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      1 //===---- AMDILDevice.h - Define Device Data for AMDIL -----*- C++ -*------===//
      2 //
      3 //                     The LLVM Compiler Infrastructure
      4 //
      5 // This file is distributed under the University of Illinois Open Source
      6 // License. See LICENSE.TXT for details.
      7 //
      8 //==-----------------------------------------------------------------------===//
      9 //
     10 // Interface for the subtarget data classes.
     11 //
     12 //===----------------------------------------------------------------------===//
     13 // This file will define the interface that each generation needs to
     14 // implement in order to correctly answer queries on the capabilities of the
     15 // specific hardware.
     16 //===----------------------------------------------------------------------===//
     17 #ifndef _AMDILDEVICEIMPL_H_
     18 #define _AMDILDEVICEIMPL_H_
     19 #include "AMDIL.h"
     20 #include "llvm/ADT/BitVector.h"
     21 
     22 namespace llvm {
     23   class AMDGPUSubtarget;
     24   class MCStreamer;
     25 //===----------------------------------------------------------------------===//
     26 // Interface for data that is specific to a single device
     27 //===----------------------------------------------------------------------===//
     28 class AMDGPUDevice {
     29 public:
     30   AMDGPUDevice(AMDGPUSubtarget *ST);
     31   virtual ~AMDGPUDevice();
     32 
     33   // Enum values for the various memory types.
     34   enum {
     35     RAW_UAV_ID   = 0,
     36     ARENA_UAV_ID = 1,
     37     LDS_ID       = 2,
     38     GDS_ID       = 3,
     39     SCRATCH_ID   = 4,
     40     CONSTANT_ID  = 5,
     41     GLOBAL_ID    = 6,
     42     MAX_IDS      = 7
     43   } IO_TYPE_IDS;
     44 
     45   // Returns the max LDS size that the hardware supports.  Size is in
     46   // bytes.
     47   virtual size_t getMaxLDSSize() const = 0;
     48 
     49   // Returns the max GDS size that the hardware supports if the GDS is
     50   // supported by the hardware.  Size is in bytes.
     51   virtual size_t getMaxGDSSize() const;
     52 
     53   // Returns the max number of hardware constant address spaces that
     54   // are supported by this device.
     55   virtual size_t getMaxNumCBs() const;
     56 
     57   // Returns the max number of bytes a single hardware constant buffer
     58   // can support.  Size is in bytes.
     59   virtual size_t getMaxCBSize() const;
     60 
     61   // Returns the max number of bytes allowed by the hardware scratch
     62   // buffer.  Size is in bytes.
     63   virtual size_t getMaxScratchSize() const;
     64 
     65   // Get the flag that corresponds to the device.
     66   virtual uint32_t getDeviceFlag() const;
     67 
     68   // Returns the number of work-items that exist in a single hardware
     69   // wavefront.
     70   virtual size_t getWavefrontSize() const = 0;
     71 
     72   // Get the generational name of this specific device.
     73   virtual uint32_t getGeneration() const = 0;
     74 
     75   // Get the stack alignment of this specific device.
     76   virtual uint32_t getStackAlignment() const;
     77 
     78   // Get the resource ID for this specific device.
     79   virtual uint32_t getResourceID(uint32_t DeviceID) const = 0;
     80 
     81   // Get the max number of UAV's for this device.
     82   virtual uint32_t getMaxNumUAVs() const = 0;
     83 
     84   // API utilizing more detailed capabilities of each family of
     85   // cards. If a capability is supported, then either usesHardware or
     86   // usesSoftware returned true.  If usesHardware returned true, then
     87   // usesSoftware must return false for the same capability.  Hardware
     88   // execution means that the feature is done natively by the hardware
     89   // and is not emulated by the softare.  Software execution means
     90   // that the feature could be done in the hardware, but there is
     91   // software that emulates it with possibly using the hardware for
     92   // support since the hardware does not fully comply with OpenCL
     93   // specs.
     94   bool isSupported(AMDGPUDeviceInfo::Caps Mode) const;
     95   bool usesHardware(AMDGPUDeviceInfo::Caps Mode) const;
     96   bool usesSoftware(AMDGPUDeviceInfo::Caps Mode) const;
     97   virtual std::string getDataLayout() const;
     98   static const unsigned int MAX_LDS_SIZE_700 = 16384;
     99   static const unsigned int MAX_LDS_SIZE_800 = 32768;
    100   static const unsigned int WavefrontSize = 64;
    101   static const unsigned int HalfWavefrontSize = 32;
    102   static const unsigned int QuarterWavefrontSize = 16;
    103 protected:
    104   virtual void setCaps();
    105   llvm::BitVector mHWBits;
    106   llvm::BitVector mSWBits;
    107   AMDGPUSubtarget *mSTM;
    108   uint32_t mDeviceFlag;
    109 private:
    110   AMDGPUDeviceInfo::ExecutionMode
    111   getExecutionMode(AMDGPUDeviceInfo::Caps Caps) const;
    112 }; // AMDILDevice
    113 
    114 } // namespace llvm
    115 #endif // _AMDILDEVICEIMPL_H_
    116