* pip-compile docs/requirements.txt Signed-off-by: Peter Jun Park <peter.park@amd.com> Add Sphinx docs config Signed-off-by: Peter Jun Park <peter.park@amd.com> Add Sphinx config Signed-off-by: Peter Jun Park <peter.park@amd.com> Update docs build config Signed-off-by: Peter Jun Park <peter.park@amd.com> * style(conf.py): Apply black formatting to docs/conf.py Signed-off-by: Sam Wu <22262939+samjwu@users.noreply.github.com> * Update docs requirements Signed-off-by: Peter Jun Park <peter.park@amd.com> Update to rocm-docs-core 1.3.0 Signed-off-by: Peter Jun Park <peter.park@amd.com> Update docs requirements Signed-off-by: Peter Jun Park <peter.park@amd.com> pip-compile requirements Signed-off-by: Peter Jun Park <peter.park@amd.com> bump rocm-docs-core to 1.5.0 bump rocm-docs-core to 1.4.1 Signed-off-by: Peter Jun Park <peter.park@amd.com> * Add dependabot.yml and update CODEOWNERS Signed-off-by: Peter Jun Park <peter.park@amd.com> Update toc and conf Signed-off-by: Peter Jun Park <peter.park@amd.com> update dependabot * Port docs to rocm-docs standard Signed-off-by: Peter Jun Park <peter.park@amd.com> Add toc and Diataxis cards Signed-off-by: Peter Jun Park <peter.park@amd.com> Add basic file structure Signed-off-by: Peter Jun Park <peter.park@amd.com> add glossary Signed-off-by: Peter Jun Park <peter.park@amd.com> add includes Signed-off-by: Peter Jun Park <peter.park@amd.com> Add license.rst Signed-off-by: Peter Jun Park <peter.park@amd.com> add compatible hw Signed-off-by: Peter Jun Park <peter.park@amd.com> fix spelling and license Signed-off-by: Peter Jun Park <peter.park@amd.com> clean up index Signed-off-by: Peter Jun Park <peter.park@amd.com> clean up installation guides Signed-off-by: Peter Jun Park <peter.park@amd.com> add basic usage (quickstart) Signed-off-by: Peter Jun Park <peter.park@amd.com> add ref to global options update toc Signed-off-by: Peter Jun Park <peter.park@amd.com> modularize modes and global options Signed-off-by: Peter Jun Park <peter.park@amd.com> add profile mode Signed-off-by: Peter Jun Park <peter.park@amd.com> fixes Signed-off-by: Peter Jun Park <peter.park@amd.com> reorg and clean up Signed-off-by: Peter Jun Park <peter.park@amd.com> add dynamic omniperf version number in installation guide Signed-off-by: Peter Jun Park <peter.park@amd.com> add datatemplate more reorg Signed-off-by: Peter Jun Park <peter.park@amd.com> clean up Signed-off-by: Peter Jun Park <peter.park@amd.com> reorg images move profile mode reorg reorg reorg more fix formatting fix headings ref anchor mi2xx note add extlinks add extlinks Signed-off-by: Peter Jun Park <peter.park@amd.com> black format fix formatting, anchors Signed-off-by: Peter Jun Park <peter.park@amd.com> reorg fix words and formatting Signed-off-by: Peter Jun Park <peter.park@amd.com> formatting Signed-off-by: Peter Jun Park <peter.park@amd.com> same reorg format fix formatting fix toc Signed-off-by: Peter Jun Park <peter.park@amd.com> format * impr internal linking and fix sphinx warnings Signed-off-by: Peter Jun Park <peter.park@amd.com> * add spellcheck/linting from rocm-docs-core Signed-off-by: Peter Jun Park <peter.park@amd.com> fix rst directives satisfy spellcheck fix more spelling rm unused files fix spelling and update wordlist * bump rocm-docs-core to 1.6.0 Signed-off-by: Peter Jun Park <peter.park@amd.com> * add fixes from @skyreflectedinmirrors and @lpaoletti Signed-off-by: Peter Jun Park <peter.park@amd.com> add references to toc Signed-off-by: Peter Jun Park <peter.park@amd.com> add more fixes Signed-off-by: Peter Jun Park <peter.park@amd.com> * add package manager install section Signed-off-by: Peter Jun Park <peter.park@amd.com> * add fixes Signed-off-by: Peter Jun Park <peter.park@amd.com> add metadata and fixes Signed-off-by: Peter Jun Park <peter.park@amd.com> add fixes bump to 1.6.1 more fixes fix fmt in profiling examples Signed-off-by: Peter Jun Park <peter.park@amd.com> add missing mem type table Signed-off-by: Peter Jun Park <peter.park@amd.com> fix formatting fmt * add custom css Signed-off-by: Peter Jun Park <peter.park@amd.com> fix css fs * make images/figs click-to-expand Signed-off-by: Peter Jun Park <peter.park@amd.com> add missed image update fix link * update documentation link in README Signed-off-by: Peter Jun Park <peter.park@amd.com> * formatting fixes Signed-off-by: Peter Jun Park <peter.park@amd.com> more formatting * fix heading Signed-off-by: Peter Jun Park <peter.park@amd.com> * move archived docs Signed-off-by: Peter Jun Park <peter.park@amd.com> * exclude archived docs from docs build Signed-off-by: Peter Jun Park <peter.park@amd.com> * update archived docs workflow Signed-off-by: Peter Jun Park <peter.park@amd.com> move files update archived docs workflow Signed-off-by: Peter Jun Park <peter.park@amd.com> fix version number clean up workflow workflow test workflow test another workflow test * rm docs linting Signed-off-by: Peter Jun Park <peter.park@amd.com> * Apply cmake-format suggested changes Signed-off-by: Sam Wu <22262939+samjwu@users.noreply.github.com> * Apply cmake-format Signed-off-by: Sam Wu <22262939+samjwu@users.noreply.github.com> --------- Signed-off-by: Peter Jun Park <peter.park@amd.com> Signed-off-by: Sam Wu <22262939+samjwu@users.noreply.github.com> Co-authored-by: Sam Wu <22262939+samjwu@users.noreply.github.com>
20 KiB
Profile Mode
.. toctree::
:glob:
:maxdepth: 5
The Omniperf repository
includes source code for a sample GPU compute workload,
vcopy.cpp. A copy of this file is available in the share/sample
subdirectory after a normal Omniperf installation, or via the
$OMNIPERF_SHARE/sample directory when using the supplied modulefile.
A compiled version of this workload is used throughout the following sections to demonstrate the use of Omniperf in MI GPU performance analysis. Unless otherwise noted, the performance analysis is done on the MI200 platform.
Workload Compilation
vcopy compilation:
$ hipcc vcopy.cpp -o vcopy
$ ls
vcopy vcopy.cpp
$ ./vcopy 1048576 256
Finished allocating vectors on the CPU
Finished allocating vectors on the GPU
Finished copying vectors to the GPU
sw thinks it moved 1.000000 KB per wave
Total threads: 1048576, Grid Size: 4096 block Size:256, Wavefronts:16384:
Launching the kernel on the GPU
Finished executing kernel
Finished copying the output vector from the GPU to the CPU
Releasing GPU memory
Releasing CPU memory
Omniperf Profiling
The omniperf script, availible through the Omniperf repository, is used to aquire all necessary perfmon data through analysis of compute workloads.
omniperf help:
$ omniperf profile --help
ROC Profiler: /usr/bin/rocprof
usage:
omniperf profile --name <workload_name> [profile options] [roofline options] -- <profile_cmd>
-------------------------------------------------------------------------------
Examples:
omniperf profile -n vcopy_all -- ./vcopy 1048576 256
omniperf profile -n vcopy_SPI_TCC -b SQ TCC -- ./vcopy 1048576 256
omniperf profile -n vcopy_kernel -k vecCopy -- ./vcopy 1048576 256
omniperf profile -n vcopy_disp -d 0 -- ./vcopy 1048576 256
omniperf profile -n vcopy_roof --roof-only -- ./vcopy 1048576 256
-------------------------------------------------------------------------------
Help:
-h, --help show this help message and exit
General Options:
-v, --version show program's version number and exit
-V, --verbose Increase output verbosity
Profile Options:
-n , --name Assign a name to workload.
-p , --path Specify path to save workload.
(DEFAULT: /home/colramos/GitHub/omniperf/workloads/<name>)
-k [ ...], --kernel [ ...] Kernel filtering.
-b [ ...], --ipblocks [ ...] IP block filtering:
SQ
SQC
TA
TD
TCP
TCC
SPI
CPC
CPF
-d [ ...], --dispatch [ ...] Dispatch ID filtering.
--no-roof Profile without collecting roofline data.
-- [ ...] Provide command for profiling after double dash.
Standalone Roofline Options:
--roof-only Profile roofline data only.
--sort Overlay top kernels or top dispatches: (DEFAULT: kernels)
kernels
dispatches
-m , --mem-level Filter by memory level: (DEFAULT: ALL)
HBM
L2
vL1D
LDS
--device GPU device ID. (DEFAULT: ALL)
--kernel-names Include kernel names in roofline plot.
The following sample command profiles the vcopy workload.
vcopy profiling:
$ omniperf profile --name vcopy -- ./vcopy 1048576 256
Resolving rocprof
ROC Profiler: /usr/bin/rocprof
-------------
Profile only
-------------
omniperf ver: 1.0.8-PR1
Path: /home/colramos/GitHub/omniperf-pub/workloads
Target: mi200
Command: /home/colramos/vcopy 1048576 256
Kernel Selection: None
Dispatch Selection: None
IP Blocks: All
Log: /home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/log.txt
/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt
RPL: on '230411_165021' from '/opt/rocm-5.2.1' in '/home/colramos/GitHub/omniperf-pub'
RPL: profiling '""/home/colramos/vcopy 1048576 256""'
RPL: input file '/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt'
RPL: output dir '/tmp/rpl_data_230411_165021_26406'
RPL: result dir '/tmp/rpl_data_230411_165021_26406/input0_results_230411_165021'
Finished allocating vectors on the CPU
ROCProfiler: input from "/tmp/rpl_data_230411_165021_26406/input0.xml"
gpu_index =
kernel =
range =
3 metrics
SQ_INSTS_SMEM, SQ_INST_LEVEL_SMEM, SQ_ACCUM_PREV_HIRES
Finished allocating vectors on the GPU
Finished copying vectors to the GPU
sw thinks it moved 1.000000 KB per wave
Total threads: 1048576, Grid Size: 4096 block Size:256, Wavefronts:16384:
Launching the kernel on the GPU
Finished executing kernel
Finished copying the output vector from the GPU to the CPU
Releasing GPU memory
Releasing CPU memory
... ...
ROCPRofiler: 1 contexts collected, output directory /tmp/rpl_data_220527_130317_1787038/input_results_220527_130317
File 'workloads/vcopy/mi200/timestamps.csv' is generating
Total detected GPU devices: 2
GPU Device 0: Profiling...
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
HBM BW, GPU ID: 0, workgroupSize:256, workgroups:2097152, experiments:100, traffic:8589934592 bytes, duration:6.2 ms, mean:1382.7 GB/sec, stdev=2.4 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
L2 BW, GPU ID: 0, workgroupSize:256, workgroups:8192, experiments:100, traffic:687194767360 bytes, duration:157.9 ms, mean:4358.7 GB/sec, stdev=4.7 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
L1 BW, GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, traffic:26843545600 bytes, duration:3.3 ms, mean:8247.1 GB/sec, stdev=5.1 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
LDS BW, GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, traffic:33554432000 bytes, duration:2.4 ms, mean:14246.3 GB/sec, stdev=29.5 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak FLOPs (FP32), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:274877906944, duration:14.507 ms, mean:18949.6 GFLOPS, stdev=4.5 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak FLOPs (FP64), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:137438953472, duration:7.5 ms, mean:18308.197266.1 GFLOPS, stdev=3.6 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (BF16), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:2147483648000, duration:14.0 ms, mean:153574.8 GFLOPS, stdev=79.9 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F16), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:2147483648000, duration:14.5 ms, mean:147680.1 GFLOPS, stdev=34.7 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F32), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:536870912000, duration:14.5 ms, mean:37142.1 GFLOPS, stdev=8.4 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F64), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, FLOP:268435456000, duration:7.3 ms, mean:36919.5 GFLOPS, stdev=14.1 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA IOPs (I8), GPU ID: 0, workgroupSize:256, workgroups:16384, experiments:100, IOP:2147483648000, duration:14.4 ms, mean:149570.6 GOPS, stdev=41.7 GOPS
GPU Device 1: Profiling...
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
HBM BW, GPU ID: 1, workgroupSize:256, workgroups:2097152, experiments:100, traffic:8589934592 bytes, duration:6.2 ms, mean:1382.7 GB/sec, stdev=2.9 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
L2 BW, GPU ID: 1, workgroupSize:256, workgroups:8192, experiments:100, traffic:687194767360 bytes, duration:157.6 ms, mean:4371.0 GB/sec, stdev=4.1 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
L1 BW, GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, traffic:26843545600 bytes, duration:3.2 ms, mean:8297.4 GB/sec, stdev=11.6 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
LDS BW, GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, traffic:33554432000 bytes, duration:1.8 ms, mean:18839.2 GB/sec, stdev=44.5 GB/sec
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak FLOPs (FP32), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:274877906944, duration:14.441 ms, mean:19037.6 GFLOPS, stdev=2.7 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak FLOPs (FP64), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:137438953472, duration:7.5 ms, mean:18402.255859.1 GFLOPS, stdev=20.1 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (BF16), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:2147483648000, duration:13.9 ms, mean:154240.3 GFLOPS, stdev=119.3 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F16), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:2147483648000, duration:14.5 ms, mean:148450.1 GFLOPS, stdev=112.6 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F32), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:536870912000, duration:14.4 ms, mean:37335.2 GFLOPS, stdev=43.1 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA FLOPs (F64), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, FLOP:268435456000, duration:7.2 ms, mean:37105.3 GFLOPS, stdev=39.5 GFLOPS
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
Peak MFMA IOPs (I8), GPU ID: 1, workgroupSize:256, workgroups:16384, experiments:100, IOP:2147483648000, duration:14.3 ms, mean:150317.8 GOPS, stdev=203.5 GOPS
You'll notice two stages in default Omniperf profiling. The first stage collects all the counters needed for Omniperf analysis (omitting any filters you've provided). The second stage collects data for the roofline analysis (this stage can be disabled using --no-roof)
At the end of the profiling, all resulting csv files should be located in a SOC specific target directory, e.g.:
- "mi200" for the AMD Instinct (tm) MI-200 family of accelerators
- "mi100" for the AMD Instinct (tm) MI-100 family of accelerators etc. The SOC names are generated as a part of Omniperf, and do not necessarily distinguish between different accelerators in the same family (e.g., an AMD Instinct (tm) MI-210 vs an MI-250)
Note: Additionally, you'll notice a few extra files. An SoC parameters file, sysinfo.csv, is created to reflect the target device settings. All profiling output is stored in log.txt. Roofline specific benchmark results are stored in roofline.csv.
$ ls workloads/vcopy/mi200/
total 112
drwxrwxr-x 3 colramos colramos 4096 Apr 11 16:42 .
drwxrwxr-x 3 colramos colramos 4096 Apr 11 16:42 ..
-rw-rw-r-- 1 colramos colramos 40750 Apr 11 16:44 log.txt
drwxrwxr-x 2 colramos colramos 4096 Apr 11 16:42 perfmon
-rw-rw-r-- 1 colramos colramos 25877 Apr 11 16:42 pmc_perf.csv
-rw-rw-r-- 1 colramos colramos 1716 Apr 11 16:44 roofline.csv
-rw-rw-r-- 1 colramos colramos 429 Apr 11 16:42 SQ_IFETCH_LEVEL.csv
-rw-rw-r-- 1 colramos colramos 366 Apr 11 16:42 SQ_INST_LEVEL_LDS.csv
-rw-rw-r-- 1 colramos colramos 391 Apr 11 16:42 SQ_INST_LEVEL_SMEM.csv
-rw-rw-r-- 1 colramos colramos 384 Apr 11 16:42 SQ_INST_LEVEL_VMEM.csv
-rw-rw-r-- 1 colramos colramos 509 Apr 11 16:42 SQ_LEVEL_WAVES.csv
-rw-rw-r-- 1 colramos colramos 498 Apr 11 16:42 sysinfo.csv
-rw-rw-r-- 1 colramos colramos 309 Apr 11 16:42 timestamps.csv
Filtering
To reduce profiling time and the counters collected one may use profiling filters. Profiling filters and their functionality depend on the underlying profiler being used. While Omniperf is profiler agnostic, we've provided a detailed description of profiling filters available when using Omniperf with rocProfiler below.
Filtering Options:
-
The
-k<kernel> flag allows for kernel filtering. Useage is equivalent with the current rocprof utility (see details below). -
The
-d<dispatch> flag allows for dispatch ID filtering. Useage is equivalent with the current rocprof utility (see details below). -
The
-b<ipblocks> allows system profiling on one or more selected IP blocks to speed up the profiling process. One can gradually incorporate more IP blocks, without overwriting performance data acquired on other IP blocks.
Be cautious while combining different profiling filters in the same call. Conflicting filters may result in error.
i.e. filtering dispatch X, but dispatch X does not match your kernel name filter
IP Block Filtering
One can profile a selected IP Block to speed up the profiling process. All profiling results are accumulated in the same target directory, without overwriting those for other IP blocks, hence enabling the incremental profiling and analysis.
The following example only gathers hardware counters for SQ and TCC, skipping all other IP Blocks:
$ omniperf profile --name vcopy -b SQ TCC -- ./sample/vcopy 1048576 256
Resolving rocprof
ROC Profiler: /usr/bin/rocprof
-------------
Profile only
-------------
omniperf ver: 1.0.8-PR1
Path: /home/colramos/GitHub/omniperf-pub/workloads
Target: mi200
Command: /home/colramos/vcopy 1048576 256
Kernel Selection: None
Dispatch Selection: None
IP Blocks: ['SQ', 'TCC']
fname: pmc_sq_perf2: Added
fname: pmc_td_perf: Skipped
fname: pmc_tcc2_perf: Skipped
fname: pmc_tcp_perf: Skipped
fname: pmc_spi_perf: Skipped
fname: pmc_sq_perf4: Added
fname: pmc_sqc_perf1: Skipped
fname: pmc_tcc_perf: Added
fname: pmc_cpf_perf: Skipped
fname: pmc_sq_perf8: Added
fname: pmc_cpc_perf: Skipped
fname: pmc_sq_perf1: Added
fname: pmc_ta_perf: Skipped
fname: pmc_sq_perf3: Added
fname: pmc_sq_perf6: Added
Log: /home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/log.txt
...
Kernel Filtering
Kernel filtering is based on the name of the kernel(s) you'd like to isolate. Use a kernel name substring list to isolate desired kernels.
The following example demonstrates profiling isolating the kernel matching substring "vecCopy":
$ omniperf profile --name vcopy -k vecCopy -- ./vcopy 1048576 256
Resolving rocprof
ROC Profiler: /usr/bin/rocprof
-------------
Profile only
-------------
omniperf ver: 1.0.8-PR1
Path: /home/colramos/GitHub/omniperf-pub/workloads
Target: mi200
Command: /home/colramos/vcopy 1048576 256
Kernel Selection: ['vecCopy']
Dispatch Selection: None
IP Blocks: All
Log: /home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/log.txt
/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt
RPL: on '230411_170300' from '/opt/rocm-5.2.1' in '/home/colramos/GitHub/omniperf-pub'
RPL: profiling '""/home/colramos/vcopy 1048576 256""'
RPL: input file '/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt'
RPL: output dir '/tmp/rpl_data_230411_170300_29696'
RPL: result dir '/tmp/rpl_data_230411_170300_29696/input0_results_230411_170300'
Finished allocating vectors on the CPU
ROCProfiler: input from "/tmp/rpl_data_230411_170300_29696/input0.xml"
gpu_index =
kernel = vecCopy
... ...
Dispatch Filtering
Dispatch filtering is based on the global dispatch index of kernels in a run.
The following example profiles only the 0th dispatched kernel in execution of the application:
$ omniperf profile --name vcopy -d 0 -- ./vcopy 1048576 256
Resolving rocprof
ROC Profiler: /usr/bin/rocprof
-------------
Profile only
-------------
omniperf ver: 1.0.8-PR1
Path: /home/colramos/GitHub/omniperf-pub/workloads
Target: mi200
Command: /home/colramos/vcopy 1048576 256
Kernel Selection: None
Dispatch Selection: ['0']
IP Blocks: All
Log: /home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/log.txt
/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt
RPL: on '230411_170356' from '/opt/rocm-5.2.1' in '/home/colramos/GitHub/omniperf-pub'
RPL: profiling '""/home/colramos/vcopy 1048576 256""'
RPL: input file '/home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200/perfmon/SQ_INST_LEVEL_SMEM.txt'
RPL: output dir '/tmp/rpl_data_230411_170356_30314'
RPL: result dir '/tmp/rpl_data_230411_170356_30314/input0_results_230411_170356'
Finished allocating vectors on the CPU
ROCProfiler: input from "/tmp/rpl_data_230411_170356_30314/input0.xml"
gpu_index =
kernel =
range = 0
...
Standalone Roofline
If you're only interested in generating roofline analysis data try using --roof-only. This will only collect counters relevent to roofline, as well as generate a standalone .pdf output of your roofline plot.
Standalone Roofline Options:
-
The
--sort<desired_sort> allows you to specify whether you'd like to overlay top kernel or top dispatch data in your roofline plot. -
The
-m<cache_level> allows you to specify specific level(s) of cache you'd like to include in your roofline plot. -
The
--device<gpu_id> allows you to specify a device id to collect performace data from when running our roofline benchmark on your system. -
If you'd like to distinguish different kernels in your .pdf roofline plot use
--kernel-names. This will give each kernel a unique marker identifiable from the plot's key.
Roofline Only
The following example demonstrates profiling roofline data only:
$ omniperf profile --name vcopy --roof-only -- ./vcopy 1048576 256
Resolving rocprof
ROC Profiler: /usr/bin/rocprof
--------
Roofline only
--------
Checking for roofline.csv in /home/colramos/GitHub/omniperf-pub/workloads/vcopy/mi200
No roofline data found. Generating...
Empirical Roofline Calculation
Copyright © 2022 Advanced Micro Devices, Inc. All rights reserved.
Total detected GPU devices: 4
GPU Device 0: Profiling...
99% [||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ]
... ...
Checking for roofline.csv in /home/colramos/GitHub/omniperf-pub/workloads/mix/mi200
Checking for sysinfo.csv in /home/colramos/GitHub/omniperf-pub/workloads/mix/mi200
Checking for pmc_perf.csv in /home/colramos/GitHub/omniperf-pub/workloads/mix/mi200
Empirical Roofline PDFs saved!
An inspection of our workload output folder shows .pdf plots were generated successfully
$ ls workloads/vcopy/mi200/
total 176
drwxrwxr-x 3 colramos colramos 4096 Apr 11 17:18 .
drwxrwxr-x 3 colramos colramos 4096 Apr 11 17:15 ..
-rw-rw-r-- 1 colramos colramos 13271 Apr 11 17:18 empirRoof_gpu-ALL_fp32.pdf
-rw-rw-r-- 1 colramos colramos 13175 Apr 11 17:18 empirRoof_gpu-ALL_int8_fp16.pdf
-rw-rw-r-- 1 colramos colramos 26560 Apr 11 17:16 log.txt
drwxrwxr-x 2 colramos colramos 4096 Apr 11 17:16 perfmon
-rw-rw-r-- 1 colramos colramos 54031 Apr 11 17:16 pmc_perf.csv
-rw-rw-r-- 1 colramos colramos 1714 Apr 11 17:16 roofline.csv
-rw-rw-r-- 1 colramos colramos 457 Apr 11 17:16 sysinfo.csv
-rw-rw-r-- 1 colramos colramos 37521 Apr 11 17:16 timestamps.csv
A sample empirRoof_gpu-ALL_fp32.pdf looks something like this:
