wiki:GcnInstrsFlat

Version 11 (modified by trac, 6 years ago) (diff)

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GCN ISA FLAT instructions

These instructions allow to access to main memory, LDS and scratch buffer. FLAT instructions fetch address from 2 vector registers that hold 64-bit address. FLAT instructions presents only in GCN 1.1 or later architecture.

List of fields for the FLAT encoding (GCN 1.1/1.2):

Bits Name Description
0-12 OFFSET Byte offset (GCN 1.4)
13 LDS transfer DATA to LDS and memory (GCN 1.4)
14-15 SEG Memory segment (instrunction type) (GCN 1.4)
16 GLC Operation globally coherent
17 SLC System level coherent
18-24 OPCODE Operation code
25-31 ENCODING Encoding type. Must be 0b110111
32-39 VADDR Vector address registers
40-47 VDATA Vector data register
48-54 SADDR Scalar SGPR offset (0x7f value disables it) (GCN 1.4)
55 TFE Texture Fail Enable ??? (GCN 1.1/1.2)
55 NV Non-Volatile (GCN 1.4)
56-63 VDST Vector destination register

List of fields for the FLAT encoding (GCN 1.4):

Bits Name Description
0-12 OFFSET Byte offset
13 LDS transfer DATA to LDS and memory
14-15 SEG Memory segment (instrunction type)
16 GLC Operation globally coherent
17 SLC System level coherent
18-24 OPCODE Operation code
25-31 ENCODING Encoding type. Must be 0b110111
32-39 VADDR Vector address registers
40-47 VDATA Vector data register
48-54 SADDR Scalar SGPR offset (for GLOBAL/SCRATCH) (0x7f value disables it)
55 NV Non-Volatile
56-63 VDST Vector destination register

Instruction types:

SEG Prefix Description
0 FLAT FLAT instruction (global, private or scratch memory)
1 SCRATCH SCRATCH instruction (only for scratch memory access)
2 GLOBAL GLOBAL instruction (only for global memory access)

Instruction syntax: INSTRUCTION VDST, VADDR(2) [MODIFIERS]
Instruction syntax: INSTRUCTION VADDR(2), VDATA [MODIFIERS]

GLOBAL instruction syntax: INSTRUCTION VDST, VADDR(2), SADDR(2)|OFF [MODIFIERS]
GLOBAL instruction syntax: INSTRUCTION VADDR(1:2), VDATA, SADDR(2)|OFF [MODIFIERS]
SCRATCH instruction syntax: INSTRUCTION VDST, VADDR(2), SADDR|OFF [MODIFIERS]
SCRATCH instruction syntax: INSTRUCTION VADDR, VDATA, SADDR|OFF [MODIFIERS]

Modifiers can be supplied in any order. Modifiers list: SLC, GLC, TFE, LDS, NV, INST_OFFSET:OFFSET. The TFE flag requires additional the VDATA register. LDS, NV and OFFSET are available only in GCN 1.4 architecture.

FLAT instruction can complete out of order with each other. This can be caused by different resources from/to that instruction can load/store. FLAT instruction increase VMCNT if access to main memory, or LKGMCNT if accesses to LDS.

OFFSET (INST_OFFSET modifier) can be 13-bit signed for GLOBAL_* and SCRATCH_* instructions or 12-bit unsigned for FLAT_* instructions.

For GLOBAL instruction VADDR have 2 registers if SADDR is OFF, otherwise VADDR holds 32-bit offset in single VGPR register.

Instructions by opcode

List of the FLAT instructions by opcode (GCN 1.1/1.2):

Opcode Mnemonic (GCN1.1) Mnemonic (GCN1.2)
8 (0x8) FLAT_LOAD_UBYTE --
9 (0x9) FLAT_LOAD_SBYTE --
10 (0xa) FLAT_LOAD_USHORT --
11 (0xb) FLAT_LOAD_SSHORT --
12 (0xc) FLAT_LOAD_DWORD --
13 (0xd) FLAT_LOAD_DWORDX2 --
14 (0xe) FLAT_LOAD_DWORDX4 --
15 (0xf) FLAT_LOAD_DWORDX3 --
16 (0x10) -- FLAT_LOAD_UBYTE
17 (0x11) -- FLAT_LOAD_SBYTE
18 (0x12) -- FLAT_LOAD_USHORT
19 (0x13) -- FLAT_LOAD_SSHORT
20 (0x14) -- FLAT_LOAD_DWORD
21 (0x15) -- FLAT_LOAD_DWORDX2
22 (0x16) -- FLAT_LOAD_DWORDX3
23 (0x17) -- FLAT_LOAD_DWORDX4
24 (0x18) FLAT_STORE_BYTE FLAT_STORE_BYTE
26 (0x1a) FLAT_STORE_SHORT FLAT_STORE_SHORT
28 (0x1c) FLAT_STORE_DWORD FLAT_STORE_DWORD
29 (0x1d) FLAT_STORE_DWORDX2 FLAT_STORE_DWORDX2
30 (0x1e) FLAT_STORE_DWORDX4 FLAT_STORE_DWORDX3
31 (0x1f) FLAT_STORE_DWORDX3 FLAT_STORE_DWORDX4
48 (0x30) FLAT_ATOMIC_SWAP --
49 (0x31) FLAT_ATOMIC_CMPSWAP --
50 (0x32) FLAT_ATOMIC_ADD --
51 (0x33) FLAT_ATOMIC_SUB --
53 (0x35) FLAT_ATOMIC_SMIN --
54 (0x36) FLAT_ATOMIC_UMIN --
55 (0x37) FLAT_ATOMIC_SMAX --
56 (0x38) FLAT_ATOMIC_UMAX --
57 (0x39) FLAT_ATOMIC_AND --
58 (0x3a) FLAT_ATOMIC_OR --
59 (0x3b) FLAT_ATOMIC_XOR --
60 (0x3c) FLAT_ATOMIC_INC --
61 (0x3d) FLAT_ATOMIC_DEC --
62 (0x3e) FLAT_ATOMIC_FCMPSWAP --
63 (0x3f) FLAT_ATOMIC_FMIN --
64 (0x40) FLAT_ATOMIC_FMAX FLAT_ATOMIC_SWAP
65 (0x41) -- FLAT_ATOMIC_CMPSWAP
66 (0x42) -- FLAT_ATOMIC_ADD
67 (0x43) -- FLAT_ATOMIC_SUB
68 (0x44) -- FLAT_ATOMIC_SMIN
69 (0x45) -- FLAT_ATOMIC_UMIN
70 (0x46) -- FLAT_ATOMIC_SMAX
71 (0x47) -- FLAT_ATOMIC_UMAX
72 (0x48) -- FLAT_ATOMIC_AND
73 (0x49) -- FLAT_ATOMIC_OR
74 (0x4a) -- FLAT_ATOMIC_XOR
75 (0x4b) -- FLAT_ATOMIC_INC
76 (0x4c) -- FLAT_ATOMIC_DEC
80 (0x50) FLAT_ATOMIC_SWAP_X2 --
81 (0x51) FLAT_ATOMIC_CMPSWAP_X2 --
82 (0x52) FLAT_ATOMIC_ADD_X2 --
83 (0x53) FLAT_ATOMIC_SUB_X2 --
85 (0x55) FLAT_ATOMIC_SMIN_X2 --
86 (0x56) FLAT_ATOMIC_UMIN_X2 --
87 (0x57) FLAT_ATOMIC_SMAX_X2 --
88 (0x58) FLAT_ATOMIC_UMAX_X2 --
89 (0x59) FLAT_ATOMIC_AND_X2 --
90 (0x5a) FLAT_ATOMIC_OR_X2 --
91 (0x5b) FLAT_ATOMIC_XOR_X2 --
92 (0x5c) FLAT_ATOMIC_INC_X2 --
93 (0x5d) FLAT_ATOMIC_DEC_X2 --
94 (0x5e) FLAT_ATOMIC_FCMPSWAP_X2 --
95 (0x5f) FLAT_ATOMIC_FMIN_X2 --
96 (0x60) FLAT_ATOMIC_FMAX_X2 FLAT_ATOMIC_SWAP_X2
97 (0x61) -- FLAT_ATOMIC_CMPSWAP_X2
98 (0x62) -- FLAT_ATOMIC_ADD_X2
99 (0x63) -- FLAT_ATOMIC_SUB_X2
100 (0x64) -- FLAT_ATOMIC_SMIN_X2
101 (0x65) -- FLAT_ATOMIC_UMIN_X2
102 (0x66) -- FLAT_ATOMIC_SMAX_X2
103 (0x67) -- FLAT_ATOMIC_UMAX_X2
104 (0x68) -- FLAT_ATOMIC_AND_X2
105 (0x69) -- FLAT_ATOMIC_OR_X2
106 (0x6a) -- FLAT_ATOMIC_XOR_X2
107 (0x6b) -- FLAT_ATOMIC_INC_X2
108 (0x6c) -- FLAT_ATOMIC_DEC_X2

List of the FLAT/GLOBAL/SCRATCH instructions by opcode (GCN 1.4):

Opcode FLAT GLOBAL SCRATCH Mnemonic
16 (0x10) *_LOAD_UBYTE
17 (0x11) *_LOAD_SBYTE
18 (0x12) *_LOAD_USHORT
19 (0x13) *_LOAD_SSHORT
20 (0x14) *_LOAD_DWORD
21 (0x15) *_LOAD_DWORDX2
22 (0x16) *_LOAD_DWORDX3
23 (0x17) *_LOAD_DWORDX4
24 (0x18) *_STORE_BYTE
25 (0x19) *_STORE_BYTE_D16_HI
26 (0x1a) *_STORE_SHORT
27 (0x1b) *_STORE_SHORT_D16_HI
28 (0x1c) *_STORE_DWORD
29 (0x1d) *_STORE_DWORDX2
30 (0x1e) *_STORE_DWORDX3
31 (0x1f) *_STORE_DWORDX4
32 (0x20) *_LOAD_UBYTE_D16
33 (0x21) *_LOAD_UBYTE_D16_HI
34 (0x22) *_LOAD_SBYTE_D16
35 (0x23) *_LOAD_SBYTE_D16_HI
36 (0x24) *_LOAD_SHORT_D16
37 (0x25) *_LOAD_SHORT_D16_HI
64 (0x40) *_ATOMIC_SWAP
65 (0x41) *_ATOMIC_CMPSWAP
66 (0x42) *_ATOMIC_ADD
67 (0x43) *_ATOMIC_SUB
68 (0x44) *_ATOMIC_SMIN
69 (0x45) *_ATOMIC_UMIN
70 (0x46) *_ATOMIC_SMAX
71 (0x47) *_ATOMIC_UMAX
72 (0x48) *_ATOMIC_AND
73 (0x49) *_ATOMIC_OR
74 (0x4a) *_ATOMIC_XOR
75 (0x4b) *_ATOMIC_INC
76 (0x4c) *_ATOMIC_DEC
96 (0x60) *_ATOMIC_SWAP_X2
97 (0x61) *_ATOMIC_CMPSWAP_X2
98 (0x62) *_ATOMIC_ADD_X2
99 (0x63) *_ATOMIC_SUB_X2
100 (0x64) *_ATOMIC_SMIN_X2
101 (0x65) *_ATOMIC_UMIN_X2
102 (0x66) *_ATOMIC_SMAX_X2
103 (0x67) *_ATOMIC_UMAX_X2
104 (0x68) *_ATOMIC_AND_X2
105 (0x69) *_ATOMIC_OR_X2
106 (0x6a) *_ATOMIC_XOR_X2
107 (0x6b) *_ATOMIC_INC_X2
108 (0x6c) *_ATOMIC_DEC_X2

The '*' means prefix of instruction (FLAT, GLOBAL or SCRATCH).

Instruction set

Alphabetically sorted instruction list:

FLAT_ATOMIC_ADD

Opcode: 50 (0x32) for GCN 1.1; 66 (0x42) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_ADD VDST, VADDR(2), VDATA
Description: Add VDATA to value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM + VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_ADD_X2

Opcode: 82 (0x52) for GCN 1.1; 98 (0x62) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_ADD_X2 VDST(2), VADDR(2), VDATA(2)
Description: Add 64-bit VDATA to 64-bit value of memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM + VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_AND

Opcode: 57 (0x39) for GCN 1.1; 72 (0x48) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_AND VDST, VADDR(2), VDATA
Description: Do bitwise AND on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM & VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_AND_X2

Opcode: 89 (0x59) for GCN 1.1; 104 (0x68) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_AND_X2 VDST(2), VADDR(2), VDATA(2)
Description: Do 64-bit bitwise AND on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM & VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_CMPSWAP

Opcode: 49 (0x31) for GCN 1.1; 65 (0x41) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_CMPSWAP VDST, VADDR(2), VDATA(2)
Description: Store lower VDATA dword into memory address if previous value from that address is equal VDATA>>32, otherwise keep old value from address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM==(VDATA>>32) ? VDATA&0xffffffff : *VM // part of atomic VDST = (GLC) ? P : VDST // last part of atomic

FLAT_ATOMIC_CMPSWAP_X2

Opcode: 81 (0x51) for GCN 1.1; 97 (0x61) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_CMPSWAP_X2 VDST(2), VADDR(2), VDATA(4)
Description: Store lower VDATA 64-bit word into memory address if previous value from address is equal VDATA>>64, otherwise keep old value from VADDR. If GLC flag is set then return previous value from VADDR to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM==(VDATA[2:3]) ? VDATA[0:1] : *VM // part of atomic VDST = (GLC) ? P : VDST // last part of atomic

FLAT_ATOMIC_DEC

Opcode: 61 (0x3d) for GCN 1.1; 76 (0x4c) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_DEC VDST, VADDR(2), VDATA
Description: Compare value from memory address and if less or equal than VDATA and this value is not zero, then decrement value from memory address, otherwise store VDATA to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = (*VM <= VDATA && *VM!=0) ? *VM-1 : VDATA // atomic VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_DEC_X2

Opcode: 93 (0x5d) for GCN 1.1; 108 (0x6c) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_DEC_X2 VDST(2), VADDR(2), VDATA(2)
Description: Compare 64-bit value from memory address and if less or equal than VDATA and this value is not zero, then decrement value from memory address, otherwise store VDATA to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = (*VM <= VDATA && *VM!=0) ? *VM-1 : VDATA // atomic VDST = (GLC) ? P : VDST // atomic

BUFFER_ATOMIC_FCMPSWAP

Opcode: 62 (0x3e) for GCN 1.1
Syntax: FLAT_ATOMIC_FCMPSWAP VDST, VADDR(1:2), VDATA(2)
Description: Store lower VDATA dword into memory address if previous single floating point value from address is equal singe floating point value VDATA>>32, otherwise keep old value from memory address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
FLOAT* VM = (FLOAT*)(VADDR + INST_OFFSET) FLOAT P = *VM; *VM = *VM==ASFLOAT(VDATA>>32) ? VDATA&0xffffffff : *VM // part of atomic VDST[0] = (GLC) ? P : VDST // last part of atomic

FLAT_ATOMIC_FCMPSWAP_X2

Opcode: 94 (0x5e) for GCN 1.1
Syntax: FLAT_ATOMIC_FCMPSWAP_X2 VDATA(2), VADDR(2), SRSRC(4), SOFFSET
Description: Store lower VDATA 64-bit word into memory address if previous double floating point value from address is equal singe floating point value VDATA>>32, otherwise keep old value from memory address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
DOUBLE* VM = (DOUBLE*)(VADDR + INST_OFFSET) DOUBLE P = *VM; *VM = *VM==ASDOUBLE(VDATA[2:3]) ? VDATA[0:1] : *VM // part of atomic VDST = (GLC) ? P : VDST // last part of atomic

FLAT_ATOMIC_FMAX

Opcode: 64 (0x40) for GCN 1.1
Syntax: FLAT_ATOMIC_FMAX VDST, VADDR(2), VDATA
Description: Choose greatest single floating point value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
FLOAT* VM = (FLOAT*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MAX(*VM, ASFLOAT(VDATA)); VDST = (GLC) ? P : VDST // atomic

BUFFER_ATOMIC_FMAX_X2

Opcode: 96 (0x60) for GCN 1.1
Syntax: FLAT_ATOMIC_FMAX_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose greatest double floating point value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
DOUBLE* VM = (DOUBLE*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MAX(*VM, ASDOUBLE(VDATA)); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_FMIN

Opcode: 63 (0x3f) for GCN 1.1
Syntax: FLAT_ATOMIC_FMIN VDST, VADDR(2), VDATA
Description: Choose smallest single floating point value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
FLOAT* VM = (FLOAT*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MIN(*VM, ASFLOAT(VDATA)); VDST = (GLC) ? P : VDST // atomic

BUFFER_ATOMIC_FMIN_X2

Opcode: 95 (0x5f) for GCN 1.1
Syntax: FLAT_ATOMIC_FMIN_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose smallest double floating point value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
DOUBLE* VM = (DOUBLE*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MIN(*VM, ASDOUBLE(VDATA)); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_INC

Opcode: 60 (0x3c) for GCN 1.1; 75 (0x4b) for GCN 1.2/1.4
Syntax: FLT_ATOMIC_INC VDST, VADDR(2), VDATA
Description: Compare value from memory address and if less than VDATA, then increment value from address, otherwise store zero to address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = (*VM < VDATA) ? *VM+1 : 0; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_INC_X2

Opcode: 92 (0x5c) for GCN 1.1; 107 (0x9b) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_INC_X2 VDST(2), VADDR(2), VADDR(2)
Description: Compare 64-bit value from memory address and if less than VDATA, then increment value from address, otherwise store zero to address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = (*VM < VDATA) ? *VM+1 : 0; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_OR

Opcode: 58 (0x3a) for GCN 1.1; 73 (0x49) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_OR VDST, VADDR(2), VDATA
Description: Do bitwise OR on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM | VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_OR_X2

Opcode: 90 (0x5a) for GCN 1.1; 105 (0x69) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_OR_X2 VDST(2), VADDR(2), VDATA(2)
Description: Do 64-bit bitwise OR on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM | VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SMAX

Opcode: 55 (0x37) for GCN 1.1; 70 (0x46) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SMAX VDST, VADDR(2), VDATA
Description: Choose greatest signed 32-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT32* VM = (INT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MAX(*VM, (INT32)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SMAX_X2

Opcode: 87 (0x57) for GCN 1.1; 102 (0x66) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SMAX_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose greatest signed 64-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT64* VM = (INT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MAX(*VM, (INT64)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SMIN

Opcode: 53 (0x35) for GCN 1.1; 68 (0x44) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SMIN VDST, VADDR(2), VDATA
Description: Choose smallest signed 32-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT32* VM = (INT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MIN(*VM, (INT32)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SMIN_X2

Opcode: 85 (0x55) for GCN 1.1; 100 (0x64) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SMIN_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose smallest signed 64-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT64* VM = (INT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MIN(*VM, (INT64)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SUB

Opcode: 51 (0x33) for GCN 1.1; 67 (0x43) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SUB VDST, VADDR(2), VDATA
Description: Subtract VDATA from value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM - VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SUB_X2

Opcode: 83 (0x53) for GCN 1.1; 99 (0x63) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SUB_X2 VDST(2), VADDR(2), VDATA(2)
Description: Subtract 64-bit VDATA from 64-bit value of memory address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM - VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SWAP

Opcode: 48 (0x30) for GCN 1.1; 64 (0x40) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SWAP VDST, VADDR(2), VDATA
Description: Store VDATA dword into memory address. If GLC flag is set then return previous value from memory address to VDST, otherwise keep old value from VDST. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_SWAP_X2

Opcode: 80 (0x50) for GCN 1.1; 96 (0x60) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_SWAP_X2 VDST(2), VADDR(2), VDATA(2)
Description: Store VDATA 64-bit word into memory address. If GLC flag is set then return previous value from memory address to VDST, otherwise keep old value from VDST. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_UMAX

Opcode: 56 (0x38) for GCN 1.1; 71 (0x47) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_UMAX VDST, VADDR(2), VDATA
Description: Choose greatest unsigned 32-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MAX(*VM, (UINT32)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_UMAX_X2

Opcode: 88 (0x58) for GCN 1.1; 103 (0x67) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_UMAX_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose greatest unsigned 64-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MAX(*VM, (UINT64)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_UMIN

Opcode: 54 (0x36) for GCN 1.1; 69 (0x45) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_UMIN VDST, VADDR(2), VDATA
Description: Choose smallest unsigned 32-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = MIN(*VM, (UINT32)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_UMIN_X2

Opcode: 86 (0x56) for GCN 1.1; 101 (0x65) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_UMIN_X2 VDST(2), VADDR(2), VDATA(2)
Description: Choose smallest unsigned 64-bit value from VDATA and from memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = MIN(*VM, (UINT64)VDATA); VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_XOR

Opcode: 59 (0x3b) for GCN 1.1; 74 (0x4a) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_XOR VDST, VADDR(2), VDATA
Description: Do bitwise XOR on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM ^ VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_ATOMIC_XOR_X2

Opcode: 91 (0x5b) for GCN 1.1; 106 (0x6a) for GCN 1.2/1.4
Syntax: FLAT_ATOMIC_XOR_X2 VDST(2), VADDR(2), VDATA(2)
Description: Do 64-bit bitwise XOR on VDATA and value of memory address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM ^ VDATA; VDST = (GLC) ? P : VDST // atomic

FLAT_LOAD_DWORD

Opcode: 12 (0xc) for GCN 1.1; 20 (0x14) for GCN 1.2/1.4
Syntax: FLAT_LOAD_DWORD VDST, VADDR(2)
Description Load dword to VDST from memory address.
Operation:
VDST = *(UINT32*)(VADDR + INST_OFFSET)

FLAT_LOAD_DWORDX2

Opcode: 13 (0xd) for GCN 1.1; 21 (0x15) for GCN 1.2/1.4
Syntax: FLAT_LOAD_DWORDX2 VDST(, VADDR(2)
Description Load two dwords to VDST from memory address.
Operation:
VDST = *(UINT64*)(VADDR + INST_OFFSET)

FLAT_LOAD_DWORDX3

Opcode: 15 (0xf) for GCN 1.1; 22 (0x16) for GCN 1.2/1.4
Syntax: FLAT_LOAD_DWORDX3 VDST(3), VADDR(2)
Description Load three dwords to VDST from memory address.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8)

FLAT_LOAD_DWORDX4

Opcode: 13 (0xe) for GCN 1.1; 23 (0x17) for GCN 1.2/1.4
Syntax: FLAT_LOAD_DWORDX4 VDST(4), VADDR(2)
Description Load four dwords to VDST from memory address.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8) VDST[3] = *(UINT32*)(VM+12)

FLAT_LOAD_SBYTE

Opcode: 9 (0x9) for GCN 1.1; 17 (0x11) for GCN 1.2/1.4
Syntax: FLAT_LOAD_SBYTE VDST, VADDR(2)
Description: Load byte to VDST from memory address with sign extending.
Operation:
VDST = *(INT8*)(VADDR + INST_OFFSET)

FLAT_LOAD_SBYTE_D16

Opcode: 34 (0x22) for GCN 1.4
Syntax: FLAT_LOAD_SBYTE_D16 VDST, VADDR(2)
Description: Load byte to lower 16-bit part of VDST from memory address with sign extending.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = ((UINT16)*(INT8*)VM) | (VDST&0xffff0000)

FLAT_LOAD_SBYTE_D16_HI

Opcode: 35 (0x23) for GCN 1.4
Syntax: FLAT_LOAD_SBYTE_D16_HI VDST, VADDR(2)
Description: Load byte to higher 16-bit part of VDST from memory address with sign extending.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = (((UINT32)*(INT8*)VM)<<16) | (VDST&0xffff)

FLAT_LOAD_SHORT_D16

Opcode: 36 (0x24) for GCN 1.4
Syntax: FLAT_LOAD_SHORT_D16 VDST, VADDR(2)
Description: Load 16-bit word to lower 16-bit part of VDST from memory address.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = *(UINT16*)VM | (VDST & 0xffff0000)

FLAT_LOAD_SHORT_D16_HI

Opcode: 36 (0x24) for GCN 1.4
Syntax: FLAT_LOAD_SHORT_D16_HI VDST, VADDR(2)
Description: Load 16-bit word to lower 16-bit part of VDST from memory address.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = (((UINT32)*(UINT16*)VM)<<16) | (VDST & 0xffff)

FLAT_LOAD_SSHORT

Opcode: 11 (0xb) for GCN 1.1; 19 (0x13) for GCN 1.2/1.4
Syntax: FLAT_LOAD_SSHORT VDST, VADDR(2)
Description: Load 16-bit word to VDST from memory address with sign extending.
Operation:
VDST = *(INT16*)(VADDR + INST_OFFSET)

FLAT_LOAD_UBYTE

Opcode: 8 (0x8) for GCN 1.1; 16 (0x10) for GCN 1.2/1.4
Syntax: FLAT_LOAD_UBYTE VDST, VADDR(2)
Description: Load byte to VDST from memory address with zero extending.
Operation:
VDST = *(UINT8*)(VADDR + INST_OFFSET)

FLAT_LOAD_UBYTE_D16

Opcode: 32 (0x20) for GCN 1.4
Syntax: FLAT_LOAD_UBYTE_D16 VDST, VADDR(2)
Description: Load byte to lower 16-bit part of VDST from memory address with zero extending.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = ((UINT16)*(UINT8*)VM) | (VDST&0xffff0000)

FLAT_LOAD_UBYTE_D16_HI

Opcode: 33 (0x21) for GCN 1.4
Syntax: FLAT_LOAD_UBYTE_D16_HI VDST, VADDR(2)
Description: Load byte to higher 16-bit part of VDST from memory address with zero extending.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) VDST = (((UINT32)*(UINT8*)VM)<<16) | (VDST&0xffff)

FLAT_LOAD_USHORT

Opcode: 10 (0xa) for GCN 1.1; 18 (0x12) for GCN 1.2/1.4
Syntax: FLAT_LOAD_USHORT VDST, VADDR(1:2)
Description: Load 16-bit word to VDST from memory address with zero extending.
Operation:
VDST = *(UINT16*)(VADDR + INST_OFFSET)

FLAT_STORE_BYTE

Opcode: 24 (0x18)
Syntax: FLAT_STORE_BYTE VADDR(2), VDATA
Description: Store byte from VDATA to memory address.
Operation:
*(UINT8*)(VADDR + INST_OFFSET) = VDATA&0xff

FLAT_STORE_BYTE_D16_HI

Opcode: 25 (0x19) for GCN 1.4
Syntax: FLAT_STORE_BYTE_D16_HI VADDR(2), VDATA
Description: Store byte from 16-23 bits of VDATA to memory address.
Operation:
*(UINT8*)(VADDR + INST_OFFSET) = (VDATA>>16)&0xff

FLAT_STORE_DWORD

Opcode: 28 (0x1c)
Syntax: FLAT_STORE_DWORD VADDR(2), VDATA
Description: Store dword from VDATA to memory address.
Operation:
*(UINT32*)(VADDR + INST_OFFSET) = VDATA

FLAT_STORE_DWORDX2

Opcode: 29 (0x1d)
Syntax: FLAT_STORE_DWORDX2 VADDR(2), VDATA(2)
Description: Store two dwords from VDATA to memory address.
Operation:
*(UINT64*)(VADDR + INST_OFFSET) = VDATA

FLAT_STORE_DWORDX3

Opcode: 31 (0x1f) for GCN 1.1; 30 (0x1e) for GCN 1.2/1.4
Syntax: FLAT_STORE_DWORDX3 VADDR(2), VDATA(3)
Description: Store three dwords from VDATA to memory address.
Operation:
BYTE* VM = (VADDR + INST_OFFSET) *(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2]

FLAT_STORE_DWORDX4

Opcode: 30 (0x1e) for GCN 1.1; 31 (0x1d) for GCN 1.2/1.4
Syntax: FLAT_STORE_DWORDX4 VADDR(2), VDATA(4)
Description: Store four dwords from VDATA to memory address.
Operation:
*(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2] *(UINT32*)(VM+12) = VDATA[3]

FLAT_STORE_SHORT

Opcode: 26 (0x1a)
Syntax: FLAT_STORE_SHORT VADDR(2), VDATA
Description: Store 16-bit word from VDATA to memory address.
Operation:
*(UINT16*)(VADDR + INST_OFFSET) = VDATA&0xffff

FLAT_STORE_SHORT_D16_HI

Opcode: 27 (0x1b) for GCN 1.4
Syntax: FLAT_STORE_SHORT_D16_HI VADDR(2), VDATA
Description: Store 16-bit word from higher 16-bit part of VDATA to memory address.
Operation:
*(UINT16*)(VADDR + INST_OFFSET) = VDATA>>16

GLOBAL_ATOMIC_ADD

Opcode: 66 (0x42) for GCN 1.4
Syntax: GLOBAL_ATOMIC_ADD VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Add VDATA to value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM + VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_ADD_X2

Opcode: 98 (0x62) for GCN 1.4
Syntax: GLOBAL_ATOMIC_ADD_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Add 64-bit VDATA to 64-bit value of global address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM + VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_AND

Opcode: 72 (0x48) for GCN 1.4
Syntax: GLOBAL_ATOMIC_AND VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Do bitwise AND on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM & VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_AND_X2

Opcode: 104 (0x68) for GCN 1.4
Syntax: GLOBAL_ATOMIC_AND_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Do 64-bit bitwise AND on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM & VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_CMPSWAP

Opcode: 65 (0x41) for GCN 1.4
Syntax: GLOBAL_ATOMIC_CMPSWAP VDST, VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Store lower VDATA dword into global address if previous value from that address is equal VDATA>>32, otherwise keep old value from address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM==(VDATA>>32) ? VDATA&0xffffffff : *VM // part of atomic VDST = (GLC) ? P : VDST // last part of atomic

GLOBAL_ATOMIC_CMPSWAP_X2

Opcode: 97 (0x61) for GCN 1.4
Syntax: GLOBAL_ATOMIC_CMPSWAP_X2 VDST(2), VADDR(1:2), VDATA(4), SADDR(2)|OFF
Description: Store lower VDATA 64-bit word into global address if previous value from address is equal VDATA>>64, otherwise keep old value from VADDR. If GLC flag is set then return previous value from VADDR to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM==(VDATA[2:3]) ? VDATA[0:1] : *VM // part of atomic VDST = (GLC) ? P : VDST // last part of atomic

GLOBAL_ATOMIC_DEC

Opcode: 76 (0x4c) for GCN 1.4
Syntax: GLOBAL_ATOMIC_DEC VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Compare value from global address and if less or equal than VDATA and this value is not zero, then decrement value from global address, otherwise store VDATA to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = (*VM <= VDATA && *VM!=0) ? *VM-1 : VDATA // atomic VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_DEC_X2

Opcode: 108 (0x6c) for GCN 1.4
Syntax: GLOBAL_ATOMIC_DEC_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Compare 64-bit value from global address and if less or equal than VDATA and this value is not zero, then decrement value from global address, otherwise store VDATA to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = (*VM <= VDATA && *VM!=0) ? *VM-1 : VDATA // atomic VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_INC

Opcode: 75 (0x4b) for GCN 1.4
Syntax: FLT_ATOMIC_INC VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Compare value from global address and if less than VDATA, then increment value from address, otherwise store zero to address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = (*VM < VDATA) ? *VM+1 : 0; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_INC_X2

Opcode: 107 (0x9b) for GCN 1.4
Syntax: GLOBAL_ATOMIC_INC_X2 VDST(2), VADDR(1:2), VADDR(1:2), SADDR(2)|OFF
Description: Compare 64-bit value from global address and if less than VDATA, then increment value from address, otherwise store zero to address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = (*VM < VDATA) ? *VM+1 : 0; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_OR

Opcode: 73 (0x49) for GCN 1.4
Syntax: GLOBAL_ATOMIC_OR VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Do bitwise OR on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM | VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_OR_X2

Opcode: 105 (0x69) for GCN 1.4
Syntax: GLOBAL_ATOMIC_OR_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Do 64-bit bitwise OR on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM | VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SMAX

Opcode: 70 (0x46) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SMAX VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Choose greatest signed 32-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT32* VM = (INT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = MAX(*VM, (INT32)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SMAX_X2

Opcode: 102 (0x66) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SMAX_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Choose greatest signed 64-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT64* VM = (INT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = MAX(*VM, (INT64)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SMIN

Opcode: 68 (0x44) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SMIN VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Choose smallest signed 32-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT32* VM = (INT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = MIN(*VM, (INT32)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SMIN_X2

Opcode: 100 (0x64) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SMIN_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Choose smallest signed 64-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
INT64* VM = (INT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = MIN(*VM, (INT64)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SUB

Opcode: 67 (0x43) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SUB VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Subtract VDATA from value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM - VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SUB_X2

Opcode: 99 (0x63) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SUB_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Subtract 64-bit VDATA from 64-bit value of global address, and store result to this address. If GLC flag is set then return previous value from address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM - VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SWAP

Opcode: 64 (0x40) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SWAP VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store VDATA dword into global address. If GLC flag is set then return previous value from global address to VDST, otherwise keep old value from VDST. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_SWAP_X2

Opcode: 96 (0x60) for GCN 1.4
Syntax: GLOBAL_ATOMIC_SWAP_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Store VDATA 64-bit word into global address. If GLC flag is set then return previous value from global address to VDST, otherwise keep old value from VDST. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_UMAX

Opcode: 71 (0x47) for GCN 1.4
Syntax: GLOBAL_ATOMIC_UMAX VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Choose greatest unsigned 32-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = MAX(*VM, (UINT32)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_UMAX_X2

Opcode: 103 (0x67) for GCN 1.4
Syntax: GLOBAL_ATOMIC_UMAX_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Choose greatest unsigned 64-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = MAX(*VM, (UINT64)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_UMIN

Opcode: 69 (0x45) for GCN 1.4
Syntax: GLOBAL_ATOMIC_UMIN VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Choose smallest unsigned 32-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = MIN(*VM, (UINT32)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_UMIN_X2

Opcode: 101 (0x65) for GCN 1.4
Syntax: GLOBAL_ATOMIC_UMIN_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Choose smallest unsigned 64-bit value from VDATA and from global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = MIN(*VM, (UINT64)VDATA); VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_XOR

Opcode: 74 (0x4a) for GCN 1.4
Syntax: GLOBAL_ATOMIC_XOR VDST, VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Do bitwise XOR on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT32* VM = (UINT32*)(VADDR + SADDR + INST_OFFSET) UINT32 P = *VM; *VM = *VM ^ VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_ATOMIC_XOR_X2

Opcode: 106 (0x6a) for GCN 1.4
Syntax: GLOBAL_ATOMIC_XOR_X2 VDST(2), VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Do 64-bit bitwise XOR on VDATA and value of global address, and store result to this address. If GLC flag is set then return previous value from this address to VDST, otherwise keep VDST value. Operation is atomic.
Operation:
UINT64* VM = (UINT64*)(VADDR + SADDR + INST_OFFSET) UINT64 P = *VM; *VM = *VM ^ VDATA; VDST = (GLC) ? P : VDST // atomic

GLOBAL_LOAD_DWORD

Opcode: 20 (0x14) for GCN 1.4
Syntax: GLOBAL_LOAD_DWORD VDST, VADDR(1:2), SADDR(2)|OFF
Description Load dword to VDST from global address.
Operation:
VDST = *(UINT32*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_LOAD_DWORDX2

Opcode: 21 (0x15) for GCN 1.4
Syntax: GLOBAL_LOAD_DWORDX2 VDST(, VADDR(1:2), SADDR(2)|OFF
Description Load two dwords to VDST from global address.
Operation:
VDST = *(UINT64*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_LOAD_DWORDX3

Opcode: 22 (0x16) for GCN 1.4
Syntax: GLOBAL_LOAD_DWORDX3 VDST(3), VADDR(1:2), SADDR(2)|OFF
Description Load three dwords to VDST from global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8)

GLOBAL_LOAD_DWORDX4

Opcode: 23 (0x17) for GCN 1.4
Syntax: GLOBAL_LOAD_DWORDX4 VDST(4), VADDR(1:2), SADDR(2)|OFF
Description Load four dwords to VDST from global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8) VDST[3] = *(UINT32*)(VM+12)

GLOBAL_LOAD_SBYTE

Opcode: 17 (0x11) for GCN 1.4
Syntax: GLOBAL_LOAD_SBYTE VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to VDST from global address with sign extending.
Operation:
VDST = *(INT8*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_LOAD_SBYTE_D16

Opcode: 34 (0x22) for GCN 1.4
Syntax: GLOBAL_LOAD_SBYTE_D16 VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to lower 16-bit part of VDST from global address with sign extending.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = ((UINT16)*(INT8*)VM) | (VDST&0xffff0000)

GLOBAL_LOAD_SBYTE_D16_HI

Opcode: 35 (0x23) for GCN 1.4
Syntax: GLOBAL_LOAD_SBYTE_D16_HI VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to higher 16-bit part of VDST from global address with sign extending.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = (((UINT32)*(INT8*)VM)<<16) | (VDST&0xffff)

GLOBAL_LOAD_SHORT_D16

Opcode: 36 (0x24) for GCN 1.4
Syntax: GLOBAL_LOAD_SHORT_D16 VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load 16-bit word to lower 16-bit part of VDST from global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = *(UINT16*)VM | (VDST & 0xffff0000)

GLOBAL_LOAD_SHORT_D16_HI

Opcode: 36 (0x24) for GCN 1.4
Syntax: GLOBAL_LOAD_SHORT_D16_HI VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load 16-bit word to lower 16-bit part of VDST from global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = (((UINT32)*(UINT16*)VM)<<16) | (VDST & 0xffff)

GLOBAL_LOAD_SSHORT

Opcode: 19 (0x13) for GCN 1.4
Syntax: GLOBAL_LOAD_SSHORT VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load 16-bit word to VDST from global address with sign extending.
Operation:
VDST = *(INT16*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_LOAD_UBYTE

Opcode: 16 (0x10) for GCN 1.4
Syntax: GLOBAL_LOAD_UBYTE VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to VDST from global address with zero extending.
Operation:
VDST = *(UINT8*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_LOAD_UBYTE_D16

Opcode: 32 (0x20) for GCN 1.4
Syntax: GLOBAL_LOAD_UBYTE_D16 VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to lower 16-bit part of VDST from global address with zero extending.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = ((UINT16)*(UINT8*)VM) | (VDST&0xffff0000)

GLOBAL_LOAD_UBYTE_D16_HI

Opcode: 33 (0x21) for GCN 1.4
Syntax: GLOBAL_LOAD_UBYTE_D16_HI VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load byte to higher 16-bit part of VDST from global address with zero extending.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) VDST = (((UINT32)*(UINT8*)VM)<<16) | (VDST&0xffff)

GLOBAL_LOAD_USHORT

Opcode: 18 (0x12) for GCN 1.4
Syntax: GLOBAL_LOAD_USHORT VDST, VADDR(1:2), SADDR(2)|OFF
Description: Load 16-bit word to VDST from global address with zero extending.
Operation:
VDST = *(UINT16*)(VADDR + SADDR + INST_OFFSET)

GLOBAL_STORE_BYTE

Opcode: 24 (0x18) for GCN 1.4
Syntax: GLOBAL_STORE_BYTE VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store byte from VDATA to global address.
Operation:
*(UINT8*)(VADDR + SADDR + INST_OFFSET) = VDATA&0xff

GLOBAL_STORE_BYTE_D16_HI

Opcode: 25 (0x19) for GCN 1.4
Syntax: GLOBAL_STORE_BYTE_D16_HI VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store byte from 16-23 bits of VDATA to global address.
Operation:
*(UINT8*)(VADDR + SADDR + INST_OFFSET) = (VDATA>>16)&0xff

GLOBAL_STORE_DWORD

Opcode: 28 (0x1c) for GCN 1.4
Syntax: GLOBAL_STORE_DWORD VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store dword from VDATA to global address.
Operation:
*(UINT32*)(VADDR + SADDR + INST_OFFSET) = VDATA

GLOBAL_STORE_DWORDX2

Opcode: 29 (0x1d) for GCN 1.4
Syntax: GLOBAL_STORE_DWORDX2 VADDR(1:2), VDATA(2), SADDR(2)|OFF
Description: Store two dwords from VDATA to global address.
Operation:
*(UINT64*)(VADDR + SADDR + INST_OFFSET) = VDATA

GLOBAL_STORE_DWORDX3

Opcode: 30 (0x1e) for GCN 1.4
Syntax: GLOBAL_STORE_DWORDX3 VADDR(1:2), VDATA(3), SADDR(2)|OFF
Description: Store three dwords from VDATA to global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) *(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2]

GLOBAL_STORE_DWORDX4

Opcode: 31 (0x1d) for GCN 1.4
Syntax: GLOBAL_STORE_DWORDX4 VADDR(1:2), VDATA(4), SADDR(2)|OFF
Description: Store four dwords from VDATA to global address.
Operation:
BYTE* VM = (VADDR + SADDR + INST_OFFSET) *(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2] *(UINT32*)(VM+12) = VDATA[3]

GLOBAL_STORE_SHORT

Opcode: 26 (0x1a) for GCN 1.4
Syntax: GLOBAL_STORE_SHORT VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store 16-bit word from VDATA to global address.
Operation:
*(UINT16*)(VADDR + SADDR + INST_OFFSET) = VDATA&0xffff

GLOBAL_STORE_SHORT_D16_HI

Opcode: 27 (0x1b) for GCN 1.4
Syntax: GLOBAL_STORE_SHORT_D16_HI VADDR(1:2), VDATA, SADDR(2)|OFF
Description: Store 16-bit word from higher 16-bit part of VDATA to global address.
Operation:
*(UINT16*)(VADDR + SADDR + INST_OFFSET) = VDATA>>16

SCRATCH_LOAD_DWORD

Opcode: 20 (0x14) for GCN 1.4
Syntax: SCRATCH_LOAD_DWORD VDST, VADDR|OFF, SADDR|OFF
Description Load dword to VDST from scratch memory address.
Operation:
VDST = *(UINT32*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_LOAD_DWORDX2

Opcode: 21 (0x15) for GCN 1.4
Syntax: SCRATCH_LOAD_DWORDX2 VDST(, VADDR|OFF, SADDR|OFF
Description Load two dwords to VDST from scratch memory address.
Operation:
VDST = *(UINT64*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_LOAD_DWORDX3

Opcode: 22 (0x16) for GCN 1.4
Syntax: SCRATCH_LOAD_DWORDX3 VDST(3), VADDR|OFF, SADDR|OFF
Description Load three dwords to VDST from scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8)

SCRATCH_LOAD_DWORDX4

Opcode: 23 (0x17) for GCN 1.4
Syntax: SCRATCH_LOAD_DWORDX4 VDST(4), VADDR|OFF, SADDR|OFF
Description Load four dwords to VDST from scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST[0] = *(UINT32*)VM VDST[1] = *(UINT32*)(VM+4) VDST[2] = *(UINT32*)(VM+8) VDST[3] = *(UINT32*)(VM+12)

SCRATCH_LOAD_SBYTE

Opcode: 17 (0x11) for GCN 1.4
Syntax: SCRATCH_LOAD_SBYTE VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to VDST from scratch memory address with sign extending.
Operation:
VDST = *(INT8*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_LOAD_SBYTE_D16

Opcode: 34 (0x22) for GCN 1.4
Syntax: SCRATCH_LOAD_SBYTE_D16 VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to lower 16-bit part of VDST from scratch memory address with sign extending.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = ((UINT16)*(INT8*)VM) | (VDST&0xffff0000)

SCRATCH_LOAD_SBYTE_D16_HI

Opcode: 35 (0x23) for GCN 1.4
Syntax: SCRATCH_LOAD_SBYTE_D16_HI VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to higher 16-bit part of VDST from scratch memory address with sign extending.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = (((UINT32)*(INT8*)VM)<<16) | (VDST&0xffff)

SCRATCH_LOAD_SHORT_D16

Opcode: 36 (0x24) for GCN 1.4
Syntax: SCRATCH_LOAD_SHORT_D16 VDST, VADDR|OFF, SADDR|OFF
Description: Load 16-bit word to lower 16-bit part of VDST from scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = *(UINT16*)VM | (VDST & 0xffff0000)

SCRATCH_LOAD_SHORT_D16_HI

Opcode: 36 (0x24) for GCN 1.4
Syntax: SCRATCH_LOAD_SHORT_D16_HI VDST, VADDR|OFF, SADDR|OFF
Description: Load 16-bit word to lower 16-bit part of VDST from scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = (((UINT32)*(UINT16*)VM)<<16) | (VDST & 0xffff)

SCRATCH_LOAD_SSHORT

Opcode: 19 (0x13) for GCN 1.4
Syntax: SCRATCH_LOAD_SSHORT VDST, VADDR|OFF, SADDR|OFF
Description: Load 16-bit word to VDST from scratch memory address with sign extending.
Operation:
VDST = *(INT16*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_LOAD_UBYTE

Opcode: 16 (0x10) for GCN 1.4
Syntax: SCRATCH_LOAD_UBYTE VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to VDST from scratch memory address with zero extending.
Operation:
VDST = *(UINT8*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_LOAD_UBYTE_D16

Opcode: 32 (0x20) for GCN 1.4
Syntax: SCRATCH_LOAD_UBYTE_D16 VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to lower 16-bit part of VDST from scratch memory address with zero extending.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = ((UINT16)*(UINT8*)VM) | (VDST&0xffff0000)

SCRATCH_LOAD_UBYTE_D16_HI

Opcode: 33 (0x21) for GCN 1.4
Syntax: SCRATCH_LOAD_UBYTE_D16_HI VDST, VADDR|OFF, SADDR|OFF
Description: Load byte to higher 16-bit part of VDST from scratch memory address with zero extending.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) VDST = (((UINT32)*(UINT8*)VM)<<16) | (VDST&0xffff)

SCRATCH_LOAD_USHORT

Opcode: 18 (0x12) for GCN 1.4
Syntax: SCRATCH_LOAD_USHORT VDST, VADDR|OFF, SADDR|OFF
Description: Load 16-bit word to VDST from scratch memory address with zero extending.
Operation:
VDST = *(UINT16*)SWIZZLE(ADDR, INST_OFFSET, LANEID)

SCRATCH_STORE_BYTE

Opcode: 24 (0x18) for GCN 1.4
Syntax: SCRATCH_STORE_BYTE VADDR|OFF, VDATA, SADDR|OFF
Description: Store byte from VDATA to scratch memory address.
Operation:
*(UINT8*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = VDATA&0xff

SCRATCH_STORE_BYTE_D16_HI

Opcode: 25 (0x19) for GCN 1.4
Syntax: SCRATCH_STORE_BYTE_D16_HI VADDR|OFF, VDATA, SADDR|OFF
Description: Store byte from 16-23 bits of VDATA to scratch memory address.
Operation:
*(UINT8*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = (VDATA>>16)&0xff

SCRATCH_STORE_DWORD

Opcode: 28 (0x1c) for GCN 1.4
Syntax: SCRATCH_STORE_DWORD VADDR|OFF, VDATA, SADDR|OFF
Description: Store dword from VDATA to scratch memory address.
Operation:
*(UINT32*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = VDATA

SCRATCH_STORE_DWORDX2

Opcode: 29 (0x1d) for GCN 1.4
Syntax: SCRATCH_STORE_DWORDX2 VADDR|OFF, VDATA(2), SADDR|OFF
Description: Store two dwords from VDATA to scratch memory address.
Operation:
*(UINT64*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = VDATA

SCRATCH_STORE_DWORDX3

Opcode: 30 (0x1e) for GCN 1.4
Syntax: SCRATCH_STORE_DWORDX3 VADDR|OFF, VDATA(3), SADDR|OFF
Description: Store three dwords from VDATA to scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) *(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2]

SCRATCH_STORE_DWORDX4

Opcode: 31 (0x1d) for GCN 1.4
Syntax: SCRATCH_STORE_DWORDX4 VADDR|OFF, VDATA(4), SADDR|OFF
Description: Store four dwords from VDATA to scratch memory address.
Operation:
BYTE* VM = SWIZZLE(ADDR, INST_OFFSET, LANEID) *(UINT32*)(VM) = VDATA[0] *(UINT32*)(VM+4) = VDATA[1] *(UINT32*)(VM+8) = VDATA[2] *(UINT32*)(VM+12) = VDATA[3]

SCRATCH_STORE_SHORT

Opcode: 26 (0x1a) for GCN 1.4
Syntax: SCRATCH_STORE_SHORT VADDR|OFF, VDATA, SADDR|OFF
Description: Store 16-bit word from VDATA to scratch memory address.
Operation:
*(UINT16*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = VDATA&0xffff

SCRATCH_STORE_SHORT_D16_HI

Opcode: 27 (0x1b) for GCN 1.4
Syntax: SCRATCH_STORE_SHORT_D16_HI VADDR|OFF, VDATA, SADDR|OFF
Description: Store 16-bit word from higher 16-bit part of VDATA to scratch memory address.
Operation:
*(UINT16*)SWIZZLE(ADDR, INST_OFFSET, LANEID) = VDATA>>16