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gem5
v21.2.1.0
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gem5
v21.2.1.0
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#include <gpu_command_processor.hh>
Public Types | |
| enum | AgentCmd { Nop = 0, Steal = 1 } |
| typedef GPUCommandProcessorParams | Params |
| typedef std::function< void(const uint64_t &)> | HsaSignalCallbackFunction |
 Public Types inherited from gem5::DmaVirtDevice | |
| typedef void(DmaDevice::* | DmaFnPtr) (Addr, int, Event *, uint8_t *, Tick) |
| Public Types inherited from gem5::DmaDevice | |
| typedef DmaDeviceParams | Params |
| Public Types inherited from gem5::PioDevice | |
| using | Params = PioDeviceParams |
| Public Types inherited from gem5::ClockedObject | |
| using | Params = ClockedObjectParams |
| Parameters of ClockedObject. More... | |
| Public Types inherited from gem5::SimObject | |
| typedef SimObjectParams | Params |
Public Member Functions | |
| GPUCommandProcessor ()=delete | |
| GPUCommandProcessor (const Params &p) | |
| HSAPacketProcessor & | hsaPacketProc () |
| void | setShader (Shader *shader) |
| Shader * | shader () |
| GPUComputeDriver * | driver () |
| void | submitAgentDispatchPkt (void *raw_pkt, uint32_t queue_id, Addr host_pkt_addr) |
| submitAgentDispatchPkt() is for accepting agent dispatch packets. More... | |
| void | submitDispatchPkt (void *raw_pkt, uint32_t queue_id, Addr host_pkt_addr) |
| submitDispatchPkt() is the entry point into the CP from the HSAPP and is only meant to be used with AQL kernel dispatch packets. More... | |
| void | submitVendorPkt (void *raw_pkt, uint32_t queue_id, Addr host_pkt_addr) |
| submitVendorPkt() is for accepting vendor-specific packets from the HSAPP. More... | |
| void | attachDriver (GPUComputeDriver *driver) |
| void | dispatchPkt (HSAQueueEntry *task) |
| Once the CP has finished extracting all relevant information about a task and has initialized the ABI state, we send a description of the task to the dispatcher. More... | |
| void | signalWakeupEvent (uint32_t event_id) |
| Tick | write (PacketPtr pkt) override |
| Pure virtual function that the device must implement. More... | |
| Tick | read (PacketPtr pkt) override |
| Pure virtual function that the device must implement. More... | |
| AddrRangeList | getAddrRanges () const override |
| Every PIO device is obliged to provide an implementation that returns the address ranges the device responds to. More... | |
| System * | system () |
| void | updateHsaSignal (Addr signal_handle, uint64_t signal_value, HsaSignalCallbackFunction function=[](const uint64_t &) { }) |
| uint64_t | functionalReadHsaSignal (Addr signal_handle) |
| Addr | getHsaSignalValueAddr (Addr signal_handle) |
| Addr | getHsaSignalMailboxAddr (Addr signal_handle) |
| Addr | getHsaSignalEventAddr (Addr signal_handle) |
| Public Member Functions inherited from gem5::DmaVirtDevice | |
| DmaVirtDevice (const Params &p) | |
| virtual | ~DmaVirtDevice () |
| void | dmaReadVirt (Addr host_addr, unsigned size, DmaCallback *cb, void *data, Tick delay=0) |
| Initiate a DMA read from virtual address host_addr. More... | |
| void | dmaWriteVirt (Addr host_addr, unsigned size, DmaCallback *b, void *data, Tick delay=0) |
| Initiate a DMA write from virtual address host_addr. More... | |
| void | dmaVirt (DmaFnPtr dmaFn, Addr host_addr, unsigned size, DmaCallback *cb, void *data, Tick delay=0) |
| Initiate a call to DmaDevice using DmaFnPtr do a DMA starting from virtual address host_addr for size number of bytes on the data. More... | |
| Public Member Functions inherited from gem5::DmaDevice | |
| DmaDevice (const Params &p) | |
| virtual | ~DmaDevice ()=default |
| void | dmaWrite (Addr addr, int size, Event *event, uint8_t *data, uint32_t sid, uint32_t ssid, Tick delay=0) |
| void | dmaWrite (Addr addr, int size, Event *event, uint8_t *data, Tick delay=0) |
| void | dmaRead (Addr addr, int size, Event *event, uint8_t *data, uint32_t sid, uint32_t ssid, Tick delay=0) |
| void | dmaRead (Addr addr, int size, Event *event, uint8_t *data, Tick delay=0) |
| bool | dmaPending () const |
| void | init () override |
| init() is called after all C++ SimObjects have been created and all ports are connected. More... | |
| unsigned int | cacheBlockSize () const |
| Port & | getPort (const std::string &if_name, PortID idx=InvalidPortID) override |
| Get a port with a given name and index. More... | |
| Public Member Functions inherited from gem5::PioDevice | |
| PioDevice (const Params &p) | |
| virtual | ~PioDevice () |
| void | init () override |
| init() is called after all C++ SimObjects have been created and all ports are connected. More... | |
| Port & | getPort (const std::string &if_name, PortID idx=InvalidPortID) override |
| Get a port with a given name and index. More... | |
| Public Member Functions inherited from gem5::ClockedObject | |
| ClockedObject (const ClockedObjectParams &p) | |
| void | serialize (CheckpointOut &cp) const override |
| Serialize an object. More... | |
| void | unserialize (CheckpointIn &cp) override |
| Unserialize an object. More... | |
| Public Member Functions inherited from gem5::SimObject | |
| const Params & | params () const |
| SimObject (const Params &p) | |
| virtual | ~SimObject () |
| virtual void | loadState (CheckpointIn &cp) |
| loadState() is called on each SimObject when restoring from a checkpoint. More... | |
| virtual void | initState () |
| initState() is called on each SimObject when not restoring from a checkpoint. More... | |
| virtual void | regProbePoints () |
| Register probe points for this object. More... | |
| virtual void | regProbeListeners () |
| Register probe listeners for this object. More... | |
| ProbeManager * | getProbeManager () |
| Get the probe manager for this object. More... | |
| virtual void | startup () |
| startup() is the final initialization call before simulation. More... | |
| DrainState | drain () override |
| Provide a default implementation of the drain interface for objects that don't need draining. More... | |
| virtual void | memWriteback () |
| Write back dirty buffers to memory using functional writes. More... | |
| virtual void | memInvalidate () |
| Invalidate the contents of memory buffers. More... | |
| void | serialize (CheckpointOut &cp) const override |
| Serialize an object. More... | |
| void | unserialize (CheckpointIn &cp) override |
| Unserialize an object. More... | |
| Public Member Functions inherited from gem5::EventManager | |
| EventQueue * | eventQueue () const |
| void | schedule (Event &event, Tick when) |
| void | deschedule (Event &event) |
| void | reschedule (Event &event, Tick when, bool always=false) |
| void | schedule (Event *event, Tick when) |
| void | deschedule (Event *event) |
| void | reschedule (Event *event, Tick when, bool always=false) |
| void | wakeupEventQueue (Tick when=(Tick) -1) |
| This function is not needed by the usual gem5 event loop but may be necessary in derived EventQueues which host gem5 on other schedulers. More... | |
| void | setCurTick (Tick newVal) |
| EventManager (EventManager &em) | |
| Event manger manages events in the event queue. More... | |
| EventManager (EventManager *em) | |
| EventManager (EventQueue *eq) | |
| Public Member Functions inherited from gem5::Serializable | |
| Serializable () | |
| virtual | ~Serializable () |
| void | serializeSection (CheckpointOut &cp, const char *name) const |
| Serialize an object into a new section. More... | |
| void | serializeSection (CheckpointOut &cp, const std::string &name) const |
| void | unserializeSection (CheckpointIn &cp, const char *name) |
| Unserialize an a child object. More... | |
| void | unserializeSection (CheckpointIn &cp, const std::string &name) |
| Public Member Functions inherited from gem5::Drainable | |
| DrainState | drainState () const |
| Return the current drain state of an object. More... | |
| virtual void | notifyFork () |
| Notify a child process of a fork. More... | |
| Public Member Functions inherited from gem5::statistics::Group | |
| Group (Group *parent, const char *name=nullptr) | |
| Construct a new statistics group. More... | |
| virtual | ~Group () |
| virtual void | regStats () |
| Callback to set stat parameters. More... | |
| virtual void | resetStats () |
| Callback to reset stats. More... | |
| virtual void | preDumpStats () |
| Callback before stats are dumped. More... | |
| void | addStat (statistics::Info *info) |
| Register a stat with this group. More... | |
| const std::map< std::string, Group * > & | getStatGroups () const |
| Get all child groups associated with this object. More... | |
| const std::vector< Info * > & | getStats () const |
| Get all stats associated with this object. More... | |
| void | addStatGroup (const char *name, Group *block) |
| Add a stat block as a child of this block. More... | |
| const Info * | resolveStat (std::string name) const |
| Resolve a stat by its name within this group. More... | |
| void | mergeStatGroup (Group *block) |
| Merge the contents (stats & children) of a block to this block. More... | |
| Group ()=delete | |
| Group (const Group &)=delete | |
| Group & | operator= (const Group &)=delete |
| Public Member Functions inherited from gem5::Named | |
| Named (const std::string &name_) | |
| virtual | ~Named ()=default |
| virtual std::string | name () const |
| Public Member Functions inherited from gem5::Clocked | |
| void | updateClockPeriod () |
| Update the tick to the current tick. More... | |
| Tick | clockEdge (Cycles cycles=Cycles(0)) const |
| Determine the tick when a cycle begins, by default the current one, but the argument also enables the caller to determine a future cycle. More... | |
| Cycles | curCycle () const |
| Determine the current cycle, corresponding to a tick aligned to a clock edge. More... | |
| Tick | nextCycle () const |
| Based on the clock of the object, determine the start tick of the first cycle that is at least one cycle in the future. More... | |
| uint64_t | frequency () const |
| Tick | clockPeriod () const |
| double | voltage () const |
| Cycles | ticksToCycles (Tick t) const |
| Tick | cyclesToTicks (Cycles c) const |
Private Types | |
| typedef void(DmaDevice::* | DmaFnPtr) (Addr, int, Event *, uint8_t *, Tick) |
Private Member Functions | |
| void | initABI (HSAQueueEntry *task) |
| The CP is responsible for traversing all HSA-ABI-related data structures from memory and initializing the ABI state. More... | |
| TranslationGenPtr | translate (Addr vaddr, Addr size) override |
| Function used to translate a range of addresses from virtual to physical addresses. More... | |
| void | ReadDispIdOffsetDmaEvent (HSAQueueEntry *task, const uint32_t &readDispIdOffset) |
| Perform a DMA read of the read_dispatch_id_field_base_byte_offset field, which follows directly after the read_dispatch_id (the read pointer) in the amd_hsa_queue_t struct (aka memory queue descriptor (MQD)), to find the base address of the MQD. More... | |
| void | MQDDmaEvent (HSAQueueEntry *task) |
| Perform a DMA read of the MQD that corresponds to a hardware queue descriptor (HQD). More... | |
| void | WaitScratchDmaEvent (HSAQueueEntry *task, const uint64_t &dmaBuffer) |
| Poll on queue_inactive signal until the runtime can get around to taking care of our lack of scratch space. More... | |
Private Attributes | |
| Shader * | _shader |
| GPUDispatcher & | dispatcher |
| GPUComputeDriver * | _driver |
| HSAPacketProcessor * | hsaPP |
Additional Inherited Members | |
| Static Public Member Functions inherited from gem5::SimObject | |
| static void | serializeAll (const std::string &cpt_dir) |
| Create a checkpoint by serializing all SimObjects in the system. More... | |
| static SimObject * | find (const char *name) |
| Find the SimObject with the given name and return a pointer to it. More... | |
| static void | setSimObjectResolver (SimObjectResolver *resolver) |
| There is a single object name resolver, and it is only set when simulation is restoring from checkpoints. More... | |
| static SimObjectResolver * | getSimObjectResolver () |
| There is a single object name resolver, and it is only set when simulation is restoring from checkpoints. More... | |
| Static Public Member Functions inherited from gem5::Serializable | |
| static const std::string & | currentSection () |
| Gets the fully-qualified name of the active section. More... | |
| static void | generateCheckpointOut (const std::string &cpt_dir, std::ofstream &outstream) |
| Generate a checkpoint file so that the serialization can be routed to it. More... | |
| Public Attributes inherited from gem5::ClockedObject | |
| PowerState * | powerState |
| Protected Member Functions inherited from gem5::Drainable | |
| Drainable () | |
| virtual | ~Drainable () |
| virtual void | drainResume () |
| Resume execution after a successful drain. More... | |
| void | signalDrainDone () const |
| Signal that an object is drained. More... | |
| Protected Member Functions inherited from gem5::Clocked | |
| Clocked (ClockDomain &clk_domain) | |
| Create a clocked object and set the clock domain based on the parameters. More... | |
| Clocked (Clocked &)=delete | |
| Clocked & | operator= (Clocked &)=delete |
| virtual | ~Clocked () |
| Virtual destructor due to inheritance. More... | |
| void | resetClock () const |
| Reset the object's clock using the current global tick value. More... | |
| virtual void | clockPeriodUpdated () |
| A hook subclasses can implement so they can do any extra work that's needed when the clock rate is changed. More... | |
| Protected Attributes inherited from gem5::DmaDevice | |
| DmaPort | dmaPort |
| Protected Attributes inherited from gem5::PioDevice | |
| System * | sys |
| PioPort< PioDevice > | pioPort |
| The pioPort that handles the requests for us and provides us requests that it sees. More... | |
| Protected Attributes inherited from gem5::SimObject | |
| const SimObjectParams & | _params |
| Cached copy of the object parameters. More... | |
| Protected Attributes inherited from gem5::EventManager | |
| EventQueue * | eventq |
| A pointer to this object's event queue. More... | |
Definition at line 69 of file gpu_command_processor.hh.
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private |
Definition at line 133 of file gpu_command_processor.hh.
| typedef std::function<void(const uint64_t &)> gem5::GPUCommandProcessor::HsaSignalCallbackFunction |
Definition at line 73 of file gpu_command_processor.hh.
| typedef GPUCommandProcessorParams gem5::GPUCommandProcessor::Params |
Definition at line 72 of file gpu_command_processor.hh.
| Enumerator | |
|---|---|
| Nop | |
| Steal | |
Definition at line 84 of file gpu_command_processor.hh.
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delete |
| gem5::GPUCommandProcessor::GPUCommandProcessor | ( | const Params & | p | ) |
Definition at line 51 of file gpu_command_processor.cc.
References dispatcher, hsaPP, gem5::GPUDispatcher::setCommandProcessor(), and gem5::HSAPacketProcessor::setDevice().
| void gem5::GPUCommandProcessor::attachDriver | ( | GPUComputeDriver * | driver | ) |
Definition at line 221 of file gpu_command_processor.cc.
References _driver, and fatal_if.
Referenced by gem5::GPUComputeDriver::GPUComputeDriver().
| void gem5::GPUCommandProcessor::dispatchPkt | ( | HSAQueueEntry * | task | ) |
Once the CP has finished extracting all relevant information about a task and has initialized the ABI state, we send a description of the task to the dispatcher.
The dispatcher will create and dispatch WGs to the CUs.
Definition at line 315 of file gpu_command_processor.cc.
References gem5::GPUDispatcher::dispatch(), and dispatcher.
Referenced by MQDDmaEvent().
| GPUComputeDriver * gem5::GPUCommandProcessor::driver | ( | ) |
Definition at line 231 of file gpu_command_processor.cc.
References _driver.
Referenced by gem5::ComputeUnit::sendRequest(), and gem5::HSAPacketProcessor::write().
| uint64_t gem5::GPUCommandProcessor::functionalReadHsaSignal | ( | Addr | signal_handle | ) |
Definition at line 177 of file gpu_command_processor.cc.
References getHsaSignalValueAddr(), system(), and gem5::System::threads.
Referenced by gem5::GPUDispatcher::notifyWgCompl(), and gem5::HSAPacketProcessor::processPkt().
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overridevirtual |
Every PIO device is obliged to provide an implementation that returns the address ranges the device responds to.
Implements gem5::PioDevice.
Definition at line 353 of file gpu_command_processor.cc.
Definition at line 122 of file gpu_command_processor.hh.
Referenced by updateHsaSignal().
Definition at line 117 of file gpu_command_processor.hh.
Referenced by updateHsaSignal().
Definition at line 112 of file gpu_command_processor.hh.
Referenced by functionalReadHsaSignal(), updateHsaSignal(), and WaitScratchDmaEvent().
| HSAPacketProcessor & gem5::GPUCommandProcessor::hsaPacketProc | ( | ) |
Definition at line 61 of file gpu_command_processor.cc.
References hsaPP.
Referenced by gem5::GPUComputeDriver::allocateQueue(), gem5::GPUComputeDriver::ioctl(), gem5::GPUComputeDriver::mmap(), and gem5::GPUDispatcher::notifyWgCompl().
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private |
The CP is responsible for traversing all HSA-ABI-related data structures from memory and initializing the ABI state.
Information provided by the MQD, AQL packet, and code object metadata will be used to initialze register file state.
Definition at line 333 of file gpu_command_processor.cc.
References gem5::DmaVirtDevice::DmaVirtCallback< T >::dmaBuffer, gem5::DmaVirtDevice::dmaReadVirt(), gem5::HSAPacketProcessor::getQueueDesc(), hsaPP, gem5::HSAQueueEntry::queueId(), and ReadDispIdOffsetDmaEvent().
Referenced by submitDispatchPkt().
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inlineprivate |
Perform a DMA read of the MQD that corresponds to a hardware queue descriptor (HQD).
We store a copy of the MQD in the HSAQueueEntry object so we can send a copy of it along with a dispatch packet, which is needed to initialize register state.
dGPUs on any version of ROCm and APUs starting with ROCm 2.2 can perform lazy allocation of private segment (scratch) memory, where the runtime will intentianally underallocate scratch resources to save framebuffer (or system on APU) memory. If we don't have enough scratch memory to launch this kernel, we need to raise a recoverable error code to the runtime by asserting queue_inactive_signal for the queue. The runtime will then try to allocate more scratch and reset this signal. When the signal is reset we should check that the runtime was successful and then proceed to launch the kernel.
Definition at line 183 of file gpu_command_processor.hh.
References gem5::HSAQueueEntry::amdQueue, gem5::_amd_queue_t::compute_tmpring_size_wavesize, dispatchPkt(), DPRINTF, fatal_if, gem5::_hsa_signal_t::handle, hsaPP, gem5::HSAPacketProcessor::inFlightPkts(), gem5::HSAQueueEntry::privMemPerItem(), gem5::_amd_queue_t::queue_inactive_signal, gem5::HSAQueueEntry::queueId(), and updateHsaSignal().
Referenced by ReadDispIdOffsetDmaEvent(), and WaitScratchDmaEvent().
Pure virtual function that the device must implement.
Called when a read command is recieved by the port.
| pkt | Packet describing this request |
Implements gem5::PioDevice.
Definition at line 102 of file gpu_command_processor.hh.
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inlineprivate |
Perform a DMA read of the read_dispatch_id_field_base_byte_offset field, which follows directly after the read_dispatch_id (the read pointer) in the amd_hsa_queue_t struct (aka memory queue descriptor (MQD)), to find the base address of the MQD.
The MQD is the runtime's soft representation of a HW queue descriptor (HQD).
Any fields below the read dispatch ID in the amd_hsa_queue_t should not change according to the HSA standard, therefore we should be able to get them based on their known relative position to the read dispatch ID.
Now that the read pointer's offset from the base of the MQD is known, we can use that to calculate the the address of the MQD itself, the dispatcher will DMA that into the HSAQueueEntry when a kernel is launched.
DMA a copy of the MQD into the task. some fields of the MQD will be used to initialize register state in VI
Definition at line 151 of file gpu_command_processor.hh.
References gem5::HSAQueueEntry::amdQueue, gem5::DmaVirtDevice::dmaReadVirt(), gem5::HSAPacketProcessor::getQueueDesc(), gem5::HSAQueueEntry::hostAMDQueueAddr, gem5::HSAQueueDescriptor::hostReadIndexPtr, hsaPP, MQDDmaEvent(), and gem5::HSAQueueEntry::queueId().
Referenced by initABI().
| void gem5::GPUCommandProcessor::setShader | ( | Shader * | shader | ) |
Definition at line 360 of file gpu_command_processor.cc.
| Shader * gem5::GPUCommandProcessor::shader | ( | ) |
Definition at line 366 of file gpu_command_processor.cc.
References _shader.
Referenced by setShader().
| void gem5::GPUCommandProcessor::signalWakeupEvent | ( | uint32_t | event_id | ) |
Definition at line 321 of file gpu_command_processor.cc.
References _driver, and gem5::GPUComputeDriver::signalWakeupEvent().
Referenced by updateHsaSignal().
| void gem5::GPUCommandProcessor::submitAgentDispatchPkt | ( | void * | raw_pkt, |
| uint32_t | queue_id, | ||
| Addr | host_pkt_addr | ||
| ) |
submitAgentDispatchPkt() is for accepting agent dispatch packets.
These packets will control the dispatch of Wg on the device, and inform the host when a specified number of Wg have been executed on the device.
For now it simply finishes the pkt.
Definition at line 268 of file gpu_command_processor.cc.
References gem5::_hsa_agent_dispatch_packet_t::arg, gem5::HSAQueueEntry::completionSignal(), dispatcher, gem5::DmaVirtDevice::dmaWriteVirt(), DPRINTF, gem5::HSAPacketProcessor::finishPkt(), hsaPP, gem5::GPUDispatcher::hsaTask(), Nop(), panic, gem5::_hsa_agent_dispatch_packet_t::return_address, and gem5::_hsa_agent_dispatch_packet_t::type.
Referenced by gem5::HSAPacketProcessor::processPkt().
| void gem5::GPUCommandProcessor::submitDispatchPkt | ( | void * | raw_pkt, |
| uint32_t | queue_id, | ||
| Addr | host_pkt_addr | ||
| ) |
submitDispatchPkt() is the entry point into the CP from the HSAPP and is only meant to be used with AQL kernel dispatch packets.
After the HSAPP receives and extracts an AQL packet, it sends it to the CP, which is responsible for gathering all relevant information about a task, initializing CU state, and sending it to the dispatcher for WG creation and dispatch.
First we need capture all information from the the AQL pkt and the code object, then store it in an HSAQueueEntry. Once the packet and code are extracted, we extract information from the queue descriptor that the CP needs to perform state initialization on the CU. Finally we call dispatch() to send the task to the dispatcher. When the task completely finishes, we call finishPkt() on the HSA packet processor in order to remove the packet from the queue, and notify the runtime that the task has completed.
we need to read a pointer in the application's address space to pull out the kernel code descriptor.
The kernel_object is a pointer to the machine code, whose entry point is an 'amd_kernel_code_t' type, which is included in the kernel binary, and describes various aspects of the kernel. The desired entry is the 'kernel_code_entry_byte_offset' field, which provides the byte offset (positive or negative) from the address of the amd_kernel_code_t to the start of the machine instructions.
BLIT kernels don't have symbol names. BLIT kernels are built-in compute kernels issued by ROCm to handle DMAs for dGPUs when the SDMA hardware engines are unavailable or explicitly disabled. They can also be used to do copies that ROCm things would be better performed by the shader than the SDMA engines. They are also sometimes used on APUs to implement asynchronous memcopy operations from 2 pointers in host memory. I have no idea what BLIT stands for.
Definition at line 95 of file gpu_command_processor.cc.
References gem5::HSAQueueEntry::codeAddr(), gem5::_hsa_dispatch_packet_t::completion_signal, DPRINTF, gem5::FullSystem, gem5::_hsa_dispatch_packet_t::grid_size_x, gem5::_hsa_dispatch_packet_t::grid_size_y, gem5::_hsa_dispatch_packet_t::grid_size_z, initABI(), gem5::_hsa_dispatch_packet_t::kernarg_address, gem5::_hsa_dispatch_packet_t::kernel_object, gem5::HSAQueueEntry::numScalarRegs(), gem5::HSAQueueEntry::numVectorRegs(), gem5::PortProxy::readBlob(), gem5::PioDevice::sys, gem5::System::threads, gem5::_hsa_dispatch_packet_t::workgroup_size_x, gem5::_hsa_dispatch_packet_t::workgroup_size_y, and gem5::_hsa_dispatch_packet_t::workgroup_size_z.
Referenced by gem5::HSAPacketProcessor::processPkt().
| void gem5::GPUCommandProcessor::submitVendorPkt | ( | void * | raw_pkt, |
| uint32_t | queue_id, | ||
| Addr | host_pkt_addr | ||
| ) |
submitVendorPkt() is for accepting vendor-specific packets from the HSAPP.
Vendor-specific packets may be used by the runtime to send commands to the HSA device that are specific to a particular vendor. The vendor-specific packets should be defined by the vendor in the runtime. TODO: For now we simply tell the HSAPP to finish the packet, however a future patch will update this method to provide the proper handling of any required vendor-specific packets. In the version of ROCm that is currently supported (1.6) the runtime will send packets that direct the CP to invalidate the GPUs caches. We do this automatically on each kernel launch in the CU, so this is safe for now.
Definition at line 254 of file gpu_command_processor.cc.
References gem5::HSAPacketProcessor::finishPkt(), and hsaPP.
Referenced by gem5::HSAPacketProcessor::processPkt().
| System * gem5::GPUCommandProcessor::system | ( | ) |
Definition at line 347 of file gpu_command_processor.cc.
References gem5::PioDevice::sys.
Referenced by functionalReadHsaSignal(), and updateHsaSignal().
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overrideprivatevirtual |
Function used to translate a range of addresses from virtual to physical addresses.
All classes inheriting from DmaVirtDevice must define this.
| vaddr | Virtual address of the start of the range |
| size | Size of the range in bytes |
Implements gem5::DmaVirtDevice.
Definition at line 67 of file gpu_command_processor.cc.
References gem5::PioDevice::sys, gem5::System::threads, and gem5::MipsISA::vaddr.
| void gem5::GPUCommandProcessor::updateHsaSignal | ( | Addr | signal_handle, |
| uint64_t | signal_value, | ||
| HsaSignalCallbackFunction | function = [] (const uint64_t &) { } |
||
| ) |
Definition at line 186 of file gpu_command_processor.cc.
References gem5::DmaVirtDevice::dmaWriteVirt(), DPRINTF, getHsaSignalEventAddr(), getHsaSignalMailboxAddr(), getHsaSignalValueAddr(), signalWakeupEvent(), system(), and gem5::System::threads.
Referenced by MQDDmaEvent(), gem5::GPUDispatcher::notifyWgCompl(), and gem5::HSAPacketProcessor::processPkt().
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inlineprivate |
Poll on queue_inactive signal until the runtime can get around to taking care of our lack of scratch space.
Runtime will have updated the MQD to give us more scratch space. Read it out and continue to pester the runtime until we get all that we need to launch.
TODO: Technically only need to update private segment fields since other MQD entries won't change since we last read them.
Poll until runtime signals us that scratch space has been allocated.
Definition at line 237 of file gpu_command_processor.hh.
References gem5::HSAQueueEntry::amdQueue, gem5::DmaVirtDevice::dmaReadVirt(), DPRINTF, getHsaSignalValueAddr(), gem5::_hsa_signal_t::handle, gem5::HSAQueueEntry::hostAMDQueueAddr, MQDDmaEvent(), and gem5::_amd_queue_t::queue_inactive_signal.
Pure virtual function that the device must implement.
Called when a write command is recieved by the port.
| pkt | Packet describing this request |
Implements gem5::PioDevice.
Definition at line 101 of file gpu_command_processor.hh.
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Definition at line 130 of file gpu_command_processor.hh.
Referenced by attachDriver(), driver(), and signalWakeupEvent().
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Definition at line 128 of file gpu_command_processor.hh.
Referenced by setShader(), and shader().
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Definition at line 129 of file gpu_command_processor.hh.
Referenced by dispatchPkt(), GPUCommandProcessor(), and submitAgentDispatchPkt().
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Definition at line 135 of file gpu_command_processor.hh.
Referenced by GPUCommandProcessor(), hsaPacketProc(), initABI(), MQDDmaEvent(), ReadDispIdOffsetDmaEvent(), submitAgentDispatchPkt(), and submitVendorPkt().