wiki:GcnInstrsMimg

Version 24 (modified by trac, 6 years ago) (diff)

--

Back to Table of content

GCN ISA MIMG instructions

These instructions allow to access to images. MIMG instructions operates on the image resources and on the sampler resources.

List of fields for the MIMG encoding:

Bits Name Description
8-11 DMASK Enable mask for read/write data components
12 UNORM Accepts unnormalized coordinates
13 GLC Globally coherent
14 DA Data array (required by array of 1D and 2D images)
15 R128 Image resource size = 128 bits (GCN 1.0/1.1/1.2)
15 A16 Address components are 16-bits (GCN 1.4)
16 TFE Texture Fail Enable (for partially resident textures).
17 LWE LOD Warning Enable (for partially resident textures).
18-24 OPCODE Operation code
25 SLC System level coherent
26-31 ENCODING Encoding type. Must be 0b111100
32-39 VADDR Vector address operands
40-47 VDATA Vector data registers
48-52 SRSRC Scalar registers with buffer resource (SGPR# is 4*value)
53-57 SSAMP Scalar registers with sampler resource (SGPR# is 4*value)
63 D16 Convert 32-bit data to 16-bit data (GCN 1.2)

Instruction syntax: INSTRUCTION VDATA, VADDR, SRSRC [MODIFIERS]
Instruction syntax: INSTRUCTION VDATA, VADDR, SRSRC, SSAMP [MODIFIERS]

Modifiers can be supplied in any order. Modifiers list: SLC, GLC, TFE, LWE, DA, R128. The TFE flag requires additional the VDATA register.

The MIMG instructions is executed in order. Any MIMG instruction increments VMCNT and it decrements VMCNT after memory operation. Any memory-write operation increments EXPCNT, and it decrements EXPCNT after reading data from VDATA.

Instructions by opcode

List of the MIMG instructions by opcode (GCN 1.0/1.1):

Opcode GCN 1.0 GCN 1.1 Mnemonic
0 (0x0) IMAGE_LOAD
1 (0x1) IMAGE_LOAD_MIP
2 (0x2) IMAGE_LOAD_PCK
3 (0x3) IMAGE_LOAD_PCK_SGN
4 (0x4) IMAGE_LOAD_MIP_PCK
5 (0x5) IMAGE_LOAD_MIP_PCK_SGN
8 (0x8) IMAGE_STORE
9 (0x9) IMAGE_STORE_MIP
10 (0xa) IMAGE_STORE_PCK
11 (0xb) IMAGE_STORE_MIP_PCK
14 (0xe) IMAGE_GET_RESINFO
15 (0xf) IMAGE_ATOMIC_SWAP
16 (0x10) IMAGE_ATOMIC_CMPSWAP
17 (0x11) IMAGE_ATOMIC_ADD
18 (0x12) IMAGE_ATOMIC_SUB
19 (0x13) IMAGE_ATOMIC_RSUB
20 (0x14) IMAGE_ATOMIC_SMIN
21 (0x15) IMAGE_ATOMIC_UMIN
22 (0x16) IMAGE_ATOMIC_SMAX
23 (0x17) IMAGE_ATOMIC_UMAX
24 (0x18) IMAGE_ATOMIC_AND
25 (0x19) IMAGE_ATOMIC_OR
26 (0x1a) IMAGE_ATOMIC_XOR
27 (0x1b) IMAGE_ATOMIC_INC
28 (0x1c) IMAGE_ATOMIC_DEC
29 (0x1d) IMAGE_ATOMIC_FCMPSWAP
30 (0x1e) IMAGE_ATOMIC_FMIN
31 (0x1f) IMAGE_ATOMIC_FMAX
32 (0x20) IMAGE_SAMPLE
33 (0x21) IMAGE_SAMPLE_CL
34 (0x22) IMAGE_SAMPLE_D
35 (0x23) IMAGE_SAMPLE_D_CL
36 (0x24) IMAGE_SAMPLE_L
37 (0x25) IMAGE_SAMPLE_B
38 (0x26) IMAGE_SAMPLE_B_CL
39 (0x27) IMAGE_SAMPLE_LZ
40 (0x28) IMAGE_SAMPLE_C
41 (0x29) IMAGE_SAMPLE_C_CL
42 (0x2a) IMAGE_SAMPLE_C_D
43 (0x2b) IMAGE_SAMPLE_C_D_CL
44 (0x2c) IMAGE_SAMPLE_C_L
45 (0x2d) IMAGE_SAMPLE_C_B
46 (0x2e) IMAGE_SAMPLE_C_B_CL
47 (0x2f) IMAGE_SAMPLE_C_LZ
48 (0x30) IMAGE_SAMPLE_O
49 (0x31) IMAGE_SAMPLE_CL_O
50 (0x32) IMAGE_SAMPLE_D_O
51 (0x33) IMAGE_SAMPLE_D_CL_O
52 (0x34) IMAGE_SAMPLE_L_O
53 (0x35) IMAGE_SAMPLE_B_O
54 (0x36) IMAGE_SAMPLE_B_CL_O
55 (0x37) IMAGE_SAMPLE_LZ_O
56 (0x38) IMAGE_SAMPLE_C_O
57 (0x39) IMAGE_SAMPLE_C_CL_O
58 (0x3a) IMAGE_SAMPLE_C_D_O
59 (0x3b) IMAGE_SAMPLE_C_D_CL_O
60 (0x3c) IMAGE_SAMPLE_C_L_O
61 (0x3d) IMAGE_SAMPLE_C_B_O
62 (0x3e) IMAGE_SAMPLE_C_B_CL_O
63 (0x3f) IMAGE_SAMPLE_C_LZ_O
64 (0x40) IMAGE_GATHER4
65 (0x41) IMAGE_GATHER4_CL
68 (0x44) IMAGE_GATHER4_L
69 (0x45) IMAGE_GATHER4_B
70 (0x46) IMAGE_GATHER4_B_CL
71 (0x47) IMAGE_GATHER4_LZ
72 (0x48) IMAGE_GATHER4_C
73 (0x49) IMAGE_GATHER4_C_CL
76 (0x4c) IMAGE_GATHER4_C_L
77 (0x4d) IMAGE_GATHER4_C_B
78 (0x4e) IMAGE_GATHER4_C_B_CL
79 (0x4f) IMAGE_GATHER4_C_LZ
80 (0x50) IMAGE_GATHER4_O
81 (0x51) IMAGE_GATHER4_CL_O
84 (0x54) IMAGE_GATHER4_L_O
85 (0x55) IMAGE_GATHER4_B_O
86 (0x56) IMAGE_GATHER4_B_CL_O
87 (0x57) IMAGE_GATHER4_LZ_O
88 (0x58) IMAGE_GATHER4_C_O
89 (0x59) IMAGE_GATHER4_C_CL_O
92 (0x5c) IMAGE_GATHER4_C_L_O
93 (0x5d) IMAGE_GATHER4_C_B_O
94 (0x5e) IMAGE_GATHER4_C_B_CL_O
95 (0x5f) IMAGE_GATHER4_C_LZ_O
96 (0x60) IMAGE_GET_LOD
104 (0x68) IMAGE_SAMPLE_CD
105 (0x69) IMAGE_SAMPLE_CD_CL
106 (0x6a) IMAGE_SAMPLE_C_CD
107 (0x6b) IMAGE_SAMPLE_C_CD_CL
108 (0x6c) IMAGE_SAMPLE_CD_O
109 (0x6d) IMAGE_SAMPLE_CD_CL_O
110 (0x6e) IMAGE_SAMPLE_C_CD_O
111 (0x6f) IMAGE_SAMPLE_C_CD_CL_O

List of the MIMG instructions by opcode (GCN 1.2/1.4):

Opcode Mnemonic
0 (0x0) IMAGE_LOAD
1 (0x1) IMAGE_LOAD_MIP
2 (0x2) IMAGE_LOAD_PCK
3 (0x3) IMAGE_LOAD_PCK_SGN
4 (0x4) IMAGE_LOAD_MIP_PCK
5 (0x5) IMAGE_LOAD_MIP_PCK_SGN
8 (0x8) IMAGE_STORE
9 (0x9) IMAGE_STORE_MIP
10 (0xa) IMAGE_STORE_PCK
11 (0xb) IMAGE_STORE_MIP_PCK
14 (0xe) IMAGE_GET_RESINFO
16 (0x10) IMAGE_ATOMIC_SWAP
17 (0x11) IMAGE_ATOMIC_CMPSWAP
18 (0x12) IMAGE_ATOMIC_ADD
19 (0x13) IMAGE_ATOMIC_SUB
20 (0x14) IMAGE_ATOMIC_SMIN
21 (0x15) IMAGE_ATOMIC_UMIN
22 (0x16) IMAGE_ATOMIC_SMAX
23 (0x17) IMAGE_ATOMIC_UMAX
24 (0x18) IMAGE_ATOMIC_AND
25 (0x19) IMAGE_ATOMIC_OR
26 (0x1a) IMAGE_ATOMIC_XOR
27 (0x1b) IMAGE_ATOMIC_INC
28 (0x1c) IMAGE_ATOMIC_DEC
32 (0x20) IMAGE_SAMPLE
33 (0x21) IMAGE_SAMPLE_CL
34 (0x22) IMAGE_SAMPLE_D
35 (0x23) IMAGE_SAMPLE_D_CL
36 (0x24) IMAGE_SAMPLE_L
37 (0x25) IMAGE_SAMPLE_B
38 (0x26) IMAGE_SAMPLE_B_CL
39 (0x27) IMAGE_SAMPLE_LZ
40 (0x28) IMAGE_SAMPLE_C
41 (0x29) IMAGE_SAMPLE_C_CL
42 (0x2a) IMAGE_SAMPLE_C_D
43 (0x2b) IMAGE_SAMPLE_C_D_CL
44 (0x2c) IMAGE_SAMPLE_C_L
45 (0x2d) IMAGE_SAMPLE_C_B
46 (0x2e) IMAGE_SAMPLE_C_B_CL
47 (0x2f) IMAGE_SAMPLE_C_LZ
48 (0x30) IMAGE_SAMPLE_O
49 (0x31) IMAGE_SAMPLE_CL_O
50 (0x32) IMAGE_SAMPLE_D_O
51 (0x33) IMAGE_SAMPLE_D_CL_O
52 (0x34) IMAGE_SAMPLE_L_O
53 (0x35) IMAGE_SAMPLE_B_O
54 (0x36) IMAGE_SAMPLE_B_CL_O
55 (0x37) IMAGE_SAMPLE_LZ_O
56 (0x38) IMAGE_SAMPLE_C_O
57 (0x39) IMAGE_SAMPLE_C_CL_O
58 (0x3a) IMAGE_SAMPLE_C_D_O
59 (0x3b) IMAGE_SAMPLE_C_D_CL_O
60 (0x3c) IMAGE_SAMPLE_C_L_O
61 (0x3d) IMAGE_SAMPLE_C_B_O
62 (0x3e) IMAGE_SAMPLE_C_B_CL_O
63 (0x3f) IMAGE_SAMPLE_C_LZ_O
64 (0x40) IMAGE_GATHER4
65 (0x41) IMAGE_GATHER4_CL
68 (0x44) IMAGE_GATHER4_L
69 (0x45) IMAGE_GATHER4_B
70 (0x46) IMAGE_GATHER4_B_CL
71 (0x47) IMAGE_GATHER4_LZ
72 (0x48) IMAGE_GATHER4_C
73 (0x49) IMAGE_GATHER4_C_CL
76 (0x4c) IMAGE_GATHER4_C_L
77 (0x4d) IMAGE_GATHER4_C_B
78 (0x4e) IMAGE_GATHER4_C_B_CL
79 (0x4f) IMAGE_GATHER4_C_LZ
80 (0x50) IMAGE_GATHER4_O
81 (0x51) IMAGE_GATHER4_CL_O
84 (0x54) IMAGE_GATHER4_L_O
85 (0x55) IMAGE_GATHER4_B_O
86 (0x56) IMAGE_GATHER4_B_CL_O
87 (0x57) IMAGE_GATHER4_LZ_O
88 (0x58) IMAGE_GATHER4_C_O
89 (0x59) IMAGE_GATHER4_C_CL_O
92 (0x5c) IMAGE_GATHER4_C_L_O
93 (0x5d) IMAGE_GATHER4_C_B_O
94 (0x5e) IMAGE_GATHER4_C_B_CL_O
95 (0x5f) IMAGE_GATHER4_C_LZ_O
96 (0x60) IMAGE_GET_LOD
104 (0x68) IMAGE_SAMPLE_CD
105 (0x69) IMAGE_SAMPLE_CD_CL
106 (0x6a) IMAGE_SAMPLE_C_CD
107 (0x6b) IMAGE_SAMPLE_C_CD_CL
108 (0x6c) IMAGE_SAMPLE_CD_O
109 (0x6d) IMAGE_SAMPLE_CD_CL_O
110 (0x6e) IMAGE_SAMPLE_C_CD_O
111 (0x6f) IMAGE_SAMPLE_C_CD_CL_O

Suffix instruction meaning

Following table describes suffixes for IMAGE_SAMPLE_* and IMAGE_GATHER4_* instructions:

Suffix Meaning Extra addresses Description
_L LOD 1: lod LOD is used instead of TA computed LOD.
_B LOD BIAS lod bias Add this BIAS to the LOD TA computes.
_CL LOD CLAMP 1: clamp Clamp the LOD to be no larger than this value.
_D Derivative 2,4 or 6: dwords Send dx/dv, dx/dy, etc. slopes to TA for it to used in LOD computation.
_CD Coarse Derivative 2,4 or 6: dwords Look at _D
_LZ Level 0 - Force use of MIP level 0.
_C PCF 1: z-comp Percentage closer filtering.
_O Offset 1: offsets Send X, Y, Z integer offsets (packed into 1 Dword) to offset XYZ address.
  • _L - choose LOD from VADDR from last register, after other components.
  • _C - compare (by using z-compare function from sampler) fetched data from image (first component of pixel) with Z-COMP component from VADDR. Working only with floating point images.
  • _O - apply offset to image's address (add X, Y and Z offset to X, Y and Z coordinates).

Instruction set

NOTE: While discovering and testing, many instructions behaved in unexpected manner on GCN 1.0 device (mainly non-standard IMAGE_SAMPLE_* and IMAGE_GATHER4_* instructions). Hence, no operation's listing to these instructions and only brief descriptions. However, IMAGE_LOAD_*, IMAGE_STORE_* and IMAGE_ATOMIC_* has been explained quite good.

Alphabetically sorted instruction list:

IMAGE_ATOMIC_ADD

Opcode: 17 (0x11) for GCN 1.0/1.1; 18 (0x12) for GCN 1.2
Syntax: IMAGE_ATOMIC_ADD VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Add VDATA dwords or 64-bit words (if VDATA size is greater than 32-bit) to values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = VDATA[0]+((UINT*)VM)[0] else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = VDATA[i]+((UINT64*)VM)[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_AND

Opcode: 24 (0x18)
Syntax: IMAGE_ATOMIC_AND VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Do bitwise AND on VDATA dwords and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; for (BYTE i = 0; i < (sizeof(VDATA)>>2); i++) ((UINT*)VM)[i] = VDATA[i] & ((UINT*)VM)[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_CMPSWAP

Opcode: 16 (0x10) for GCN 1.0/1.1; 17 (0x11) for GCN 1.2
Syntax: IMAGE_ATOMIC_CMPSWAP VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store first half of VDATA into image SRSRC to pixel at address VADDR if second half of VDATA is equal old value from image's pixel, otherwise keep old value from that pixel. Data type determined by image data format and half number of enabled bits in DMASK. Four dword data types are not supported. If GLC is set then return old values from image, otherwise keep VDATA value. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE VDL = VDATA[0:(VDATA_SIZE>>1)-1] PIXELTYPE VDH = VDATA[VDATA_SIZE>>1:VDATA_SIZE-1] PIXELTYPE P = *VM; *VM = *VM==(VDH) ? VDL : *VM // part of atomic VDATA[0:(VDATA_SIZE>>1)-1] = (GLC) ? P : VDL // last part of atomic

IMAGE_ATOMIC_DEC

Opcode: 28 (0x1c)
Syntax: IMAGE_ATOMIC_DEC VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Compare dwords or 64-bit words (if VDATA size is greater than 32-bit) of image SRSRC and if less or equal than VDATA words and this value is not zero, then decrement value from image, otherwise store VDATA into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = (*(UINT*)VM <= VDATA[0] && *(UINT*)VM!=0) ? \ *(UINT*)VM-1 : VDATA else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = (((UINT64*)VM)[i] <= VDATA[i] && ((UINT64*)VM)[i]!=0) ? \ ((UINT64*)VM)[i]-1 : VDATA[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_FCMPSWAP

Opcode: 29 (0x1d) for GCN 1.0/1.1
Syntax: IMAGE_ATOMIC_FCMPSWAP VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store first single/double floating point value of VDATA into image SRSRC to pixel at address VADDR if second single/double FP of VDATA is equal old value from image's pixel, otherwise keep old value from that pixel. Data type determined by image data format and half number of enabled bits in DMASK. Four dword data types are not supported. If GLC is set then return old values from image, otherwise keep VDATA value. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) if (sizeof(PIXELTYPE)==8) { DOUBLE P = *VM; *VM = *VM==ASDOUBLE(VDATA[1]) ? VDATA[0] : *VM // part of atomic VDATA[0] = (GLC) ? P : VDATA[0] // last part of atomic } else { FLOAT P = *VM; *VM = *VM==ASFLOAT(VDATA[1]) ? VDATA[0] : *VM // part of atomic VDATA[0] = (GLC) ? P : VDATA[0] // last part of atomic }

IMAGE_ATOMIC_FMAX

Opcode: 31 (0x1f) for GCN 1.0/1.1
Syntax: IMAGE_ATOMIC_FMAX VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose greatest single or double (if VDATA size is greater than 32-bit) floating point values between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((FLOAT*)VM)[0] = MAX(ASFLOAT(VDATA[0]),((FLOAT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((DOUBLE*)VM)[i] = MAX(ASDOUBLE(VDATA[i]),((DOUBLE*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_FMIN

Opcode: 30 (0x1e) for GCN 1.0/1.1
Syntax: IMAGE_ATOMIC_FMIN VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose smallest single or double (if VDATA size is greater than 32-bit) floating point values between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((FLOAT*)VM)[0] = MIN(ASFLOAT(VDATA[0]),((FLOAT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((DOUBLE*)VM)[i] = MIN(ASDOUBLE(VDATA[i]),((DOUBLE*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_INC

Opcode: 27 (0x1b)
Syntax: IMAGE_ATOMIC_INC VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Compare dwords or 64-bit words (if VDATA size is greater than 32-bit) of image SRSRC and if less than VDATA words, then increment value from image, otherwise store zero into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = (*(UINT*)VM < VDATA[0]) ? *(UINT*)VM-1 : 0 else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = (((UINT64*)VM)[i] < VDATA[i]) ? ((UINT64*)VM)[i]+1 : 0 VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_OR

Opcode: 25 (0x19)
Syntax: IMAGE_ATOMIC_OR VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Do bitwise OR on VDATA dwords and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; for (BYTE i = 0; i < (sizeof(VDATA)>>2); i++) ((UINT*)VM)[i] = VDATA[i] | ((UINT*)VM)[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_RSUB

Opcode: 19 (0x13) for GCN 1.0/1.1
Syntax: IMAGE_ATOMIC_RSUB VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Subtract values of image SRSRC at address VADDR from VDATA dwords or 64-bit words (if VDATA size is greater than 32-bit), and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = ((UINT*)VM)[0]-VDATA[0] else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = ((UINT64*)VM)[i]-VDATA[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_SMAX

Opcode: 21 (0x15)
Syntax: IMAGE_ATOMIC_SMAX VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose greatest signed dwords or 64-bit words (if VDATA size is greater than 32-bit) between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((INT*)VM)[0] = MAX((INT)VDATA[0],((INT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((INT64*)VM)[i] = MAX(INT64)VDATA[i],((INT64*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_SMIN

Opcode: 20 (0x14)
Syntax: IMAGE_ATOMIC_SMIN VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose smallest signed dwords or 64-bit words (if VDATA size is greater than 32-bit) between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((INT*)VM)[0] = MIN((INT)VDATA[0],((INT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((INT64*)VM)[i] = MIN(INT64)VDATA[i],((INT64*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_SUB

Opcode: 18 (0x12) for GCN 1.0/1.1; 19 (0x13) for GCN 1.2
Syntax: IMAGE_ATOMIC_SUB VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Subtract VDATA dwords or 64-bit words (if VDATA size is greater than 32-bit) from values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = VDATA[0]-((UINT*)VM)[0] else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = VDATA[i]-((UINT64*)VM)[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_SWAP

Opcode: 15 (0xf) for GCN 1.0/1.1; 16 (0x10) for GCN 1.2
Syntax: IMAGE_ATOMIC_SWAP VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store VDATA into image SRSRC to pixel at address VADDR. If GLC is set then return old values from image, otherwise keep VDATA value. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; *VM = VDATA; VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_UMAX

Opcode: 23 (0x17)
Syntax: IMAGE_ATOMIC_UMAX VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose greatest unsigned dwords or 64-bit words (if VDATA size is greater than 32-bit) between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = MAX(VDATA[0],((UINT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = MAX(VDATA[i],((UINT64*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_UMIN

Opcode: 22 (0x16)
Syntax: IMAGE_ATOMIC_UMIN VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Choose smallest unsigned dwords or 64-bit words (if VDATA size is greater than 32-bit) between VDATA values and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; if (sizeof(PIXELTYPE)==4) ((UINT*)VM)[0] = MIN(VDATA[0],((UINT*)VM)[0]) else // add 64-bit dwords for (BYTE i = 0; i < (sizeof(VDATA)>>3); i++) ((UINT64*)VM)[i] = MIN(VDATA[i],((UINT64*)VM)[i]) VDATA = (GLC) ? P : VDATA // atomic

IMAGE_ATOMIC_XOR

Opcode: 26 (0x1a)
Syntax: IMAGE_ATOMIC_XOR VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Do bitwise XOR on VDATA dwords and values of image SRSRC at address VADDR, and store result into image. If GLC is set then return old values from image, otherwise keep VDATA value. Only 32-bit, 64-bit and 128-bit data formats are supported. Operation is atomic.
Operation:
PIXELTYPE* VM = VMIMG(SRSRC, VADDR) PIXELTYPE P = *VM; for (BYTE i = 0; i < (sizeof(VDATA)>>2); i++) ((UINT*)VM)[i] = VDATA[i] ^ ((UINT*)VM)[i] VDATA = (GLC) ? P : VDATA // atomic

IMAGE_GATHER4

Opcode: 64 (0x40)
Syntax: IMAGE_GATHER4 VDATA(4), VADDR(1:4), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Choosen component is first one bit in DMASK. The left top pixel are choosen from FLOOR(X-0.5) for X coordinate, FLOOR(Y-0.5) for Y coordinate. Following VDATA registers stores:

  • VDATA[0] - bottom left pixel's component (X,Y+1)
  • VDATA[1] - bottom right pixel's component (X+1,Y+1)
  • VDATA[2] - top right pixel's component (X+1,Y)
  • VDATA[3] - top left pixel's component (X,Y)

Operation:
INT X = FLOOR(ASFLOAT(VADDR[0])-0.5) INT Y = FLOOR(ASFLOAT(VADDR[1])-0.5) COMPTYPE* VMLT = VMIMG_SAMPLE(SRSRC, { X, Y, VADDR[2] }, SSAMP) COMPTYPE* VMRT = VMIMG_SAMPLE(SRSRC, { X+1 Y, VADDR[2] }, SSAMP) COMPTYPE* VMLB = VMIMG_SAMPLE(SRSRC, { X, Y+1, VADDR[2] }, SSAMP) COMPTYPE* VMRB = VMIMG_SAMPLE(SRSRC, { X+1, Y+1, VADDR[2] }, SSAMP) BYTE COMP = (DMASK&1) ? 0 : (DMASK&2) ? 1 : (DMASK&4) ? 2 : 3; VDATA[0] = CONVERT_FROM_IMAGE(SRSRC, VMLB)[COMP] VDATA[1] = CONVERT_FROM_IMAGE(SRSRC, VMRB)[COMP] VDATA[2] = CONVERT_FROM_IMAGE(SRSRC, VMRT)[COMP] VDATA[3] = CONVERT_FROM_IMAGE(SRSRC, VMLT)[COMP]

IMAGE_GATHER4_B

Opcode: 69 (0x45)
Syntax: IMAGE_GATHER4_B VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the LOD bias value.

IMAGE_GATHER4_B_O

Opcode: 85 (0x55)
Syntax: IMAGE_GATHER4_B_O VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value.

IMAGE_GATHER4_B_CL

Opcode: 70 (0x46)
Syntax: IMAGE_GATHER4_B_CL VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the LOD bias value. The last address register holds the clamp value.

IMAGE_GATHER4_B_CL_O

Opcode: 86 (0x56)
Syntax: IMAGE_GATHER4_B_CL_O VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. The last address register holds the clamp value.

IMAGE_GATHER4_C

Opcode: 72 (0x48)
Syntax: IMAGE_GATHER4_C VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value.

IMAGE_GATHER4_C_O

Opcode: 88 (0x58)
Syntax: IMAGE_GATHER4_C_O VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value.

IMAGE_GATHER4_C_B

Opcode: 77 (0x4d)
Syntax: IMAGE_GATHER4_C_B VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the LOD bias value. Next address register holds the Z-compare value.

IMAGE_GATHER4_C_B_O

Opcode: 93 (0x5d)
Syntax: IMAGE_GATHER4_C_B_O VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. Next address register holds the Z-compare value.

IMAGE_GATHER4_C_B_CL

Opcode: 78 (0x4e)
Syntax: IMAGE_GATHER4_C_B_CL VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the LOD bias value. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_GATHER4_C_B_CL_O

Opcode: 94 (0x5e)
Syntax: IMAGE_GATHER4_C_B_CL_O VDATA(4), VADDR(5:8), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_GATHER4_C_CL

Opcode: 73 (0x49)
Syntax: IMAGE_GATHER4_C_CL VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_GATHER4_C_CL_O

Opcode: 89 (0x59)
Syntax: IMAGE_GATHER4_C_CL_O VDATA(4), VADDR(5:8), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_GATHER4_C_L

Opcode: 76 (0x4c)
Syntax: IMAGE_GATHER4_C_L VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. The last address register holds the LOD value.

IMAGE_GATHER4_C_L_O

Opcode: 92 (0x5c)
Syntax: IMAGE_GATHER4_C_L_O VDATA(4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. The last address register holds the LOD value.

IMAGE_GATHER4_C_LZ

Opcode: 79 (0x4f)
Syntax: IMAGE_GATHER4_C_LZ VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Force use of mipmap level 0 (???).

IMAGE_GATHER4_C_LZ_O

Opcode: 95 (0x5f)
Syntax: IMAGE_GATHER4_C_LZ_O VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Force use of mipmap level 0 (???).

IMAGE_GATHER4_CL

Opcode: 65 (0x41)
Syntax: IMAGE_GATHER4_CL VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The last address register holds the clamp value.

IMAGE_GATHER4_CL_O

Opcode: 81 (0x51)
Syntax: IMAGE_GATHER4_CL_O VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z. The last address register holds the clamp value.

IMAGE_GATHER4_L

Opcode: 68 (0x44)
Syntax: IMAGE_GATHER4_L VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The last address register holds the LOD value.

IMAGE_GATHER4_L_O

Opcode: 84 (0x54)
Syntax: IMAGE_GATHER4_L_O VDATA(4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z. The last address register holds the LOD value.

IMAGE_GATHER4_LZ

Opcode: 71 (0x47)
Syntax: IMAGE_GATHER4_LZ VDATA(4), VADDR(1:4), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. Force use of mipmap level 0 (???).

IMAGE_GATHER4_LZ_O

Opcode: 87 (0x57)
Syntax: IMAGE_GATHER4_LZ_O VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z. Force use of mipmap level 0 (???).

IMAGE_GATHER4_O

Opcode: 80 (0x50)
Syntax: IMAGE_GATHER4_O VDATA(4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get component's value from 4 neighboring pixels, starting from coordinates from VADDR. Refer to IMAGE_GATHER4 to learn about algorithm. The first address register holds the offset for X,Y,Z.

IMAGE_LOAD

Opcode: 0 (0x0)
Syntax: IMAGE_LOAD VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR, and store their data to VDATA. Loaded data are converted to format given in image resource.
Operation:
PIXELTYPE* V = VMIMG(SRSRC, VADDR) VDATA = GET_SAMPLES(CONVERT_FROM_IMAGE(SRSRC, V), DMASK)

IMAGE_LOAD_MIP

Opcode: 1 (0x1)
Syntax: IMAGE_LOAD_MIP VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR including MIP index, and store their data to VDATA. Loaded data are converted to format given in image resource.
Operation:
PIXELTYPE* V = VMIMG_MIP(SRSRC, VADDR) VDATA = GET_SAMPLES(CONVERT_FROM_IMAGE(SRSRC, V), DMASK)

IMAGE_LOAD_MIP_PCK

Opcode: 4 (0x4)
Syntax: IMAGE_LOAD_MIP_PCK VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR including MIP index, and store their data to VDATA. Loaded data are raw without any conversion. DMASK controls what dwords will be stored to VDATA.
Operation:
PIXELTYPE* V = VMIMG_MIP(SRSRC, VADDR) VDATA = GET_SAMPLES(V, DMASK)

IMAGE_LOAD_MIP_PCK_SGN

Opcode: 5 (0x5)
Syntax: IMAGE_LOAD_MIP_PCK_SGN VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR including MIP index, and store their data to VDATA. Loaded data are raw without any conversion, but sign extended. DMASK controls what dwords will be stored to VDATA.
Operation:
PIXELTYPE* V = VMIMG_MIP(SRSRC, VADDR) VDATA = GET_SAMPLES(V, DMASK) BYTE COMPBITS = COMPBITS(SRSRC) for (BYTE i = 0; i < BIT_CNT(DMASK); i++) VDATA[i] = SEXT(VDATA[i], COMPBITS)

IMAGE_LOAD_PCK

Opcode: 2 (0x2)
Syntax: IMAGE_LOAD_PCK VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR, and store their data to VDATA. Loaded data are raw without any conversion. DMASK controls what dwords will be stored to VDATA.
Operation:
PIXELTYPE* V = VMIMG(SRSRC, VADDR) VDATA = GET_SAMPLES(V, DMASK)

IMAGE_LOAD_PCK_SGN

Opcode: 3 (0x3)
Syntax: IMAGE_LOAD_PCK_SGN VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Load data from image SRSRC from pixel at address VADDR, and store their data to VDATA. Loaded data are raw without any conversion, but sign extended. DMASK controls what dwords will be stored to VDATA.
Operation:
PIXELTYPE* V = VMIMG(SRSRC, VADDR) VDATA = GET_SAMPLES(V, DMASK) BYTE COMPBITS = COMPBITS(SRSRC) for (BYTE i = 0; i < BIT_CNT(DMASK); i++) VDATA[i] = SEXT(VDATA[i], COMPBITS)

IMAGE_SAMPLE

Opcode: 32 (0x20)
Syntax: IMAGE_SAMPLE VDATA(1:4), VADDR(1:4), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler.

IMAGE_SAMPLE_B

Opcode: 37 (0x25)
Syntax: IMAGE_SAMPLE_B VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the LOD bias value.

IMAGE_SAMPLE_B_CL

Opcode: 38 (0x26)
Syntax: IMAGE_SAMPLE_B_CL VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the LOD bias value. The last address register holds the clamp value.

IMAGE_SAMPLE_B_CL_O

Opcode: 54 (0x36)
Syntax: IMAGE_SAMPLE_B_CL_O VDATA(1:4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. The last address register holds the clamp value.

IMAGE_SAMPLE_B_O

Opcode: 53 (0x35)
Syntax: IMAGE_SAMPLE_B_O VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. The last address register holds the clamp value.

IMAGE_SAMPLE_C

Opcode: 40 (0x28)
Syntax: IMAGE_SAMPLE_C VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value.

IMAGE_SAMPLE_C_B

Opcode: 45 (0x2d)
Syntax: IMAGE_SAMPLE_C_B VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first register holds the LOD bias value. Next address register holds the Z-compare value.

IMAGE_SAMPLE_C_B_CL

Opcode: 46 (0x2e)
Syntax: IMAGE_SAMPLE_C_B_CL VDATA(1:4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first register holds the LOD bias value. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_SAMPLE_C_B_CL_O

Opcode: 62 (0x62)
Syntax: IMAGE_SAMPLE_C_B_CL_O VDATA(1:4), VADDR(5:8), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_SAMPLE_C_B_O

Opcode: 61 (0x3d)
Syntax: IMAGE_SAMPLE_C_B_O VDATA(1:4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the LOD bias value. Next address register holds the Z-compare value.

IMAGE_SAMPLE_C_CD

Opcode: 106 (0x6a)
Syntax: IMAGE_SAMPLE_C_CD VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Next 2-6 address registers holds user derivatives (coarse derivatives).

IMAGE_SAMPLE_C_CD_CL

Opcode: 107 (0x6b)
Syntax: IMAGE_SAMPLE_C_CD_CL VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Next 2-6 address registers holds user derivatives (coarse derivatives). The last address register holds the clamp value.

IMAGE_SAMPLE_C_CL

Opcode: 41 (0x29)
Syntax: IMAGE_SAMPLE_C_CL VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_SAMPLE_C_CL_O

Opcode: 57 (0x39)
Syntax: IMAGE_SAMPLE_C_CL_O VDATA(1:4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. The last address register holds the clamp value.

IMAGE_SAMPLE_C_D

Opcode: 42 (0x2a)
Syntax: IMAGE_SAMPLE_C_D VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Next 2-6 address registers holds user derivatives.

IMAGE_SAMPLE_C_D_CL

Opcode: 43 (0x2b)
Syntax: IMAGE_SAMPLE_C_D_CL VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Next 2-6 address registers holds user derivatives. The last address register holds the clamp value.

IMAGE_SAMPLE_C_CD_CL_O

Opcode: 111 (0x6f)
Syntax: IMAGE_SAMPLE_C_CD_CL_O VDATA(1:4), VADDR(6:13), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Next 2-6 address registers holds user derivatives (coarse derivatives). The last address register holds the clamp value.

IMAGE_SAMPLE_C_CD_O

Opcode: 110 (0x6e)
Syntax: IMAGE_SAMPLE_C_CD_O VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Next 2-6 address registers holds user derivatives (coarse derivatives).

IMAGE_SAMPLE_C_D_CL_O

Opcode: 59 (0x3b)
Syntax: IMAGE_SAMPLE_C_D_CL_O VDATA(1:4), VADDR(6:13), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Next 2-6 address registers holds user derivatives. The last address register holds the clamp value.

IMAGE_SAMPLE_C_D_O

Opcode: 58 (0x3a)
Syntax: IMAGE_SAMPLE_C_D_O VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Next 2-6 address registers holds user derivatives.

IMAGE_SAMPLE_C_L

Opcode: 44 (0x2c)
Syntax: IMAGE_SAMPLE_C_L VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. The last address register holds the LOD value.

IMAGE_SAMPLE_C_L_O

Opcode: 60 (0x3c)
Syntax: IMAGE_SAMPLE_C_L_O VDATA(1:4), VADDR(4:7), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. The last address register holds the LOD value.

IMAGE_SAMPLE_C_LZ

Opcode: 47 (0x2f)
Syntax: IMAGE_SAMPLE_C_LZ VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the Z-compare value. Force use of mipmap level 0 (???).

IMAGE_SAMPLE_C_LZ_O

Opcode: 63 (0x3f)
Syntax: IMAGE_SAMPLE_C_LZ_O VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value. Force use of mipmap level 0 (???).

IMAGE_SAMPLE_C_O

Opcode: 56 (0x38)
Syntax: IMAGE_SAMPLE_C_O VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The instruction performs Z-compare operation choosen in SSAMP sampler. The first address register holds the offset for X,Y,Z. Next address register holds the Z-compare value.

IMAGE_SAMPLE_CD

Opcode: 104 (0x68)
Syntax: IMAGE_SAMPLE_CD VDATA(1:4), VADDR(3:10), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first 2-6 address registers holds user derivatives (coarse derivatives).

IMAGE_SAMPLE_CD_CL

Opcode: 105 (0x69)
Syntax: IMAGE_SAMPLE_CD_CL VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first 2-6 address registers holds user derivatives (coarse derivatives). The last address register holds the clamp value.

IMAGE_SAMPLE_CD_CL_O

Opcode: 109 (0x6d)
Syntax: IMAGE_SAMPLE_CD_CL_O VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next 2-6 address registers holds user derivatives (coarse derivatives). The last address register holds the clamp value.

IMAGE_SAMPLE_CD_O

Opcode: 108 (0x6c)
Syntax: IMAGE_SAMPLE_CD_O VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next 2-6 address registers holds user derivatives (coarse derivatives).

IMAGE_SAMPLE_CL

Opcode: 33 (0x21)
Syntax: IMAGE_SAMPLE_CL VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The last address register holds the clamp value.

IMAGE_SAMPLE_CL_O

Opcode: 49 (0x31)
Syntax: IMAGE_SAMPLE_CL_O VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. The last address register holds the clamp value.

IMAGE_SAMPLE_D

Opcode: 34 (0x22)
Syntax: IMAGE_SAMPLE_D VDATA(1:4), VADDR(3:10), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first 2-6 address registers holds user derivatives.

IMAGE_SAMPLE_D_CL

Opcode: 35 (0x23)
Syntax: IMAGE_SAMPLE_D_CL VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first 2-6 address registers holds user derivatives. The last address register holds the clamp value.

IMAGE_SAMPLE_D_CL_O

Opcode: 51 (0x33)
Syntax: IMAGE_SAMPLE_D_CL_O VDATA(1:4), VADDR(5:12), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next 2-6 address registers holds user derivatives. The last address register holds the clamp value.

IMAGE_SAMPLE_D_O

Opcode: 50 (0x32)
Syntax: IMAGE_SAMPLE_D_O VDATA(1:4), VADDR(4:11), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. Next 2-6 address registers holds user derivatives.

IMAGE_SAMPLE_L

Opcode: 36 (0x24)
Syntax: IMAGE_SAMPLE_L VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The last address register holds the LOD value.

IMAGE_SAMPLE_L_O

Opcode: 52 (0x34)
Syntax: IMAGE_SAMPLE_L_O VDATA(1:4), VADDR(3:6), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z. The last address register holds the LOD value.

IMAGE_SAMPLE_LZ

Opcode: 39 (0x27)
Syntax: IMAGE_SAMPLE_LZ VDATA(1:4), VADDR(1:4), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. Force use of mipmap level 0 (???).

IMAGE_SAMPLE_LZ_O

Opcode: 55 (0x37)
Syntax: IMAGE_SAMPLE_LZ_O VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. Force use of mipmap level 0 (???). The first address register holds the offset for X,Y,Z.

IMAGE_SAMPLE_O

Opcode: 48 (0x30)
Syntax: IMAGE_SAMPLE_O VDATA(1:4), VADDR(2:5), SRSRC(4,8), SSAMP(4)
Description: Get sampled pixel value from SRSRC image at address VADDR by using SSAMP sampler. The first address register holds the offset for X,Y,Z.

IMAGE_STORE

Opcode: 8 (0x8)
Syntax: IMAGE_STORE VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store data VDATA into image SRSRC to pixel at address VADDR. Data in VDATA is in format given image resource.
Operation:
PIXELTYPE* V = VMIMG(SRSRC, VADDR) STORE_IMAGE(V, CONVERT_TO_IMAGE(SRSRC, VDATA), DMASK)

IMAGE_STORE_MIP

Opcode: 9 (0x9)
Syntax: IMAGE_STORE_MIP VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store data VDATA into image SRSRC to pixel at address VADDR including MIP index. Data in VDATA is in format given image resource.
Operation:
PIXELTYPE* V = VMIMG_MIP (SRSRC, VADDR) STORE_IMAGE(V, CONVERT_TO_IMAGE(SRSRC, VDATA), DMASK)

IMAGE_STORE_PCK

Opcode: 10 (0xa)
Syntax: IMAGE_STORE_PCK VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store data VDATA into image SRSRC to pixel at address VADDR. Data in VDATA is in raw format.
Operation:
PIXELTYPE* V = VMIMG(SRSRC, VADDR) STORE_IMAGE(V, VDATA, DMASK)

IMAGE_STORE_MIP_PCK

Opcode: 11 (0xb)
Syntax: IMAGE_STORE_MIP_PCK VDATA(1:4), VADDR(1:4), SRSRC(4,8)
Description: Store data VDATA into image SRSRC to pixel at address VADDR including MIP index. Data in VDATA is in raw format.
Operation:
PIXELTYPE* V = VMIMG_MIP(SRSRC, VADDR) STORE_IMAGE(V, VDATA, DMASK)