half / vloada_half PASS
Test metadata
Name | vloada_half |
---|---|
Category | half |
Suite | Khronos OpenCL CTS |
Suite version | 80a4a833 |
Executable path | /test_conformance/half/bin/test_half |
Arguments | vloada_half |
Run metadata
Parent job | Job 44 |
---|---|
Revision | a8dd7803f9a1cce… / phab-diff-471783: [SPIRV] support enqueue_kernel builtin functio… |
Driver version | NEO 22.34.24023; IGC 1.0.11702.1 |
Date run | 10/30/2022 |
Duration | 0 minutes |
Status | PASS |
Runner output
Stdout from the runner of the corresponding OpenCL CTS test:
test_half vloada_halfTest binary built Sep 8 2022 23:41:05
sizeof( void*) = 8
ARCH: x86_64
system name = Linux
node name = testrunner1
release = 5.15.0-52-generic
version = #58-Ubuntu SMP Thu Oct 13 08:03:55 UTC 2022
machine = x86_64
Profile: Full
Initializing random seed to 0.
Requesting Default device based on command line for platform index 0 and device index 0
Compute Device Name = Intel(R) UHD Graphics 630 [0x3e98], Compute Device Vendor = Intel(R) Corporation, Compute Device Version = OpenCL 3.0 NEO , CL C Version = OpenCL C 1.2
Device latest conformance version passed: v2022-04-22-00
Supports single precision denormals: YES
sizeof( void*) = 8 (host)
sizeof( void*) = 8 (device)
24 compute devices at 1.200000 GHz
Max thread group size is 256.
Using const buffer size 0x200000 (2097152)
Compute Device info:
Device Name: Intel(R) UHD Graphics 630 [0x3e98]
Vendor: Intel(R) Corporation
Device Version: OpenCL 3.0 NEO
OpenCL C Version: OpenCL C 1.2
Driver Version: 22.34.0
Processing with 24 devices
Device Frequency: 1200 MHz
Has double? YES
Test double? YES
vloada_half...
.
vloada_half passed
PASSED sub-test.
PASSED test.
Stderr from the runner of the corresponding OpenCL CTS test:
Runner dumps
The files below were generated by the Intel Graphics Compiler after setting the IGC_ShaderDumpEnable=1
variable. OCL_asmX_before_spirv_backend.spv is the input binary SPIR-V generated by the IGC's OpenCL
frontend, from which the SPIRV-LLVM-Translator generates OCL_asmX_before_spirv_backend.ll module which is
passed to the SPIR-V backend. The backend outputs OCL_asmX_after_spirv_backend.spv SPIR-V binary which
returns to IGC to be translated to LLVM module OCL_asmX_after_spirv_backend.ll for further compilation.