "Pool ID for dGPU.")
     # Default Mtype for caches
     # --     1   1   1   C_RW_S  (Cached-ReadWrite-Shared)
     # --     1   1   0   C_RW_US (Cached-ReadWrite-Unshared)
     # --     1   0   1   C_RO_S  (Cached-ReadOnly-Shared)
     # --     1   0   0   C_RO_US (Cached-ReadOnly-Unshared)
     # --     0   1   x   UC_L2   (Uncached_GL2)
     # --     0   0   x   UC_All  (Uncached_All_Load)
     # default value: 5/C_RO_S (only allow caching in GL2 for read. Shared)
     m_type = Param.Int("Default MTYPE for cache. Valid values between 0-7")


 class GPURenderDriver(EmulatedDriver):
     type = "GPURenderDriver"
     cxx_class = "gem5::GPURenderDriver"
     cxx_header = "gpu-compute/gpu_render_driver.hh"


 class GPUDispatcher(SimObject):
     type = "GPUDispatcher"
     cxx_class = "gem5::GPUDispatcher"
     cxx_header = "gpu-compute/dispatcher.hh"


 class GPUCommandProcessor(DmaVirtDevice):
     type = "GPUCommandProcessor"
     cxx_class = "gem5::GPUCommandProcessor"
     cxx_header = "gpu-compute/gpu_command_processor.hh"
     dispatcher = Param.GPUDispatcher("workgroup dispatcher for the GPU")

     hsapp = Param.HSAPacketProcessor("PP attached to this device")
     walker = Param.VegaPagetableWalker(
         VegaPagetableWalker(), "Page table walker"
     )


 class StorageClassType(Enum):
     vals = [
         "SC_SPILL",
         "SC_GLOBAL",
         "SC_GROUP",
         "SC_PRIVATE",
         "SC_READONLY",
         "SC_KERNARG",
         "SC_ARG",
         "SC_NONE",
     ]
	# Copyright (c) 2015-2018 Advanced Micro Devices, Inc.
	# All rights reserved.
	#
	# 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.

	from m5.defines import buildEnv
	from m5.params import *
	from m5.proxy import *
	from m5.SimObject import SimObject

	from m5.objects.Bridge import Bridge
	from m5.objects.ClockedObject import ClockedObject
	from m5.objects.Device import DmaVirtDevice
	from m5.objects.LdsState import LdsState
	from m5.objects.Process import EmulatedDriver
	from m5.objects.VegaGPUTLB import VegaPagetableWalker


	class PrefetchType(Enum):
	vals = ["PF_CU", "PF_PHASE", "PF_WF", "PF_STRIDE", "PF_END"]


	class GfxVersion(ScopedEnum):
	vals = ["gfx801", "gfx803", "gfx900", "gfx902"]


	class PoolManager(SimObject):
	type = "PoolManager"
	abstract = True
	cxx_class = "gem5::PoolManager"
	cxx_header = "gpu-compute/pool_manager.hh"

	min_alloc = Param.Int(4, "min number of VGPRs allocated per WF")
	pool_size = Param.Int(2048, "number of vector registers per SIMD")


	# The simple pool manage only allows one workgroup to
	# be executing on a CU at any given time.
	class SimplePoolManager(PoolManager):
	type = "SimplePoolManager"
	cxx_class = "gem5::SimplePoolManager"
	cxx_header = "gpu-compute/simple_pool_manager.hh"


	## This is for allowing multiple workgroups on one CU
	class DynPoolManager(PoolManager):
	type = "DynPoolManager"
	cxx_class = "gem5::DynPoolManager"
	cxx_header = "gpu-compute/dyn_pool_manager.hh"


	class RegisterFile(SimObject):
	type = "RegisterFile"
	cxx_class = "gem5::RegisterFile"
	cxx_header = "gpu-compute/register_file.hh"

	simd_id = Param.Int(-1, "SIMD ID associated with this Register File")
	num_regs = Param.Int(2048, "number of registers in this RF")
	wf_size = Param.Int(64, "Wavefront size (in work items)")


	class ScalarRegisterFile(RegisterFile):
	type = "ScalarRegisterFile"
	cxx_class = "gem5::ScalarRegisterFile"
	cxx_header = "gpu-compute/scalar_register_file.hh"


	class VectorRegisterFile(RegisterFile):
	type = "VectorRegisterFile"
	cxx_class = "gem5::VectorRegisterFile"
	cxx_header = "gpu-compute/vector_register_file.hh"


	class RegisterManager(SimObject):
	type = "RegisterManager"
	cxx_class = "gem5::RegisterManager"
	cxx_header = "gpu-compute/register_manager.hh"

	policy = Param.String("static", "Register Manager Policy")
	vrf_pool_managers = VectorParam.PoolManager("VRF Pool Managers")
	srf_pool_managers = VectorParam.PoolManager("SRF Pool Managers")


	class Wavefront(SimObject):
	type = "Wavefront"
	cxx_class = "gem5::Wavefront"
	cxx_header = "gpu-compute/wavefront.hh"

	simdId = Param.Int("SIMD id (0-ComputeUnit.num_SIMDs)")
	wf_slot_id = Param.Int("wavefront id (0-ComputeUnit.max_wfs)")
	wf_size = Param.Int(64, "Wavefront size (in work items)")
	max_ib_size = Param.Int(
	13,
	"Maximum size (in number of insts) of the " "instruction buffer (IB).",
	)


	# Most of the default values here are obtained from the
	# AMD Graphics Core Next (GCN) Architecture whitepaper.
	class ComputeUnit(ClockedObject):
	type = "ComputeUnit"
	cxx_class = "gem5::ComputeUnit"
	cxx_header = "gpu-compute/compute_unit.hh"

	wavefronts = VectorParam.Wavefront("Number of wavefronts")
	# Wavefront size is 64. This is configurable, however changing
	# this value to anything other than 64 will likely cause errors.
	wf_size = Param.Int(64, "Wavefront size (in work items)")
	num_barrier_slots = Param.Int(4, "Number of barrier slots in a CU")
	num_SIMDs = Param.Int(4, "number of SIMD units per CU")
	num_scalar_cores = Param.Int(1, "number of Scalar cores per CU")
	num_scalar_mem_pipes = Param.Int(
	1, "number of Scalar memory pipelines " "per CU"
	)
	simd_width = Param.Int(16, "width (number of lanes) per SIMD unit")

	operand_network_length = Param.Int(
	1, "number of pipe stages of operand " "network"
	)

	spbypass_pipe_length = Param.Int(
	4, "vector ALU Single Precision bypass " "latency"
	)

	dpbypass_pipe_length = Param.Int(
	4, "vector ALU Double Precision bypass " "latency"
	)
	scalar_pipe_length = Param.Int(1, "number of pipe stages per scalar ALU")
	issue_period = Param.Int(4, "number of cycles per issue period")

	vrf_gm_bus_latency = Param.Int(
	1, "number of cycles per use of VRF to " "GM bus"
	)
	srf_scm_bus_latency = Param.Int(
	1, "number of cycles per use of SRF " "to Scalar Mem bus"
	)
	vrf_lm_bus_latency = Param.Int(
	1, "number of cycles per use of VRF to " "LM bus"
	)

	num_global_mem_pipes = Param.Int(1, "number of global memory pipes per CU")
	num_shared_mem_pipes = Param.Int(1, "number of shared memory pipes per CU")
	n_wf = Param.Int(10, "Number of wavefront slots per SIMD")
	mem_req_latency = Param.Int(
	50,
	"Latency for request from the cu to ruby. "
	"Represents the pipeline to reach the TCP "
	"and specified in GPU clock cycles",
	)
	mem_resp_latency = Param.Int(
	50,
	"Latency for responses from ruby to the "
	"cu. Represents the pipeline between the "
	"TCP and cu as well as TCP data array "
	"access. Specified in GPU clock cycles",
	)
	system = Param.System(Parent.any, "system object")
	cu_id = Param.Int("CU id")
	vrf_to_coalescer_bus_width = Param.Int(
	64, "VRF->Coalescer data bus " "width in bytes"
	)
	coalescer_to_vrf_bus_width = Param.Int(
	64, "Coalescer->VRF data bus " "width in bytes"
	)

	memory_port = VectorRequestPort("Port to the memory system")
	translation_port = VectorRequestPort("Port to the TLB hierarchy")
	sqc_port = RequestPort("Port to the SQC (I-cache")
	sqc_tlb_port = RequestPort("Port to the TLB for the SQC (I-cache)")
	scalar_port = RequestPort("Port to the scalar data cache")
	scalar_tlb_port = RequestPort("Port to the TLB for the scalar data cache")
	gmTokenPort = RequestPort("Port to the GPU coalesecer for sharing tokens")

	perLaneTLB = Param.Bool(False, "enable per-lane TLB")
	prefetch_depth = Param.Int(
	0,
	"Number of prefetches triggered at a time" "(0 turns off prefetching)",
	)
	prefetch_stride = Param.Int(1, "Fixed Prefetch Stride (1 means next-page)")
	prefetch_prev_type = Param.PrefetchType(
	"PF_PHASE",
	"Prefetch the stride "
	"from last mem req in lane of "
	"CU\|Phase\|Wavefront",
	)
	execPolicy = Param.String("OLDEST-FIRST", "WF execution selection policy")
	debugSegFault = Param.Bool(False, "enable debugging GPU seg faults")
	functionalTLB = Param.Bool(False, "Assume TLB causes no delay")

	localMemBarrier = Param.Bool(
	False, "Assume Barriers do not wait on " "kernel end"
	)

	countPages = Param.Bool(
	False,
	"Generate per-CU file of all pages " "touched and how many times",
	)
	scalar_mem_queue_size = Param.Int(
	32, "Number of entries in scalar " "memory pipeline's queues"
	)
	global_mem_queue_size = Param.Int(
	256, "Number of entries in the global " "memory pipeline's queues"
	)
	local_mem_queue_size = Param.Int(
	256, "Number of entries in the local " "memory pipeline's queues"
	)
	max_wave_requests = Param.Int(
	64, "number of pending vector memory " "requests per wavefront"
	)
	max_cu_tokens = Param.Int(
	4,
	"Maximum number of tokens, i.e., the number"
	" of instructions that can be sent to coalescer",
	)
	ldsBus = Bridge() # the bridge between the CU and its LDS
	ldsPort = RequestPort("The port that goes to the LDS")
	localDataStore = Param.LdsState("the LDS for this CU")

	vector_register_file = VectorParam.VectorRegisterFile(
	"Vector register " "file"
	)

	scalar_register_file = VectorParam.ScalarRegisterFile(
	"Scalar register " "file"
	)
	out_of_order_data_delivery = Param.Bool(
	False, "enable OoO data delivery" " in the GM pipeline"
	)
	register_manager = Param.RegisterManager("Register Manager")
	fetch_depth = Param.Int(
	2, "number of i-cache lines that may be " "buffered in the fetch unit."
	)


	class Shader(ClockedObject):
	type = "Shader"
	cxx_class = "gem5::Shader"
	cxx_header = "gpu-compute/shader.hh"
	CUs = VectorParam.ComputeUnit("Number of compute units")
	gpu_cmd_proc = Param.GPUCommandProcessor("Command processor for GPU")
	dispatcher = Param.GPUDispatcher("GPU workgroup dispatcher")
	system_hub = Param.AMDGPUSystemHub(NULL, "GPU System Hub (FS Mode only)")
	n_wf = Param.Int(10, "Number of wavefront slots per SIMD")
	impl_kern_launch_acq = Param.Bool(
	True,
	"""Insert acq packet into
	ruby at kernel launch""",
	)
	impl_kern_end_rel = Param.Bool(
	False,
	"""Insert rel packet into
	ruby at kernel end""",
	)
	globalmem = Param.MemorySize("64kB", "Memory size")
	timing = Param.Bool(False, "timing memory accesses")

	cpu_pointer = Param.BaseCPU(NULL, "pointer to base CPU")
	translation = Param.Bool(False, "address translation")
	timer_period = Param.Clock("10us", "system timer period")
	idlecu_timeout = Param.Tick(0, "Idle CU watchdog timeout threshold")
	max_valu_insts = Param.Int(0, "Maximum vALU insts before exiting")


	class GPUComputeDriver(EmulatedDriver):
	type = "GPUComputeDriver"
	cxx_class = "gem5::GPUComputeDriver"
	cxx_header = "gpu-compute/gpu_compute_driver.hh"
	device = Param.GPUCommandProcessor("GPU controlled by this driver")
	isdGPU = Param.Bool(False, "Driver is for a dGPU")
	gfxVersion = Param.GfxVersion("gfx801", "ISA of gpu to model")
	dGPUPoolID = Param.Int(0, "Pool ID for dGPU.")
	# Default Mtype for caches
	# -- 1 1 1 C_RW_S (Cached-ReadWrite-Shared)
	# -- 1 1 0 C_RW_US (Cached-ReadWrite-Unshared)
	# -- 1 0 1 C_RO_S (Cached-ReadOnly-Shared)
	# -- 1 0 0 C_RO_US (Cached-ReadOnly-Unshared)
	# -- 0 1 x UC_L2 (Uncached_GL2)
	# -- 0 0 x UC_All (Uncached_All_Load)
	# default value: 5/C_RO_S (only allow caching in GL2 for read. Shared)
	m_type = Param.Int("Default MTYPE for cache. Valid values between 0-7")


	class GPURenderDriver(EmulatedDriver):
	type = "GPURenderDriver"
	cxx_class = "gem5::GPURenderDriver"
	cxx_header = "gpu-compute/gpu_render_driver.hh"


	class GPUDispatcher(SimObject):
	type = "GPUDispatcher"
	cxx_class = "gem5::GPUDispatcher"
	cxx_header = "gpu-compute/dispatcher.hh"


	class GPUCommandProcessor(DmaVirtDevice):
	type = "GPUCommandProcessor"
	cxx_class = "gem5::GPUCommandProcessor"
	cxx_header = "gpu-compute/gpu_command_processor.hh"
	dispatcher = Param.GPUDispatcher("workgroup dispatcher for the GPU")

	hsapp = Param.HSAPacketProcessor("PP attached to this device")
	walker = Param.VegaPagetableWalker(
	VegaPagetableWalker(), "Page table walker"
	)


	class StorageClassType(Enum):
	vals = [
	"SC_SPILL",
	"SC_GLOBAL",
	"SC_GROUP",
	"SC_PRIVATE",
	"SC_READONLY",
	"SC_KERNARG",
	"SC_ARG",
	"SC_NONE",
	]