libgav1

Libgav1 is an AV1 decoder developed by Google for AV1 profile 0/1 compliance.

To run this test with the Phoronix Test Suite, the basic command is: phoronix-test-suite benchmark libgav1.

Project Site

chromium.googlesource.com

Source Repository

chromium.googlesource.com

Test Created

5 October 2019

Last Updated

6 February 2022

Test Maintainer

Michael Larabel

Test Type

Processor

Average Install Time

3 Minutes, 17 Seconds

Average Run Time

10 Minutes, 20 Seconds

Test Dependencies

C/C++ Compiler Toolchain + CMake + Yasm Assembler + Nasm Assembler

Accolades

20k+ Downloads

Supported Platforms

* Uploading of benchmark result data to OpenBenchmarking.org is always optional (opt-in) via the Phoronix Test Suite for users wishing to share their results publicly.
** Data based on those opting to upload their test results to OpenBenchmarking.org and users enabling the opt-in anonymous statistics reporting while running benchmarks from an Internet-connected platform.
*** Test profile page view reporting began March 2021.
Data updated weekly as of 8 November 2024.

Revision History

pts/libgav1-1.2.1 [View Source] Sun, 06 Feb 2022 13:24:56 GMT
Update download mirrors.

pts/libgav1-1.2.0 [View Source] Tue, 18 Jan 2022 18:17:16 GMT
Update against libgav1 0.17 upstream.

pts/libgav1-1.1.0 [View Source] Thu, 06 May 2021 09:38:49 GMT
Update against libgav1 0.16.3 upstream.

pts/libgav1-1.0.1 [View Source] Fri, 22 Nov 2019 19:40:08 GMT
Update download links per https://github.com/phoronix-test-suite/test-profiles/issues/113

pts/libgav1-1.0.0 [View Source] Sat, 05 Oct 2019 08:07:26 GMT
Initial commit of Google libgav1 / GAV1 benchmark.

Suites Using This Test

Video Encoding

C/C++ Compiler Tests

Encoding

Multi-Core

AV1

Creator Workloads

Performance Metrics

Analyze Test Configuration:

libgav1 0.17

Video Input: Summer Nature 4K

OpenBenchmarking.org metrics for this test profile configuration based on 586 public results since 18 January 2022 with the latest data as of 1 August 2024.

Below is an overview of the generalized performance for components where there is sufficient statistically significant data based upon user-uploaded results. It is important to keep in mind particularly in the Linux/open-source space there can be vastly different OS configurations, with this overview intended to offer just general guidance as to the performance expectations.

Component

Percentile Rank

# Compatible Public Results

FPS (Average)

Intel Core i9-13900K

99th

122 ^{+/- 5}

AMD Ryzen 5 7600X 6-Core

97th

115

Intel Core i5-13600K

94th

113 ^{+/- 7}

AMD Ryzen 9 7950X 16-Core

94th

113 ^{+/- 1}

AMD Ryzen 7 8700G

92nd

110 ^{+/- 1}

AMD Ryzen 7 5800X3D 8-Core

92nd

109 ^{+/- 4}

AMD Ryzen 9 7900X 12-Core

90th

100 ^{+/- 15}

Intel Core i9-12900K

88th

97 ^{+/- 10}

Intel Core i5-13400

88th

Intel Core i5-12600K

87th

94 ^{+/- 4}

AMD Ryzen 7 5800X 8-Core

85th

92 ^{+/- 7}

AMD Ryzen 5 5600X 6-Core

81st

Intel Core i9-11900K

79th

85 ^{+/- 1}

AMD Ryzen 9 5900X 12-Core

79th

85 ^{+/- 2}

AMD Ryzen 9 5950X 16-Core

79th

85 ^{+/- 8}

AMD Ryzen 7 5700G

77th

84 ^{+/- 1}

Mid-Tier

75th

< 82

Intel Core i9-10900K

75th

Intel Core i5-12400

72nd

76 ^{+/- 2}

Intel Core i9-9900K

71st

74 ^{+/- 5}

AMD Ryzen 5 5600G

71st

74 ^{+/- 2}

AMD Ryzen 7 PRO 5850U

68th

Intel Xeon E-2278G

65th

67 ^{+/- 2}

AMD Ryzen 5 5500

65th

67 ^{+/- 2}

AMD Ryzen 9 3950X 16-Core

63rd

65 ^{+/- 3}

Intel Core i5-10600K

59th

Intel Core i5-11600K

59th

AMD Ryzen 9 3900X 12-Core

58th

62 ^{+/- 4}

AMD Ryzen 5 3600XT 6-Core

57th

AMD Ryzen 7 3700X 8-Core

56th

60 ^{+/- 4}

ARMv8 Neoverse-N1 32-Core

55th

AMD EPYC 72F3 8-Core

54th

59 ^{+/- 6}

Intel Core i7-8700K

53rd

AMD Ryzen 3 3300X 4-Core

53rd

Median

50th

Apple M2

50th

AMD Ryzen 9 5900HX

49th

53 ^{+/- 6}

Intel Core i7-10700T

48th

53 ^{+/- 1}

Apple M1

47th

AMD Ryzen 7 3800XT 8-Core

44th

AMD Ryzen 3 3100 4-Core

43rd

50 ^{+/- 2}

AMD Ryzen Threadripper 3970X 32-Core

42nd

Intel Xeon E3-1275 v6

41st

Intel Core i3-10100

40th

AMD Ryzen Threadripper 2950X 16-Core

39th

46 ^{+/- 6}

Intel Core i7-1165G7

39th

46 ^{+/- 1}

AMD Ryzen 5 5500U

38th

Intel Core i7-5775C

35th

AMD Ryzen Threadripper 3990X 64-Core

34th

43 ^{+/- 1}

Intel Core i7-1185G7

34th

43 ^{+/- 1}

AMD Ryzen 7 2700 Eight-Core

34th

43 ^{+/- 4}

Intel Xeon E3-1280 v5

33rd

32nd

30th

29th

26th

37 ^{+/- 1}

AMD Ryzen Threadripper 2990WX 32-Core

26th

37 ^{+/- 2}

Low-Tier

25th

< 37

AMD Ryzen Threadripper 2970WX 24-Core

24th

37 ^{+/- 2}

AMD Ryzen 5 2400G

24th

Intel Core i7-8565U

23rd

36 ^{+/- 1}

Intel Core i7-1065G7

22nd

AMD Ryzen 7 4700U

19th

Intel Xeon E3-1235L v5

18th

Intel Celeron G6900

17th

AMD Ryzen 7 4800U

16th

2 x AMD EPYC 75F3 32-Core

15th

Intel Core i3-7100

14th

Intel Xeon Silver 4216

12th

Intel Core i7-5960X

12th

Intel Core i9-10980XE

11th

2 x Intel Xeon Gold 5220R

10th

2 x AMD EPYC 7742 64-Core

8th

2 x AMD EPYC 7601 32-Core

6th

AMD EPYC 7551 32-Core

5th

AMD Ryzen 3 3200U

4th

Ampere eMAG ARMv8 32-Core

2nd

Based on OpenBenchmarking.org data, the selected test / test configuration (libgav1 0.17 - Video Input: Summer Nature 4K) has an average run-time of 4 minutes. By default this test profile is set to run at least 3 times but may increase if the standard deviation exceeds pre-defined defaults or other calculations deem additional runs necessary for greater statistical accuracy of the result.

Based on public OpenBenchmarking.org results, the selected test / test configuration has an average standard deviation of 0.1%.

Does It Scale Well With Increasing Cores?

No, based on the automated analysis of the collected public benchmark data, this test / test settings does not generally scale well with increasing CPU core counts. Data based on publicly available results for this test / test settings, separated by vendor, result divided by the reference CPU clock speed, grouped by matching physical CPU core count, and normalized against the smallest core count tested from each vendor for each CPU having a sufficient number of test samples and statistically significant data.

Notable Instruction Set Usage

Notable instruction set extensions supported by this test, based on an automatic analysis by the Phoronix Test Suite / OpenBenchmarking.org analytics engine.

Instruction Set

Support

Instructions Detected

SSE2 (SSE2)

Used by default on supported hardware.

MOVD MOVDQA PSHUFD PUNPCKLQDQ MOVDQU MULSD CVTSI2SD DIVSD COMISD UCOMISD MOVAPD ANDPD CVTTSD2SI XORPD MOVMSKPD SUBSD ADDSD ANDNPD CMPNLESD ORPD PADDQ PSHUFLW PSRLDQ PMULUDQ PSLLDQ PSHUFHW PUNPCKHQDQ

SSE3 (SSE3)

Used by default on supported hardware.

MOVDDUP

SSSE3 (SSSE3)

Used by default on supported hardware.

PSHUFB PABSW PSIGNW PHADDW PHADDD PMADDUBSW PALIGNR PMULHRSW PABSD PSIGNB

Advanced Vector Extensions (AVX)

Used by default on supported hardware.
Found on Intel processors since Sandy Bridge (2011).
Found on AMD processors since Bulldozer (2011).

VZEROUPPER VBROADCASTSS VINSERTF128 VEXTRACTF128 VPERM2F128

Advanced Vector Extensions 2 (AVX2)

Used by default on supported hardware.
Found on Intel processors since Haswell (2013).
Found on AMD processors since Excavator (2016).

VPBROADCASTW VINSERTI128 VEXTRACTI128 VPERM2I128 VPBROADCASTD VPERMQ VPBROADCASTQ VPBLENDD VPERMD VPGATHERQD VPGATHERDD VPBROADCASTB VPSRAVD VPSLLVD

FMA (FMA)

Requires passing a supported compiler/build flag (verified with targets: skylake, tigerlake, cascadelake, sapphirerapids, alderlake, znver2, znver3).
Found on Intel processors since Haswell (2013).
Found on AMD processors since Bulldozer (2011).

VFMADD132SD

Advanced Vector Extensions 512 (AVX512)

Requires passing a supported compiler/build flag (verified with targets: cascadelake, sapphirerapids).

(ZMM REGISTER USE)

The test / benchmark does honor compiler flag changes.

Last automated analysis: 18 January 2022

This test profile binary relies on the shared libraries libm.so.6, libc.so.6.

Tested CPU Architectures

This benchmark has been successfully tested on the below mentioned architectures. The CPU architectures listed is where successful OpenBenchmarking.org result uploads occurred, namely for helping to determine if a given test is compatible with various alternative CPU architectures.

CPU Architecture

Kernel Identifier

Verified On

Intel / AMD x86 64-bit

x86_64

(Many Processors)

RISC-V 64-bit

riscv64

rv64imafdcvsu

ARMv8 64-bit

aarch64

ARMv8 Cortex-A72 4-Core, ARMv8 Cortex-A76 4-Core, ARMv8 Neoverse-N1 32-Core, Ampere ARMv8 Neoverse-N1 256-Core, Ampere eMAG ARMv8 32-Core, Apple M1, Apple M2

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