//===-- Device.td - Device definitions for Offload ---------*- tablegen -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file contains Offload API definitions related to the Device handle // //===----------------------------------------------------------------------===// def ol_device_type_t : Enum { let desc = "Supported device types."; let etors =[ Etor<"DEFAULT", "The default device type as preferred by the runtime">, Etor<"ALL", "Devices of all types">, Etor<"GPU", "GPU device type">, Etor<"CPU", "CPU device type">, Etor<"Host", "Host device type">, ]; } def ol_device_info_t : Enum { let desc = "Supported device info."; let is_typed = 1; list basic_etors =[ TaggedEtor<"TYPE", "ol_device_type_t", "type of the device">, TaggedEtor<"PLATFORM", "ol_platform_handle_t", "the platform associated with the device">, TaggedEtor<"NAME", "char[]", "Device name">, TaggedEtor<"PRODUCT_NAME", "char[]", "Device user-facing marketing name">, TaggedEtor<"UID", "char[]", "Device UID">, TaggedEtor<"VENDOR", "char[]", "Device vendor">, TaggedEtor<"DRIVER_VERSION", "char[]", "Driver version">, TaggedEtor<"MAX_WORK_GROUP_SIZE", "uint32_t", "Maximum total work group size in work items">, TaggedEtor<"MAX_WORK_GROUP_SIZE_PER_DIMENSION", "ol_dimensions_t", "Maximum work group size in each dimension">, TaggedEtor<"MAX_WORK_SIZE", "uint32_t", "Maximum total work items">, TaggedEtor<"MAX_WORK_SIZE_PER_DIMENSION", "ol_dimensions_t", "Maximum work items in each dimension">, TaggedEtor<"VENDOR_ID", "uint32_t", "A unique vendor device identifier assigned by PCI-SIG">, TaggedEtor<"NUM_COMPUTE_UNITS", "uint32_t", "The number of parallel compute units available to the device">, TaggedEtor<"MAX_CLOCK_FREQUENCY", "uint32_t", "The maximum configured clock frequency of this device in MHz">, TaggedEtor<"MEMORY_CLOCK_RATE", "uint32_t", "Memory clock frequency in MHz">, TaggedEtor<"ADDRESS_BITS", "uint32_t", "Number of bits used to represent an address in device memory">, TaggedEtor<"MAX_MEM_ALLOC_SIZE", "uint64_t", "The maximum size of memory object allocation in bytes">, TaggedEtor<"GLOBAL_MEM_SIZE", "uint64_t", "The size of global device memory in bytes">, TaggedEtor<"WORK_GROUP_LOCAL_MEM_SIZE", "uint64_t", "The maximum size of local shared memory per work group in bytes">, ]; list fp_configs = !foreach(type, ["Single", "Double", "Half"], TaggedEtor); list native_vec_widths = !foreach(type, ["char","short","int","long","float","double","half"], TaggedEtor<"NATIVE_VECTOR_WIDTH_" # type, "uint32_t", "Native vector width for " # type>); let etors = !listconcat(basic_etors, fp_configs, native_vec_widths); } def ol_device_fp_capability_flag_t : Enum { let desc = "Device floating-point capability flags"; let is_bit_field = 1; let etors =[ Etor<"CORRECTLY_ROUNDED_DIVIDE_SQRT", "Support correctly rounded divide and sqrt">, Etor<"ROUND_TO_NEAREST", "Support round to nearest">, Etor<"ROUND_TO_ZERO", "Support round to zero">, Etor<"ROUND_TO_INF", "Support round to infinity">, Etor<"INF_NAN", "Support INF to NAN">, Etor<"DENORM", "Support denorm">, Etor<"FMA", "Support fused multiply-add">, Etor<"SOFT_FLOAT", "Basic floating point operations implemented in software">, ]; } def ol_device_fp_capability_flags_t : Typedef { let desc = "Device floating-point capability flags"; let value = "uint32_t"; } def ol_device_iterate_cb_t : FptrTypedef { let desc = "User-provided function to be used with `olIterateDevices`"; let params = [ Param<"ol_device_handle_t", "Device", "the device handle of the current iteration", PARAM_IN>, Param<"void*", "UserData", "optional user data", PARAM_IN_OPTIONAL> ]; let return = "bool"; } def olIterateDevices : Function { let desc = "Iterates over all available devices, calling the callback for each device."; let details = [ "If the user-provided callback returns `false`, the iteration is stopped." ]; let params = [ Param<"ol_device_iterate_cb_t", "Callback", "User-provided function called for each available device", PARAM_IN>, Param<"void*", "UserData", "Optional user data to pass to the callback", PARAM_IN_OPTIONAL> ]; let returns = [ Return<"OL_ERRC_INVALID_DEVICE"> ]; } def olGetDeviceInfo : Function { let desc = "Queries the given property of the device."; let details = []; let params = [ Param<"ol_device_handle_t", "Device", "handle of the device instance", PARAM_IN>, Param<"ol_device_info_t", "PropName", "type of the info to retrieve", PARAM_IN>, Param<"size_t", "PropSize", "the number of bytes pointed to by PropValue.", PARAM_IN>, TypeTaggedParam<"void*", "PropValue", "array of bytes holding the info. If PropSize is not equal to or greater than the real " "number of bytes needed to return the info then the OL_ERRC_INVALID_SIZE error is returned and " "PropValue is not used.", PARAM_OUT, TypeInfo<"PropName" , "PropSize">> ]; let returns = [ Return<"OL_ERRC_UNSUPPORTED_ENUMERATION", [ "If `PropName` is not supported by the device." ]>, Return<"OL_ERRC_INVALID_SIZE", [ "`PropSize == 0`", "If `PropSize` is less than the real number of bytes needed to return the info." ]>, Return<"OL_ERRC_INVALID_DEVICE"> ]; } def olGetDeviceInfoSize : Function { let desc = "Returns the storage size of the given device query."; let details = []; let params = [ Param<"ol_device_handle_t", "Device", "handle of the device instance", PARAM_IN>, Param<"ol_device_info_t", "PropName", "type of the info to retrieve", PARAM_IN>, Param<"size_t*", "PropSizeRet", "pointer to the number of bytes required to store the query", PARAM_OUT> ]; let returns = [ Return<"OL_ERRC_UNSUPPORTED_ENUMERATION", [ "If `PropName` is not supported by the device." ]>, Return<"OL_ERRC_INVALID_DEVICE"> ]; }